LIBRARY ANNEX 2 ''<^. Cornell University Library The original of this book is in the Cornell University Library. There are no known copyright restrictions in the United States on the use of the text. http://www.archive.org/details/cu31924067471833 Thomas Snowden, Rear Admiral, U. S. Navy, Military Governor of Santo Domingo "R. M. Warpibld, Lieutenant Commander, C. E. C, U. S. Navy In Charge of the Secretaryship of State of Fomento and Communications GEOLOGICAL SURVEY OF THE DOMINICAN REPUBLIC Thomas Watland Vatjghan, Geologist in Charge MEMOIRS, VOL. I A GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC T. W. Vaughan, Wythe Cooke, D. D. Condit, C. P. Ross, W. P. WOODRING, AND F. C. CaLKINS Prepared by the United States Geological Survey Official publication of the Secretaryship of State of Fomento and Communications, Dominican Republic WASHINGTON 1921 Thomas Snowden, Rear Admiral, U. S. Navy, Military Governor of Santo Domingo R. M. Warfield, Lieutenant Commander, C. E. C, U. S. Navy In Charge of the Secretaryship of State of Fomento and Communications GEOLOGICAL SURVEY OF THE DOMINICAN REPUBLIC Thomas Wayland Vaughan, Geologist in Charge MEMOIRS, VOL. I A GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC T. W. Vaughan, Wythe Cooke, D. D. Condit, C. P. Ross, W. P. WOODEING, AND F. C. CaLKINS Prepared by the United States Geological Survey Official publication of the Secretaryship of State of Fomento and Communications, Dominican Republic WASHINGTON 1921 PRESS OP GIBSON BROTHERS, INC. WASHINGTON, D. C. CONTENTS. PAGE. Chapter I. Introduction, by Thomas Wayland Vaughan 11 Preliminary arrangements for the geologic survey 11 Field work 12 OflSce work 13 Outline of results 15 Physiography 15 Stratigraphy and geologic correlation 15 Igneous activity and geologic structure 16 Economic geology 16 Acknowledgments 17 Chapter II. Bibliography, by Wendell Phillips Woodring 18 Chapter III. Geography, by Wythe Cooke 26 General features 26 Cordillera Septentrional 27 Samand, Peninsula 28 Cibao Valley 29 Cordillera Central 30 General features 30 Bonao trail 31 Sierra de Ocoa 32 Constanza trail 33 Trail from Sabaneta to San Juan 35 Valley of San Juan 37 Azua Plain 37 Sierra de Neiba 38 Sierra de Martin Garcia 38 Enriquillo Basin 39 Sierra de Bahcruco 39 Southern Peninsula 40 Coastal plain 40 Drainage 41 North slope of the Cordillera Central 41 South slope of the Cordillera Central 42 Cordillera Septentrional 42 Minor watersheds 43 Transportation 43 Railroads 43 Roads and trails 44 Coast line and shore features 44 Manzanillo Bay 44 Monte Cristi Bank 45 Puerto Plata Bay 45 Puerto Plata to Cape Saman^ 46 Samand Bay 46 East coast 47 South coast „ 48 3 4 A GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN BEPUBLIC. PAGE. Chapter IV. Stratigraphic and structural geology and geologic history, by Wythe Cooke - 5" Stratigraphy ^ Basal complex ^^ Character and extent 5" Cordillera Central 50 Samand Peninsula 53 Cretaceous system 53 Tertiary system 56 Eocene series 58 Oligocene series 61 Tabera formation 63 Cevicos Umestone 65 Miocene series 65 Yaque group 65 Subdivisions 65 Previous studies 65 Baitoa formation 66 Bulla conglomerate 66 Cercado formation 67 Gurabo formation 69 Mao Adentro limestone 73 Mao clay 74 Cerros de Sal formation 75 Miocene or Pliocene series 76 Plant-bearing beds at Sdnchez 76 Pliocene series 76 Las Matas formation 76 Quaternary system 76 Structure 77 OutUne of geologic history 79 Chapter V. Metamorphic and igneous rocks, by F. C. Calkins 83 Metamorphic sedimentary rocks 83 Granular intrusive rocks 84 Dike rocks 85 Lavas 86 Tuffaceous rocks 87 Chapter VI. Tertiary and Quaternary stratigraphic paleontology, by Thomas Wayland Vaughan and Wendell PhiUips Woodring 89 Objects of the paleontologic work 89 Paleontologic literature 90 Geologic correlation 91 Relations of Dominican Tertiary and Quaternary biota 94 Eocene 94 OHgocene _ 95 Miocene 96 Yaque group, north side 96 Baitoa formation 96 Cercado formation 96 Modified Cercado fauna 97 Gurabo formation gg Mao Adentro Umestone lOO CONTENTS. 6 PAGE. Chapter VI. Tertiary and Quaternary stratigraphic paleontology, by Thomas Wayland Vaughan and Wendell Phillips Woodring — Continued. Relations of Dominican Tertiary and Quaternary biota — Continued. Miocene — Continued. Yaque group, north side — Continued. Mao clay 101 Monte Cristi district 101 Yaque group, south side 102 Cerros de Sal formation 103 Miocene or Pliocene district of Samand 103 Pleistocene or younger 103 Extinct mammals of the Dominican Republic 104 Lists of localities aad fossils 105 Eocene 105 Middle Oligocene 107 Upper Ohgocene 110 Probably Oligocene Ill Apparently upper Ohgocene 112 Miocene 113 Yaque group, north side 113 Baitoa formation 113 Cercado formation 114 Modified Cercado favma 129 Gurabo formation 130 Deeper water fades of Gurabo formation 147 Mao Adentro limestone 151 Mao clay 153 Miocene or older 153 Yaque group, province of Monte Cristi 154 Yaque group, south side _ 155 Cerros de Sal formation 163 Miocene or Pliocene, Province of Samand Ifi5 PUocence or Pleistocene, Province of Monte Cristi 165 Pleistocene or younger 166 Chapter VII. Geology and water resources of the vicinity of Monte Cristi, by Clyde P. Ross 169 Character and purpose of the work done 169 Topography 169 Geology 171 Quartz diorite 171 Oligocene (?) limestone and sandstone 171 Oligocene tuffs 172 Miocene sedimentary rocks 172 Phocene (?) gravel 175 Pleistocene (?) beach deposits 175 Recent alluvium 175 Structure 176 Water resources 177 Surface water supply 177 6 A GEOLOGICAL RECONNAISSANCE OP THE DOMINICAN KEPUBLIC. PAGE. Chapter VII. Geology and water resources of the vicinity of Monte Cristi, by Clyde P. Ross — Continued. Water resources — Continued. Undergroimd water supply l'^^ Possibility of obtaining ground water 177 Possibility of obtaining artesian water 178 Conclusions and recommendations 179 Chapter VIII. Geology of the Province of Samand, by Clyde P. Ross 181 Topography ~ 1^1 Samand, Peninsula 181 South shore of Samand Bay 182 Geology 182 Basal complex 182 Early Tertiary hmestone conglomerate - 183 OUgocene or Miocene hmestone 183 Miocene or PUocene clay, sand, and conglomerate 184 Pleistocene or Recent terraces and coral reefs 184 Recent deposits — 185 Economic geology 185 Chapter IX. Geology of the provinces of Barahona and Azua, by D. Dale Condit and Clyde P. Ross 186 Area examined 186 Geography 186 Land forms 187 Province of Barahona 187 Province of Azua 188 Drainage 189 Rivers 189 Lakes 189 Springs 192 Chemical composition of spring water 193 Towns and villages 194 Routes of travel 196 Chmate and vegetation 197 Products 198 Geology 199 Stratigraphy „ 199 Pre-Tertiary rocks 199 Tertiary sedimentary rocks 199 Eocene 199 Oligocene 200 Miocene _ 201 Yaque group 201 Cerros de Sal formation 20i Phocene 201 Las Matas formation 201 Quaternary sediments 202 "Coast hmestone" 202 Alluvial deposits 202 CONTENTS. 7 PAGE. Chapteb IX. Geology of the provinces of Barahona and Azua, by D. Dale Condit and Clyde P. Ross — Continued. Geology — Continued. Igneous rocks 202 Geologic structure 203 Areal geology 203 General featiures 203 The Cordillera Central 204 Rio Yaque Valley 206 San Juan Valley 209 General features 209 Local details 210 Area east of Rio Yaque del Sur 212 Enriquillo Basin 213 Outline of geology _ 213 Vicinity of Barbacoa and eastward 214 Cerros de Sal 214 The salt deposits 215 Petroleum possibilities in Enriquillo Basin 219 Sierra Bahoruco south of DuvergS 219 Barahona-Bahoruco coast 221 Azua and vicinity 222 Outline of geology 222 The Azua oil field 223 General features 223 History of development 224 Quality of oil 224 Reported oil seepages east of Azua 225 Summary of economic geology 226 Oil and gas 226 Salines 227 Gypsum 227 Metalliferous deposits 227 Chapter X. Economic geology, by D. Dale Condit and Clyde P. Ross 228 Mining concessions in force in July, 1919 228 Mineral deposits near Hatillo and Maim6n, province of La Vega 228 Magnetite deposits near Hatillo 229 Copper deposits near Hatillo 230 The Maim6n iron deposits 231 La Perseverancia nickel deposit, province of Santo Domingo 231 History of concessions 231 Geography 232 Geology 232 Mining operations 233 Mode of occurrence of nickel 233 Results of sampling 234 Conclusions 235 The San Crist6bal mining district, province of Santo Domingo 236 Location and access 236 8 GEOLOGICAL RECONNAISSANCE OP THE DOMINICAN EEPUBLIC. PAGE. Chapter X. Economic geology, by D. Dale Gondii and Clyde P. Ross — Continued. The San Cristobal mining district, province of Santo Domingo — Continued. History 237 Development 237 Geology - 238 Bficaro Hill ore deposits 239 Ore deposits on San Francisco HUl 1 240 Ija Rama prospect 240 Conclusions.'. 241 Summary statement on economic geology 242 Gold 242 Silver 242 Platinum 242 Nickel 243 Copper 243 Iron 243 Manganese and lead 243 Oil 243 Coal 244 Amber 244 Common salt , 244 Gypsum 244 Other salts 245 Building stone 245 Rock for concrete 245 Road metal 246 Lime 249 Brick 249 Ground water 249 ILLUSTRATIONS. PAGE. Plate I. Physiographic provinces of the Dominican Republic 26 II. A, South front of the Cordillera Septentrional as seen looking north, from a point east of Santiago; B, El Morro de Monte Cristi as seen from the south side; C, Loma la Ciimbre, the summit of the Cordil- lera Septentrional between Altamira and El Aguacate, as seen look- ing northward 28 III. A, Monte Isabel de Torres; B, Santa Barbara de Samand; C, San- chez, showing terraces between the hills and the shore 30 IV. A, Vega Real, Sabana Liana near El Higo Gordo, province of La Vega, with the foothills of the Cordillera Central in the distance; B, Valley of Rio Yaque del Norte north of Esperanza 32 V. A, View northward from Hatillo, 28.5 kilometers northwest of the city of Santo Domingo; B, View southward from Loma Coco be- tween Hatillo and El Madrigal; C, Terrace flat at El Madrigal, on Rio Jaina 34 VI. A, Loma Pefiita as seen from the trail from Sabaneta to Restau- raci6n; B, Siete Picos, looking northeastward from La Mata, be- tween El Madrigal and Sabana Grande 36 Vll. A, Terraces on Rio Magud above San Pedro de Macorls; B, Sierra Prieta; cUff of white limestone; C, Gorge of Rio Mao above BuUa 40 VIII. Geologic sketch map of the Dominican Republic 50 IX. Sketch map of part of Rio Mao showing position of stations at which collections of fossils were made 66 X. BuEa conglomerate interbedded with fossUiferous sand northeast of Bulla, at east edge of flat on Rio Mao 68 XL Sketch map of part of Rio Gurabo showing positions of stations at which collections of fossils were made _ 70 XII. A, Cercado formation on Rio Mao opposite Hato Viejo; B, Giu-abo formation on Rio Mao just above El Paso Bajito 72 XIII. A, Gurabo formation on Rio Mao below Cercado de Mao; B, Rio Mao seen from top of bluii above El Paso Bajito 74 XIV. Sketch map of Monte Cristi and vicinity 170 XV. Geologic map of parts of the provinces of Azua and Barahona 186 XVI. A, Las Matas de Parfan and Sieira de Neiba ,as seen from the east; B, View in the Cordillera Central southwestward from a point on the Bdiiica-Restauraci6n trail near La Cruz _ 188 XVII. A, Young hgnum-vitae tree (guayacan) along road near Rio Ocoa; B, Typical exposure of reef corals forming a bench on the south side of Lake Enriquillo 198 XVIII. A, Sandy shale and sandstone of the Yaque group on Rio Yaque del Sur at crossing of Azua-San Juan road; B, View northward, up the valley of Rio Yaque del Sur from the vicinity of Boca Mula 208 XIX. A, Part of Duverg6; Sierra de Bahoruco in background; B, Sierra de Bahoruco, looking south from San Jos6 220 9 10 ILLUSTRATIONS. PAGE. Plate XX. A, Plication in shaJy purplish redlimestone of early Tertiary (?) age along Rio Ocoa; B, Tilted beds of purplish red limestone near sup- posed oil seep on Arroyo Salado 226 XXI. Index map of Dominican Repubb'c showing mining concessions in force in July, 1919 . 228 XXII. Map of Sierra Prieta at "Perseverancia mine" 232 XXIII. Map of part of the San Francisco concession, San Crist6bal mining district _. „ 236 A GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. CHAPTER I. INTRODUCTION. By Thomas Wayland Vaughan. PRELIMINARY ARRANGEMENTS FOR THE GEOLOGIC SURVEY. On April 1, 1917, Rear Admiral H. S. Knapp, Military Governor of the Dominican Republic, addressed to the Director of the United States Geological Survey a request for an estimate of the cost of a complete mensuration siu-vey of the Republic and of supplemental mineralogical and botanical investigations. The estimates requested were furnished to Admiral Knapp, and after further correspondence it was agreed that the direction of a topographic and geologic survey of the RepubHc should be undertaken by the United States Geological Survey, the expense of the work, except that of certain office and laboratory investigations, to be borne by the Dominican Government. There is no adequate base map of the Dominican RepubUc, and as a de- tailed geologic survey must be based upon detailed topographic maps more thorough geologic studies must await the completion of the topographic mapping; but as so httle reliable information concerning the geology was available it appeared necessary to make preliminary geologic examinations before beginning more detailed work. Accordingly, on December 4, 1918, the Director of the United States Geological Survey wrote to Admiral Knapp a letter which contained the following paragraph: At present the geologic formations in Santo Domingo are not sufBciently well known for purposes of geologic mapping, and not enough information is available on the mineral resources of the island to make practicable the formulation of plans for careful study. It therefore seems to me advisable to make a preliminary inspection of the Republic, and to collect fossils, rocks, minerals, etc., for shipment to Washington, where the material can be studied in connection with other investigations that are in progress. The proper study of such collections and the comparison of them with material from other parts of the West Indies, Central America, and the United States, would probably con- sume more than a year. The office work on these collections could be prosecuted in Washington without any expense to the Santo Domingo Government, if you are wilUng to have the material become a part of the United States National Museum collections. However, should a museum ever be established in Santo Domingo, the first set of dupli- cate specimens could be sent as a beginning toward a local museum. The office studies above outlined could be profitably done while the topographic survey is in progress 11 12 GEOLOGICAL BECONNAISSANCB OF THE DOMINICAN REPUBLIC. and then, by the time the topographic maps are available, more reUable geologic mapping will be possible than would be the case without a preliminary examination of the area and office study of collections made during such an examination. About the time the letter containing this paragraph was dispatched Rear Admu-al Knapp was succeeded as Military Governor by Rear Admiral Thomas Snowden, who acted favorably upon the recommendation of , the Director of the United States Geological Survey. The preliminary arrangements having been made, the Geological Survey party— Messrs. D. D. Condit, Wythe Cooke, C. P. Ross, and I— left New York for Santo Domingo City on March 24, 1919, and arrived there on the morning of April 5, after making reconnaissance examinations around Puerto Plata, Slinchez, and San Pedro de Macorfs. On reaching the city I reported to Admiral Snowden and he referred me to Lieutenant Com- mander Baughman, who helped to complete the preparations for the geologic field work. FIELD WORK. The original plan comprised reconnaissance examinations of the Province of Seibo, the Samanfi, Peninsula, the Cordillera Septentrional, the Cibao Valley, the main Cordillera Central along at least three different routes, and the provinces of Azua and Barahona, including the Enriquillo basin. This plan was carried out, except that the Province of Seibo was not visited at all and that the SamanS, Peninsula was examined only along its south shore and at its west end. The itinerary of the party was as follows: On April 11, Messrs. Condit, Cooke, Ross, and I, in company with Lieutenant Colonel Glenn S. Smith, who has charge of the topographic surveys of the Republic, left Santo Domingo City by automobile for Hatillo, which is about 28.5 kilometers from the city, on the Carretera Durate. At Hatillo we took a pack train by way of El Madrigal, Sabana Grande, and Bonao to El Pino, at the north- ern foot of Loma Miranda, whence we went to La Vega, arriving there on April 15. At La Vega the party divided, Messrs. Cooke and Ross going to Cotui, HatiUo, Maim6n, Cevicos, and Villa Rivas, whence Doctor Cooke went to S&nchez by train to do several days' work at the west end of Saman&i Peninsula, while Mr. Ross worked westward along the southern foot of the Cordillera Septentrional toward Santiago de los Caballeros. Colonel Smith, Mr. Condit, and I went to Santiago, and the next day Colonel Smith and I started by automobile for Port-au-Prince, Haiti, while Mr. Condit made geologic studies from Tabera, at the northern foot of the Cordillera Central, across the Cibao Valley and as far north in the Cordillera Septentrional as Bajab6nico, where his work connected with that carried southward from Puerto Plata. Colonel Smith and I separated in Port-au-Prince, and I returned to Santiago by automobile, arriving there April 26. Messrs. Condit, Cooke, and Ross soon joined me at Santiago, and on May 1, after some examinations INTRODUCTION. 13 had been made near Santiago, Mr. Ross went by stage to Monte Cristi to study the western part of the valley of Rio Yaque del Norte, and Messrs. Condit and Cooke and I moved by pack train westward along the south side of the valley of Rio Yaque del Norte. Studies were made from the foothills of the Cordillera Central along Rio Amina as far downstream as Potrero, along Rio Mao as far downstream as Valverde (Mao), along Rio Gurabo as far downstream as a few kilometers below Gm'abo Adentro, and Rio Cana was examined at Caimito. On May 10 Mr. Ross joined Messrs. Condit and Cooke and me at Gurabo Adentro and the next day the party again divided. Doctor Cooke and I started for Santiago with our collections and reached there on May 12. On May 13 1 left Santiago for Santo Domingo City by way of Moca and Sanchez and arrived there on May 17. On May 19 I left Santo Domingo City for Porto Rico and the Virgin Islands. On May 11 Messrs. Condit and Ross started from Gurabo Adentro by way of Sabaneta for Restauraci6n, whence they went across the Cordillera Central to Joca, and thence by Las Matas, to San Juan, reaching there on May 18. The remainder of May and a part of June were devoted to studies in the provinces of Azua and Barahona. Doctor Cooke was detained several days in Santiago attending to the shipment of collections and did not leave there until May 18, when he started southward across the Cordillera Central. He went by Jarabacoa and Constanza, thence down Rio del Medio to Canitas, and from there to Tiibano and Azua, where he arrived on May 27. He spent the last days of May and part of June in work around Azua, San Jos6 de Ocoa, and Bani. After concluding their work in Azua and Barahona provinces Messrs. Condit, Cooke, and Ross returned to Santo Domingo City. From Santo Domingo City as a base Mr. Condit examined the Perseverancia nickel prospect, Mr. Ross examined the San Crist6bal mining district, and Doctor Cooke made a trip to San Pedro de Macorfs. Messrs. Condit and Cooke returned to Washington at the end of June, but Mr. Ross remained several weeks longer to make additional studies around SamanS, Bay. OFFICE WORK. The original plan for the preliminary reconnaissance included office study of the field observations and the collections, with the intention of utilizing the information thus obtained in planning more careful investigations, but the preparation of a formal volmne setting forth the results of the work was not contemplated. Two conditions of later development, however, seem to make it highly desirable that the information obtained be published as soon as practicable. The first of these conditions is the demand for a reliable account of the general geologic features of the Republic by those who are interested in the development of its natural resources. Although our work was only a preliminary inspection, we obtained far more information 14 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. than has hitherto been available, and we may reasonably hope that its publication will be of some service. The other condition is the uncertainty regarding the continuity of personnel in the investigations. Mr. Condit resigned from the United States Geological Survey in October, 1919, to enter upon private commercial work, and later Messrs. Cooke and Ross both applied for furloughs for similar work. Under such conditions it is obvious that the information obtained through the preliminary studies should be put into such form as to make it available for geologists, whether working for the Government or privately, and as a consequence of these conditions this volume is issued. Several members of the Geological Survey and others have assisted in the oflBce study of the field data and collections. The chemical analyses of samples of water were made in the water-resources laboratory of the United States Geological Survey under the direction of Mr. C. H. Kidwell, formerly chief of the division of quality of water, and analyses of samples of other kinds were made in the chemical laboratory of the Geological Survey under the direction of Mr. George Steiger, chief chemist. The specimens of igne- ous and metamorphic rocks were determined by Mr. F. C. Calkins, geol- ogist of the Geological Survey, and the chapter on economic geology was reviewed by Mr. H. G. Ferguson, also geologist of the Geological Survey. Specimens of rock and clay-sand were tested by the Bureau of Public Roads, United States Department of Agriculture. The very large paleontologic collections were sorted into groups and distributed to speciaUsts for study and report. A list of the names of those who cooperated in the study of this material is given on page 89. Although the chapters of this volume bear authors' names, it is not possible, in a product which is the result of the cooperative efforts of a group of workers, to designate exactly the share done by any one, and such a designation is probably of no great importance. The authors' names indicate those who devoted most attention to the preparation of the several chapters, but Dr. W. P. Woodring and I have reviewed the entire volume and have endeavored to see that the different parts of the report are ac- cordant with one another. This has been a considerable task, as it had to be done in the absence of Messrs. Condit, Cooke, and Ross. The preparation of the Spanish text has been a task of no small difficulty, because of the great number of technical terms employed. The book was rendered into Spanish by Senor E. M. Amores, chief translator of the Pan American Union, and the translation was carefully compared with the English original by Doctor Cooke. The quality of the result can best be judged by the reader. In justice to both these gentlemen it should be stated that the legends for the maps were written and draughted during Doctor Cooke's absence from the United States and before Senor Amores' services were engaged. The numerous errors in the Spanish legends were not detected until it was too late to correct them. INTRODUCTION. 15 OUTLINE OF RESULTS. PHYSIOGRAPHY. The major physiographic subdivisions of the Republic were ascertained, and they are systematically described in Chapter III and are mapped on Plate I (opposite p. 26). This work has never been done before. Gabb's description of the topography of Santo Domingo ' contains much infor- mation, but it is not presented in a way to bring out clearly the relations between the different features. STRATIGRAPHY AND GEOLOGIC CORRELATION. Prior to the reconnaissance of 1919 the only geologic formations in the Dominican Republic that had been recorded consisted of beds of Cretaceous, Miocene, and post-PHocene age. Doctor Carlotta J. Maury, as a result of her investigations in the valley of Rio Yaque del Norte, discriminated there two Miocene formations, the Cercado and Guarabo formations, and pro- posed for them the only two definite names that had been applied to Domi- nican geologic formations. Our examinations have probably yielded knowledge of at least most of the major stratigraphic units, but the basal complex must be more closely studied before it can be clearly understood. It certainly includes rocks of Cretaceous age and probably rocks of pre- Cretaceous age. We obtained additional data on the Cretaceous system and are able to correlate the formation exposed near Sabaneta with the Upper Cretaceous of Cuba, Jamaica, and other islands of the West Indies. Among the important additions to knowledge made through the recon- naissance are the recognition of a great thickness of upper Eocene deposits, mostly limestones, the discovery of deposits of both middle and later Oligocene age, and the discovery of an unconformity between the Miocene Baitoa formation and the underlying middle OUgocene Tabera formation. Four additional Miocene formations were recognized in the Cibao Valley, and a late Miocene formation, the Cerros de Sal formation, was discrimi- nated on the north side of Sierra de Bahoruco. Some other additions were also made to the knowledge of the stratigraphy. The geologic correlation of the formations in one part of the Republic with those in other parts and with those in other regions must depend principally upon a knowledge of the remains of the organisms they con- tain. The preliminary lists of fossils given in Chapter VI show what was accompHshed in acquiring knowledge of this kind, which is not only needed for geologic correlation, but is of great value in solving some problems of economic geology. More detailed investigations of the fossils than has yet been practicable will undoubtedly yield a larger amount of valuable information than that contained in this volume. > See Bibliography, p. 18. 16 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN REPUBLIC. IGNEOUS ACTIVITY AND GEOLOGIC STRUCTURE. Although the igneous rocks and their relations to the sedimentary deposits were only superficially investigated some information was obtained concerning the different kinds of rocks they include, their modes of occur- rence, their areal distribution, and their geologic ages. There was igneous activity in the Republic prior to Upper Cretaceous time, and it was recur- rent, if not persistent, in parts of the territory until almost Recent time. The igneous rocks of the Republic offer a promising field for investigation and enough was discovered concerning them to guide future work. The most important result of the study of the geologic structure was the recognition of the highly significant part — in places the dominant part — played by faulting in the deformation of the rocks, and we who were engaged in the field felt keen regret that the lack of good maps and the shortness of the time at our disposal prevented us from studying the faults in detail. In future investigations of the mineral resources of the Republic the contacts of the igneous rocks and the fault systems will be among the phenomena that most need attention. The faults are worthy of study also because of the causal relation they may bear to the severe earthquakes that afflict the Republic from time to time, as it is highly probable that recurrent movement takes place along certain definite zones of fracture. ECONOMIC GEOLOGY. The object of the preliminary examination was to procure reliable information on which to base plans for a careful study of the economic geology of the Republic rather than to prepare a special report for publica- tion, but the need of such reliable information as can be given is so obvious that it is now published. Chapter IX gives the results of a reconnaissance of the provinces of Azua and Barahona with particular reference to oil and salt and discusses the probabilities of obtaining supplies of ground water in the western part of the valley of Rio Yaque del Norte. Th« results of several special examinations of mineral properties are given in Chapter X, on the economic geology, and other information on the mineral resources is there summarized. There is in the Dominican Republic no established mining industry of more than local importance, and none may be developed, but the evidence now at hand appears to indicate that certain tracts are worthy of careful prospecting, and it is reasonable to suppose that still other tracts that may deserve attention will be discovered. One of the great handicaps of the Republic is its inadequate means of transportation, both within its own confines and with the outside world. The means of internal communication are steadily being improved, however, and as the resources of the Republic gain economic importance communication with the outside world may be bettered. Without cheap transportation, it scarcely need be said, low-grade mineral properties cannot be operated profitably. INTRODUCTION. 17 Two resoutces that particularly deserve geologic study are the rock available for constructing roads and buildings and the ground water. Although some attention is devoted to these resources in this report, they have received by no means the consideration they deserve. Precise information concernii^ them will be gained and will become available as rapidly as progress can be made in the detailed geologic studies. ACKNOWLEDGMENTS. It is a pleasure to record the efforts made by Rear Admiral Snowden and the members of his staff, particularly Lieut. Commander Baughman, to have all arrangements for the geologic work as nearly perfect as was prac- ticable and to acknowledge the value of a note of general introduction given to me by Monfeignor Noel, Archbishop of Santo Domingo. So many cour- tesies were shown us outside of Santo Domingo City that it is impracticable to mention all who assisted us, in one way or another, in the prosecution of our examinations. It therefore seems better to mention no names and thereby to avoid making invidious distinctions. It can be said, however, that wherever we went the officers of the United States Marine Corps, the officers of the Guardia Nacional Dominicana, and the engineers of the Departamento de Obras Publicas did all they could for us, and the same is true of the local alcaldes. The people in the country were everywhere kind, helpful, and hospitable, often refusing to accept remuneration for our entertainment. Those of us who took part in the reconnaissance look back with pleasant memories of the beautiful country we saw, the interesting scientific experiences we had, and the agreeable human relations that were ours while we were in the Dominican Republic. As the names of those who have contributed information for use in this report are given elsewhere, it is here only necessary to say that this report has been prepared in the offices of the United States Geological Survey and in the United States National Museum without any expense to the Do- minican Government. This work', however, was done in accordance with the proposal made by the Director of the United States Geological Survey in the letter already quoted. CHAPTER II. BIBLIOGRAPHY. By Wendell P. Woodking. The following list contains the titles of the principal publications on the geology and geography of the Dominican Republic, and the titles of some of the principal publications on the geology and geography of the Republic of Haiti, which are included in the list because of the close relations of the two RepubUcs. The writer has examined all the publications listed. Publications that merely describe itineraries in either RepubUc are omitted, although some of them contain valuable geographic information. Notices of the occurrence of minerals, such as have appeared in consular reports, are likewise omitted, for they are usually based on unconfirmed rumors. Much of the reliable information contained in these papers is incorporated in the present report with proper acknowledgment, except that West Indies Pilot, vol. 1, and the charts of the Dominican shore issued by the Hydro- graphic Office of the United States Navy have been freely used in the de- scription of the shore line without special credit other than that expressed here. Abad, Josfi Ramon, La Repfiblioa Dominicana; 400 pp., Santo Domingo, 1888. (Chapters 1-3, geography and topography; chapter 4, geology.) Aqamennone, G., U terremoto di Haiti (Antille) nella mattina del 29 diciembre, 1897: Soo. seismol. ital. Bull., vol. 4, pp. 177-191, 1898. Alberti t Bosch, N., Apuntes para la prehistoria de Quisqueya, tomo 1, geoI6gica y partes descriptivas; 148 pp., 14 pis., 67 figs., 4 maps, La Vega, 1912. Arnold, Ralph, Conservation of the oil and gas resources of the Americas (Haiti and Santo Domingo) : Second Pan Am. Sci. Congr. Proc, Sec. Ill, Conservation of Natural Resources, vol. 3, p. 224, 1917.) Beugt, W., Zur Geologie von San Domingo: Naturwiss. Gesell. Isis in Dresden, Sitzungs. und Abhand., Jahrgang 1897, pp. 61-64, 1897. Berbt, E. W., Tertiary fossil plants from the Dominican Republic: U. S. Nat. Mus. Proc, vol. 69, No. 2363, pp. 117-127, pi. 21, 1921. Brinsmade, R. B., Iron in Santo Domingo: Min. and Sci. Press, vol. 117, pp. 356-358, sketch map, 1918. Brown, A. P. and Pilsbrt, H. A., Fauna of the Gatim formation. Isthmus of Panama: Acad. Nat. Sci. Philadelphia Proc, vol. 63, pp. 336-373, 3 pis., 3 figs., 1911; vol. 64, pp. 500-519, 5 pis., 5 figs., 1912. (Includes descriptions of a few species of Mollusca from the Miocene of the Dominican RepubUc.) Gabon, A., Contribution k I'^tude de la geographic d' Haiti; notes historique sur la de- termination de la position g^ographique d'Haiti: Bull, semest. de I'observ. m6t6orol. du S6minaire-Coll6ge St. Martial, Jan.-June, 1916, pp. 51-67, 1916. Contribution k 1 'etude de la geographic d'Haiti; notes bibUographiques sur la geographic d'Haiti: Bull, semest. de I'observ. meteorol. du Seminaire-Col- 16ge St. Martial, July-Dec, 1916, pp. 149-174, 1917; idem. Bull. ann. 1917, pp. 93-128, 1918. 18 BIBLIOGBAPHY. 19 Canu, Ferdinand, and Basslek, R. S., Fossil Bryozoa from the West Indies: Carnegie Inst. Washington Pub. 291, pp. 75-102, 7 pis., 1919. (Describes and lists, on pages 75-76, the Maury collection of Bryozoa from the Miocene of the Domin- ican Repubhc.) CoNEAD, T. A., Remarks on the Tertiary strata of St. Domingo and Vicksburg (Miss.) : Acad. Nat. Sci. Philadelphia Proc, pp. 198-199, 1852. Cooke, C. W., A geologic reconnaisance in Santo Domingo (abstract) : Geol. Soc. America Bull., vol. 31, pp. 217-219, 1920. The stratigraphic significance of Orthaulax (abstract) : Geol. Soc. America Bull., vol. 31, p. 206, 1920. (Contains discussion of species of OrihauJax from the Ohgocene and Miocene of the Dominican Republic.) CossMANN, M., Etude comparative de fossiles mioc6niques recueUlis k la Martinique et h. I'isthme de Panama: Jour. Conch., vol. 61, pp. 1-64, 5 pis., 1913. (Describes and figures several species of Mollusca from the Miocene of the Dominican Republic.) Courtney, W. S., The gold fields of St. Domingo; 144 pp.. New York, 1860. CrsHMAN, J. A., Fossil Foraminifera from the West Indies: Carnegie Inst. Washington Pub. 291, pp. 23-71, 15 pis., 1919. (Describes and lists the Foraminifera collected by Miss Maury and her associates in 1917 and gives notes on the correlation and the physical conditions indicated by the fauna. Pages 25-27 refer particularly to the Dominican Republic. Dall, W. H., Diagnoses of new Tertiary fossils from the southern United States: U. S. Nat. Mus. Proc, vol. 18, pp. 21-46, 1895. (Includes descriptions of moUuska from the Miocene of the Domim'can Republic.) Tertiary fauna of Florida: Wagner Free Inst. Sci. Philadelphia, vol. 3, pts. 1-6, pp. 1-1654, 60 pis., 1890-1903. (Contains figures of the species of moUusks described in the preceding paper and discussions of other species from the Miocene of the Dominican Republic.) De Gabston, E. M., Mineral resources of the Dominican RepubUc: The Mining Journal, vol. 83, p. 682, 1908. [Iron ore in the Dominican Republic (abstract) : Iron and Steel Inst. Jour., No. 3, 1908, pp. 495-496; Petroleum in the Dominican Repub- lic (abstract) : idem, p. 542; Coal in Dominican RepubUc (abstract) : idem, p. 527.] Mineral resources of the Dominican Republic: Board of Trade Journal, vol. 61, no. 600, pp. 450-452, 1908. [Manganese in Dominican RepubUc (abstract). Iron and Steel Inst. Jour., no. 3, p. 497, 1908.] De Moya, C. N., Mapa de la Isla de Santo Domingo y Haiti: Published by Rand, McNally & Co., 1906. (Scale 1 : 400,000.) Donnelly, T. F., The copper deposits of San Cristobal, Santo Domingo: Am. Inst. Min. Eng. Bull. No. 104, pp. 1759-1768, 7 figs., 1915; Am. Inst. Min. Eng, Trans., vol. 52, pp. 645-656, 7 figs., 1916; Abstract: Mexican Min. Jour., vol. 21, pp. 8-10, 1916. Duncan, P. M., On the fossil corals of the West Indian Islands: Part I, Geol. Soc. London Quart. Jour., vol. 19, pp. 406-458, 4 pis., 1863; Part II, vol. 20, 20-44 4 pis., 1864; Part III, vol. 20, pp. 358-374, 1864; Part IV, vol. 24, pp. 9-33, 2 pis. 1867. On the correlation of the Miocene beds of the West Indian Islands: Geol. Mag., decade 1, vol. 3, pp. 97-102, 1864. On the genera HeterophylUa, Battersbya, Palaeocyclus, and Asterosmilia: The anatomy of their species, and their position in the classification of the Sclerodermic Zoantharia: Roy. Soc. Phil. Trans., vol. 157, pp. 643-656, 2 pis., 1867. (Genus Asterosmilia, pp. 652-654, pi. 32, figs. 3a-3d, 4 and 5.) A revision of the famiUes and genera of the Sclerodermic Zoantharia, Ed. and H., or Madreporaria (M . rugosa excepted) : Linn. Soc. Jour. (Zool.), vol. 18, pp. 1-204, 1884. (Contains notes on Dominican fossil corals.) 20 GEOLOGICAL RECONNAISSANCE OP THE DOMINICAN REPUBLIC. Eggebs, Babon H., Reise in das Innere von Santo Domingo: Petermanns Mitt., Band 34, II, pp. 35-41, map, 1888. (Account of a journey from Jarabacoa to Constanza and Pico del Valle.) Fabens, J. W., Facts about Santo Domingo, 32 pp., map. New York, 1862. (Condensed and published under the title "Resources of Santo Domingo," 22 pp., map, Washington, 1869. The first publication was slightly revised and republished as "Resources of Santo Domingo," 30 pp., map. New York, 1871. Falconer, J. D., The evolution of the Antilles: Scottish Geog. Mag., vol. 18, pp. 369- 376, 1902. (Discusses the tectonic features and geologic history of the West Indies and Central America.) Febguson, E. G. W., The mineral resources of Haiti, West Indies: Mining World, vol. 31, pp. 133-135, 1909. FoBTUNAT, Dantes, lie d'Haiti [map]; Paris, 1888. (Scale, 1:400,000). Feazeb, p., Archean characters of the nucleal ranges of the Antilles: British Assoc. Adv. Sci. Rept. 58th meeting, 1888, pp. 654-655, 1889. Gabb, W. M., Informes presentados al gobierno Dominitiano por el professor William M . Gabb acerca del examen jeoldjico del territorio de la Reptiblica Dominicana en los anos 1869-1871: Revista de Agricultura, Ano V, Num. 11 (following p. 314) pp. 1-64; Ano V, Num. 12 (following p. 330); pp. 65-92, Santo Domingo, 1910. (In Spanish and English.) Notes on the geology of Santo Domingo: Am. Jour. Sci., 3d series, vol. 1, pp. 252-255, 1871. On the occurrence of petroleum in the island of Santo Domingo: Am. Jour. Sci., 3d series, vol. 3, p. 481, 1872. Description of some new genera of Mollusca: Acad. Nat. Sci. Philadelphia Proc, pp. 270-274, 2 pis. 1872. (Describes new genera from the Tertiary system of the Dominican Republic.) On the Santo Domingo Miocene and its fossils: Am. PhUos. Soc. Proc, vol. 12, pp. 371-373, 1873. : On the topography and geology of Santo Domingo: Am. Philos. Soc. Trans. new series, vol. 15, pp. 49-260, 2 maps, 1873. Notes on West Indian fossils: Ceol. Mag., decade 2, vol. 2, p. 544, 1875. Gabbison, F. L., Gold in Santo Domingo: Eng. and Min. Jour., vol. 79, pp. 1128-1130 5 figs., 1905. The Island of Santo Domingo; its natural resources and their prospective development: Cassier's Magazine, vol. 30, no. 5, pp. 395-412, 14 figs., map, 1906. ■ Gold mining in Santo Domingo: Eng. and Min. Jour., vol. 84, pp. 490-492, 5 figs., 1907. Metallic sulphides in the tuffs of Santo Domingo: Mining and Sci. Press, vol. 95, pp. 305-310, 6 figs., 1907. The minerals of Santo Domingo: Eng. and Min. Jour., vol. 99, pp. 641-644, 3 figs., 1915. The copper deposits of San Cristobal, Santo Domingo: Am. Inst. Min. Eng. Bull. 108, pp. 2473-2474, 1915. Gaeeison, P. L., and Chalas, A., Mining laws and legislation in Santo Domingo: Eng. and Min. Jour., vol. 84, pp. 588, 589, 1907. Gentil, R., and Chattvet, H., Grande gdographie de I'lle d'Haiti, 384 pp., Paris, 1896. Gbegoet, J. W., Contributions to the palaeontology and geology of the West Indies: Geol. Soc. London Quart. Jour., vol. 51, pp. 255-310, 1 pi., 1895. (Contains notes on a number of species of fossil corals from the Dominican Republic.) GiJPPT, R. J. L., On the relations of the Tertiary formations of the West Indies: Geol. Soc. London Quart. Jour., vol. 22, pp. 570-593, 1 pi., 1866. (Contains a short account of the fauna of the Miocene of the Dominican Republic on pp. 574, 575.) BIBLIOGRAPHY. 21 GtrppY, R. J. L., On the West Indian Tertiary fossils: Geol. Mag., decade 2, vol. 1, pp. 404-411, 433-446, 3 pis., 1874. (Contains a check-list of Tertiary fossils from the Island of Haiti.) On the Miocene fossils of Haiti: Geol. Soc. London Quart. Jour., vol. 32, pp. 516-532, 2 pis., 1876. The geological connexions of the Carribean region: Canadian Inst. Trans., vol. 8, pp. 373-391, map, 1909. GuppY, R. J. L., and Dall, W. H., Descriptions of Tertiary fossils from the Antillean region: U. S. Nat. Mus. Proc, vol. 19, pp. 303-331, 4 pis., 1896. (Includes descriptions of Mollusca from the Miocene of the Dominican Repubho.) Hatch, D., On a saliferous deposit in St. Domingo: Geol. Soc. London Quart. Jour., vol. 24, p. 335, 1868. Heneken, T. S., On some Tertiary deposits in Santo Domingo, with notes on the fossil shells by J. C. Moore and on the fossil corals by W. Lonsdale: Geol. Soc. London Quart. Jour., vol. 9, pp. 115-134, 7 figs., 1853. Hill, R. T., Fundamental geographic relation of the three Americas: Nat. Geog. Mag., vol. 7, pp. 175-181, map, 1896. Cuba and Porto Rico, with other islands of the West Indies: 408 pp, 79 pis., 2 maps, New York, 1898. (Contains discussion of Haiti on pp. 236-295.) ■ The geology and physical geography of Jamaica: Mus. Comp. Zool. Harvard Coll. Bull., vol. 34, pp. 256, 41 pis., 40 fiigs., 1899. (Contains discussion of Do- minican Repubhc on pp. 168-198.) Jones, William F., A geological reconnaissance in Haiti: Jour. Geology, vol. 26, No. 8, pp. 728-752, 1 pi., 10 figs., 1918. Kempton, C. W., Some investigations of Santo Domingo minerals: Mining World, vol. 30, pp. 637-639, 8 figs., 1909. Knapp, I. N., Santo Domingo petroleum resources: Oil and Gas Jour., vol. 17, no. 5, p. 50, 1918. KoppMAHN, O. See Petermann, A. Ledoux, J. W., Placer salting in Santo Domingo: Eng. and Min. Jour., vol. 97, pp. 384- 386, 1914. Lewis, Henbt P., Mining laws of Santo Domingo: Mining World, vol. 33, p. 804, 1910. New mining law of the Dominican Republic: Mining Science, vol. 62, p. 473, 1910. LtJTGENB, Rudolf, Geographische imd geologische Beobachtungen in Nordwest- Haiti: Geog. GeseU. in Hamburg Mitt., Band 32, pp. 41-90, 1 map, 3 pis., 10 figs., 1919. Machado, Mantjel a., Datos sobre la estratificacion geol6gica de la ReptibUca Dominicana : Gaceta Oficial, 2-5, Santo Domingo, July 10, 1912. Maqnin, J., Les gisements petrolif feres de la R6publique dominicaine: Jour, de Pdtrole, vol. 7, pp. 99-101, 1907. Maury, Caelotta J., Santo Domingo type sections and fossils: Bull. Am. Paleont., pp. 165-459, pis. 27-68, 1917. Santo Domingo paleontological explorations: Jour. Geology, vol. 26, no. 3, pp. 224-228, 1918. • A proposal of two new Miocene formational names: Science, new series, vol. 50, p. 591, 1919. (Proposes names Gurabo formation and Cercado formation for certain Miocene deposits in the valley of Rio Yaque del Norte.) On the correlation of Porto Rican Tertiary formations with other Antillean and mainland horizons: Am. Jour. Sci., vol. 48, pp. 209-215, 1919. (Includes a correlation table showing the position of some of the Tertiary formations of the Dominican Republic.) 22 GEOLOGICAL HECONNAISSANCE OF THE DOMINICAN BEPUBLIC. Maury, Carlotta J. , Tertiary Mollusca from Porto Rico : New York Acad. Sci. , Scientific Survey of Porto Rico and the Virgin Islands, vol. 3, pt. 1, 77 pp., 9 pis. 1920. (Correlation table opposite p. 4 includes some of the Miocene deposits of the Dominican Republic.) Miller, Gekkit S., Jr., Bones cf mammals from Indian sites in Cuba and Santo Domingo: Smithsonian Misc. Coll., vol. 66, no. 12, 10 pp., 1 pi., 1916. MoRBATj DB SAiNT-MfeT, M. L. E., A topographical and pohtical description of the Spanish part of Saint Domingo, translated from the French by Wilh'am Cobbett: 2 vols.; vol. 1, 314 pp., vol. 2, 318 pp., Philadelphia, 1796. (Original French edition not available.) Description topographique, physique, civile, politique et historique de la partie frangaise de I'isle Saint-Domingue: 2 vols., vol. 1, 788 pp., 2 maps, 1797; vol. 2, 866 pp., Philadelphia, 1798. Moore, J. C, On some Tertiary beds in the Island of Santo Domingo, from notes by J. S. Heniker [sic], with remarks on the fossils: Geol. Soc. London Quart. Jour., vol. 6, pp. 39-44, 1850. Petermann, a., Kaite der Insel Haiti: Petermanns Mitt., Band 20, pi. 17, 1874. (Scale 1:1,100,000.) Koffmahn, O., Begleitworte zur Karte der Insel Haila: Idem, pp. 321-323. PiLSBRT, H. A., A new Haitian Oligocene horizon: Acad. Nat. Sci. Philadelphia, Proc. vol. 62, pt. 2, pp. 487-489, 2 figs., 1910. (Describes a few species of mollusks from the Miocene of the Republic of Haiti.) PiLSBRT, H. A., and Shown, A. P., Oligocene fossils from the neighborhood of Cartagena, Colombia, with notes on Haitian species: Acad. Nat. Sci. Philadelphia Proc, voli 69, pp. 32-41, 2 pis., 1917. (Includes descriptions of a few species of mollusks from the Miocene of the Dominican Republic and the Republic of Haiti.) PiLSBRT, H. A., and Johnson, C. W., New Mollusca of the Santo Domingan Oligocene: Acad. Nat. Sci. Philadelphia Proc, vol. 69, pp. 150-202, 1917. PiLSBRT, H. A. and Sharp, Benjamin, Scaphopoda of the San Domingo Tertiary: Acad. Nat. Sci. Philadelphia Proc pp. 465-475, 2 pis., 1897. Poet t Aguirre, ANDR:fis, Catalogue chronologique des tremblements de terre ressentis dans les Indes Occidentals de 1530 a 1858; suivi d'une bibliographic sfiismique concernant les travaux relatifs au tremblements de terre des Antilles: (Extrait de I'annuaire de la Soci^td m^tfiorologique de France, tome 5, p. 75, stance du 12 mai, 1857) 76 pp., Versailles, 1858. PotTRTALJ^s, L. F., List of fossil corals collected by W. M. Gabb, Esq., in Santo Domingo: Geol. Mag., dec. 2, vol. 2, pp. 544-545, 1875. Rathbun, M. J., West Indian Tertiary decapod crustaceans: Carnegie Inst. Washington Pub. 291, pp. 159-184, 9 pis. 1919. (Includes descriptions of fossil Crustacea in the Gabb and Maury collections from the Dominican Republic) Additions to West Indian Tertiary decapod crustaceans: U. S. Nat. Mus, Proc, vol. 58, pp. 381-384, pi. 25, 1920. (Describes additional crustaceans col- lected by the expedition of 1919.) Recltjs, fiLis:fiE, The earth and its inhabitants: edited by A. H. Keane, 19 vols.. New York, 1886-1895; (Describes the Island of Haiti in vol. 2, pp. 396-422, 1891.) RiTTER, Karl, Naturhistorisohe Reise nach der westindliohen Insel Hayti: 206 pp, 6 maps, 3 pis., Stuttgart, 1836. Roth, H. L., Bibliography and cartography of Hispaniola: Royal Geog. Soc. Supp. Papers, vol. 2, pp. 43-97, 1889. RoTHWELL, R. p.. The gold fields of the southern portion of the Island of Santo Domingo: Am. Inst. Min. Eng. Trans., vol. 10, pp. 345-354, 1882; Eng. and Min. Jour., vol. 34, pp. 31-32, 1882, BIBLIOGBAPHY. 23 RouziEK, S., Dictionnaire g^ographique et administratif universal d'Haiti: tome 1, 393 pp., 12 maps, 1 pi., 1892; tome 2, 402 pp., 3 maps, 6 pis., 16 figs., Paris, 1893. (Third volume not published.) RuscHHATjPT, F., On the salt mines of St. Domingo: Geol. Soo. London Quart. Jour. , vol. 25, pp. 256-257, 1869. (Discussion pp. 257-258). Sample, C. C, Amber in Santo Domingo: Eng. and Min. Jour., vol. 80, pp. 250-251, 1905). ScHEREH, J., Earthquakes in Haiti, April 12-October 10, 1911: Seism. Soc. America BuU., vol. 1, no. 4, p. 171, 1911. Great earthquakes in the Island of Haiti: Seism. Soc. America Bull., vol. 2, no. 3, pp. 161-180, map, 1912. Notes on remarkable earthquake soimds in Haiti: Seism. Soc. America Bull., vol. 2, no. 4, pp. 230-232, 1912. Les grands tremblements de terre dans I'lle d'Haiti: Bull, semest. de I'observ. m^tdorol. du S6minaire-Coll6ge St. Martial, July-Dec, 1911, pp. 153-162, 1912. Les tremblements de terre de I'tle d'Haiti dans leur rapports avec le relief du sol et les fosses maritimes que I'entourent: Bull, semest. de I'observ. m^tfiorol. du S6minaire-Coll6ge St. Martial, July-Dec, 1912, pp. 132-139, 1913. [ScHERER, J.] Catalogue chronologique des tremblements de terre ressentis dans I'fle d'Haiti de 1551 a 1900: Bull, semest. de I'observ. m^t^orol. du S^minaire-Collfege St. Martial, July-Dec, 1913, pp. 147-151, 1914. L'tle d'Ha iti et le tremblement de terre de Porto-Rico (du 1 1 octobre 1918) : BuU. ann. de I'observ. m^t^orol. du Seminaire-Collfige St. Martial, 1918, p. 93, 1919. ScHOENRiCH, Otto, Santo Domingo, a country with a future: 418 pp., 30 pis., 1 map, New York, 1918. (Contains short discussion of geology and minerals on pp. 132-143.) ScHOMBTTBGK, Sir R. H., Visit to the valley of Constanza: The Athenaeum, No. 1291, pp. 797-799, 1852. The peninsula and bay of Samand in the Dominican Republic: Royal Geog. Soc Jour., vol. 23, pp. 264-284, 1853. Mapa de la Isla de Santo Domingo: Paris, 1858. (Scale 1 : 400,000.) SiEVEBS, WiLHELM, Richard Ludwig's Reisen auf Santo Domingo 1888-1889: GeseU. fiir Erdkunde zu Berlin Zeitschr., Band 33, pp. 302-354, map, 1898. SowERBT, G. B., Desciiptions of new species of fossil shells found by J. S. Heniker [sic], Esq.: Geol. Soc London Quart. Jour., vol. 6, pp. 44-53, 2 pis., 1849. Stuart, R., Haiti, or Hispaniola: Royal Geog. Soc. Jour., vol. 48, pp. 234-274, 1878. SuESS, E., Das Antilitz der Erde (French translation by E. de Margerie, entitled La face de la terre); 3 vols, and index, 3695 pp., 5 pi., 10 maps, 551 figs., 1905- 1918. (Discusses tectonic features of the West Indies in vol. 1, pp. 113-124; 362-369; 724-737; vol. 3, pp. 1285-1292; 1628.) Thomasset, H., Carte physique et politique de I'ile d'Haiti: 1908, Port-au-P^ince. (Scale 1:400,000.) TiPPENHATJER, L. G., Die Insel Haiti, 693 pp., 21 pis., 23 figs., I-eipzig, 1892. Geologische Studien in Haiti; I, Aus der sudwestlichen Halbinsel: Peter- manns Mitt., Band 45, II, pp. 25-29, map, 1899. ■ Beitrage zur Geologie Haitis; II, Aus der nordwestlichen Halbinsel: Peter- mann's Mitt., Band 45, VII, pp. 153-155, map, 1899. Beitrage zur Geologie Haitis; III, Geologische studien zwischen Port-au- Prince, Jacmel, Bainet, und Grand-Goave: Petermann's Mitt., Band 45, IX, pp. 201-204, map, 1899. 24 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. TippENHAUEE, L. G., Beitrage zur Geologie Haitis; IV, Die Erzfundstatten von Terre- Neuve und Gonaives: Petermann's Mitt., Band 47, VI, pp. 121-127, map, 2 figs., 1901. Beitrage zur Geologie Haitis; V, Das La SeUe-Gebirge, die Cul-de-Sac- Ebene, und das Salzseengebiet: Petermanns Mitt., Band 47, VIII, pp. 169-178, map, 1901. Beitrage zur Geologie Haitis; VI, Das Lingnitlager von Maissade, und der Aufstieg ziun Zentralplateau von Gonaives und von Norden aus: Peter- manns Mitt., Band 47, IX, pp. 193-199, 3 maps, profiles, 3 figs., 1901. • Neuer Beitrage zur Topographie, Bevolkerungskunde, und Geologie Haitis: Petermarms Mitt., Band 55, III, pp. 49-57, map, 1909. TouLA, Fbanz, Eine jungtertiare Fauna von Gatun am Panama Kanal: K. K. geolog. Reichsanst. Wien, Teil I, Band 58, pp. 673-760, 4 pis., 15 figs., 1908. Teil II, Band 61, pp. 487-530, 2 pis., 1911. (Refers to fossil Mcllusca from Dominican Republic.) VArcHAN, T. W., Some fossil corals from the elevated reefs of Curacao, Arube, and Bonaire: Geolog. Reichs. Mus. Leiden, ser. 2, Band. 2, pp. 1-91, 1901. (Dis- cusses species of West Indian fossil corals and contains "A list of papers on the Recent and fossil stony corals and coral reefs of the West Indies, Florida, the Bermudas, the western shores of the Gulf of Mexico, and northeastern South America," pp. 78-91.) [Correlation of the Cretaceous and Tertiary formations of the Antilles]: Washington Acad. Sci. Jour., vol. 5, no. 13, pp. 489-490, 1915. ■ Correlation of the Tertiary geologic formations of the southeastern United States, Central America, and the We.st Indies: Washington Acad. Sci. Jour., vol. 8, no. 9, pp. 268-276, 1918. Geologic history of Central America and the West Indies during Cenozoic time: Geol. Soc. America BuU., vol. 29, pp. 615-630, 1918. Fossil corals from Central America, Cuba, and Porto Rico, with an account of the American Tertiary, Pleistocene, and Recent coral reefs: U. S. Nat. Mus. Bull. 103, pp. 189-524, 1919. (Pages 213-218 deal particularly with the Do- minican Republic.) The biologic character and geologic correlation of the sedimentary forma- tions of Panama in their relation to the geologic history of Central America and the West Indies: U. S. Nat. Mus. BuU. 103, pp. 647-612, 1919. (Contains, opposite p. 585, a correlation table showing the position of the known Teitiary formations of the Dominican Republic; discusses tectonic relations on pp. 601-603. ■ Stratigraphy of the Virgin Islands of the United States and of Culebra and Vieques Island (Abstract) : Geol. Soc. America Bull., vol. 31, pp. 216-217, 1920. (Contains discussion of the correlation of the rocks of the Virgin Islands with those of the Dominican Republic.) Wade, B. F., White, A. D., and Howe, S. G., Report of the commission of inquiry to Santo Domingo: Senate Document No. 9, 42d Cong., 1st sess., 297 pp, map, 1871. (Includes brief reports by W. P. Blake, J. S. Adams, and A. R. Marvine on the geology of parts of the Dominican Republic.) Wells, James W., A survey journey in Santo Domingo, West Indies: Royal Geog. Soc. Supp. Papers, vol. 3, pp. 589-604, map, 1893. (An account of a trip through Enriquillo Basin.) Anonymous, Tremblement de terre k Saint-Domingue (Antilles) : Cosmos, 47e annfie, nouvelle s6iie no. 688, pp. 420, 421, 1898. The Dominican Republic; published by direction of the Department of Promotion and Public Works for the Jamestown Ter-Centennial Exposition, 98 pp., 1907. (Chapter 1, geography and topography ; Chapter 5, economic geology.) Bermuda Islands, the Bahama Islands and the Greater Antilles: West Indies Pilot, vol. 1, 577 pp. Hydrographic Oflfice, Washington, D. C, 1913. BIBLIOGEAPHY. 25 The following papers, which are cited in Tippenhauer's or in Roth's bibliography, have not been examined : Castko, M. F. de, Nota sobre la geologia de Santo Domingo: Revista Minera, vol. 13, pp. 633-642, 692-699, 729-738, 1862; vol. 14, pp. 42-51, 65-73, Madiid, 1863. Noticias geogrdficas de la isla de Santo Domingo: Soc. Geog. Madrid Bol., vol. 6, pp. 317-339, map, 1879. ScHOMBURGH, Sir R. H., The Loadstone Mountain at Santo Domingo: The Athenaeum, 1853, pp. 739-740. Ausflug nach dem HenriquiUo-See, Bestimmung von Santo-Domingo: Gesell. ftir Erdkimde zu Berlin, Monatsh., Neue Folge, Band 8, pp. 13-(?), 1850 (?). Walton, William, Report on the mines known in the Eastern Division of Haiti and the facilities of working them: 47 pp., London, 1825. CHAPTER III. GEOGRAPHY. By Wtthb Cooke. GENERAL FEATURES. Haiti, which next to Cuba is the largest West Indian island, lies nearly midway between Cuba and Porto Rico. It is separated from Porto Rico, on the east, by the Mona Passage, and from Cuba, on the west, by the Windward Passage. As the maximum depth of water between Haiti and Porto Rico is about 318 fathoms (580 meters) these islands rise from a common, not greatly submerged bank, but the depth between Haiti and Cuba exceeds 1,000 fathoms (1,830 meters) . The northern shore of Haiti is washed by the waters of the Atlantic Ocean; the southern shore forms part of the perimeter of the Caribbean Sea. The island lies wholly within the Torrid Zone, between parallels 17° 36' 40" and 19° 58' 20" north latitude. Its longitude ranges from about 68° 20' to nearly 74° 30' west of Greenwich. The area of the island is said to be 73,150 square kilometers, of which the Dominican Repubhc occupies the eastern two-thirds and the RepubUc of Haiti the western third, but until detailed accurate surveys are made and the boundary disputes between the republics are settled the true area of the island and that of its two political divisions will not be known. Lying as it does at the intersection of jtwo of the major tectonic trends of the Caribbean area,i the island of Haiti may be divided into two principal parts, a northern, including the greater part of the island, and a southern, including the southwestern peninsula and the area south of the Enriquillo Basin. The axes of the mountain ranges and principal valleys in the north- ern part trend about N. 60° W., are parallel, and are evidently genetically related to the physical features of central and eastern Cuba. The southern part extends nearly east and west, and its major tectonic axis is in hne with the major axis of Jamaica. These two parts can be subdivided into several topographically distinct areas, which will be described separately. A third part, which is structurally distinct from the others^ is the broad coastal plain — the plains of Seibo and Ban! — in the southeastern part of the island. The topographic divisions in the part of the island that is included in the Dominican RepubUc are the Cordillera Septentrional, SamanS. Peninsula, Cibao Valley, Cordillera Central, Valley of San Juan, Azua Plain, Sierra de Neiba, Sierra de Martin Garcfa, Enriquillo Basin, Sierra de Bahoruco, southern peninsula, and the coastal plain. The boundaries between these topographic areas are shown approximately on Plate I. > Vaughan, T. W., U. S. Nat. Mub. Bull. 103, pp. 599-603, 1919. 26 REPUBLIC SERVIC f MEMORIAS, TOMO 1, LAM. I -i- ^^iii 80 100 20 18° A ffocn & Co LiHl Baldmare, Md. GEOGRAPHY. 27 CORDILLERA SEPTENTRIONAL. The Cordillera Septentrional (Northern mountain system), sometimes called the Monte Cristi Range, starts as low, rounded rocky hills near Monte Cristi, extends southeastward for about 200 kilometers parallel to the northern coast, and terminates near the shore of Bahia Escocesa. It is made up of several more or less parallel ranges and a few isolated mountain masses. The highest mountains in the Cordillera Septentrional are in its west- central part, north of Santiago, where some of the peaks are said to attain altitudes of 1,000 to 1,400 meters above sea level. The range near San- tiago as seen from the south presents a fairly even sky line, broken by few serrated peaks such as characterize the Cordillera Central. (See PI. II, A.) The parts of the range that project above the generally even profile have flat or rounded tops. The south front of this range is a fault scarp, which has been considerably modified by erosion. The western part of the Cordillera Septentrional, to which the name "Monte Cristi Range" might appropriately be restricted, is very irregular. The hills and low mountains composing it are steep and in some places rough, but they do not rise to great heights. The part adjacent to Monte Cristi consists of isolated, rounded rocky hills, 60 meters or more high, rising abruptly from a rolling but, on the whole, level plain, which averages little more than 10 meters in height above sea level. El Morro de Monte Cristi, also called La Granja, shown in Plate II, B, is a narrow, wedge-shaped outKer about 225 meters high, composed of nearly horizontal sediments of Miocene age. It is separated from the mainland by salt marshes.* At the arid west end of the Cordillera Septentrional there are few con- tinuous water channels. A httle farther to the southeast, where the hills are somewhat higher, the waterways are more continuous and better de- fined. At the east end of the Cordillera Septentrional there is no steep south- ward-facing escarpment Uke the mountain front near Santiago. The ascent to the mountains proper from the Vega Real is over low foothills or spurs, which rise gradually to altitudes of 100 meters or more above the valley. The hills are composed of buff impure limestones which soften on exposure and afford few bare outcrops. The flat-topped mountains that form the summit of the Cordillera Septentrional between Altamira and El Aguacate suggest a peneplained surface at an altitude of about 650 meters. (See PI. II, C.) Monte Isabel de Torres (see PI. Ill, A) rises steeply almost from the water's edge at Puerto Plata to an altitude of 815 meters above sea level and is a conspicuous landmark. As seen from the harbor it is wedge-shaped, and it culminates in a flat-topped peak, which is usually swathed in clouds. In 1 For further description of the Monte Cristi region see Chapter Vll of this volume. 28 GEOLOGICAL KECONNAISSANCE OF THE DOMINICAN REPUBLIC. the areas east and west of Puerto Plata the mountains lie back from the shore, and the area between them and the sea is hilly or rolUng. The upland west of Puerto Plata and north of Bajab6nico consists of rather evenly sloping ridges whose summits reach altitudes of about 250 meters. Above these summits rise sharp little peaks composed of steeply dipping bedded rock. The surface represented by the summits of these ridges appears to extend around the south, the east, and the west sides of Monte Isabel de Torres, but the details of its features and their significance cannot be ascertained without careful study aided by adequate topographic maps. A low coastal apron extends around Puerto Plata and an alluvial flat along Rio San Marcos. Alluvial or detrital benches appear to reach as high as about 60 meters above sea level, but during the very hasty examina- tion of Rio San Marcos valley no definite system of terraces could be recog- nized. SAMANA PENINSULA. SamanS. Peninsula consists of a mass of fairly rugged but not very high mountains and at some places of a fringe of flat to rolling lowlands. It projects about 50 kilometers eastward from the northeast corner of the main island mass. Its average width from north to south is 11 or 12 kilometers. The west end of the peninsula is separated from the Cordillera Septen- trional on the mainland by a flat, swampy area, the Gran Estero, which in the not very remote past was an open strait, but which has now become nearly closed, partly by uplift of the land and partly by filling in by silt brought down by the Rio Yuna. Water connection between Samani Bay and the Atlantic Ocean through the Gran Estero is said to be still main- tained by several distributaries of the Yuna. The main mountain mass is divided into three parallel ridges. On the north coast, the mountains come down close to the sea but are interrupted by several stretches of broad, sandy beach. The southern ridge rises steeply from the water between Punta Balandra, at the southeastern ex- tremity of the peninsula, and Los Cocos (see PI. Ill, B), but west of Los Cocos it is bordered by a narrow fringe of rolling land, probably the dis- sected remnants of a series of terraces, which range in altitude from sea level to about 30 meters above it. (See PI. Ill, C.) The mountains in the central part of the peninsula rise to about 500 meters above sea level, and a few are probably somewhat higher. Among the more prominent peaks whose altitudes are shown on the charts of the Hydrographic Ofi&ce of the United States Navy are El Pil6n de Aziicar (Sugar-loaf), 491 meters, 6 or 8 kilometers inland from Santa Barbara de Saman§,; a neighboring peak, perhaps Monte la Mesa (Table Mountain), 558 meters; Monte Diablo, rising from the water at Punta Balandra to a height of 400 meters; and Loma Las Canitas, at Sanchez, the highest point of which is said to be 514 meters above sea level. DOMINICAN REPUBLIC Geological Suhvey Memoirs, Vol. I, Pl. II A. SOUTH FRONT OF THE CORDILLERA SEPTENTRIONAL AS SEEN LOOKING NORTH- WARD FROM A POINT EAST OF SANTIAGO. B. EL MORRO DE MONTE CRISTI AS SEEN FROM THE SOUTH SIDE. C. LOMA LA CUMBRE, THE SUMMIT OF THE CORDILLERA SEPTENTRIONAL BETWEEN ALTAMIRA AND EL AGUACATE, AS SEEN LOOKING NORTHWARD. GEOGRAPHY. 29 At the east end of the peninsula, between Punta Balandra and the head of Rinc6n Bay, at an altitude of perhaps a hundred meters above sea level, there is a limestone plateau, which merges into the hills on the west side. This area is drained through sinks by subterranean streams, some of which, are said to emerge on the beach as springs. Between Punta Balandra and Cabo SamanS, several terraced flats, probably of marine origin, are plainly visible from the decks of passing steamers. The rainfall is very heavy in SamanS, Peninsula and it is more evenly dis- tributed throughout the year than in some other parts of the island. As the climate is moist and the soil is fertile, the peninsula is clothed with a dense cover of vegetation which, except on the beaten trails, is in many places impassable.^ CIBAO VALLEY. The Cibao Valley extends from Monte Cristi and Manzanillo Bay eastward to SamanS. Bay, a distance of about 225 kilometers, and it ranges in width from about 15 to about 45 kilometers. It is bordered on the north by the Cordillera Septentrional, which is nearly straight, and on the south by the Cordillera Central, which has an irregular front and many re- entrant valleys. In the vicinity of Santiago it is divided by a low, hilly watershed into two nearly equal parts. The western half of the Cibao Valley is drained by Rio Yaque del Norte, which flows northwestward into Manzanillo Bay. Most of the country here is rolling and open, and the streams in it are deeply entrenched below the general level. The gently tilted limestone ledges of the Yaque group (Miocene) form ridges or hogbacks, some of which are 100 or 200 meters high. Among the more prominent hiUs on the south side of the Yaque are the Loma de Caracol and the Sierra Zamba. The greater part of the west end of the Cibao Valley is occupied by the broad delta and flood plain of Rio Yaque, but between this low country and the foothills of the mountains lies a strip of higher land dotted with gravelly knolls, which appear to be remnants of a formerly continuous sheet of gravel. Farther upstream the flood plain narrows and finally disappears The eastern half of the Cibao Valley is drained by Rio Yvma, which flows eastward into Saman^ Bay, and its principal tributary, Rio Camii. These streams, as well as the smaller ones, are sharply incised. Between San Francisco de Macorls and Santiago the valleys are 15 to 25 meters deep and little more than 100 meters wide at the surface. The eastern part of the Cibao Valley includes the fertile Vega Real (Royal Meadow), which extends from the swamp lands at the head of Samani, Bay nearly to Santiago. The Vega Real is among the most impressively fertile districts in the world. Its nearly level plains yield large crops of cacao, tobacco, and bananas, and its grassy savannas afford excellent pasturage. It is trav- ersed by the Ferrocarril de Santiago y Samani. iFor a more detailed deBcription of Saman& Peninsula see pp. 181-185 of this volume. 80 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN REPUBLIC. South of the Vega Real, extending from Loma de los Palos eastward nearly to Sabana de la Mar, there is a plateau that stands 100 meters or more above the surrounding land. From a distance this plateau appears to be nearly flat, but closer inspection shows that it is deeply pitted with large cavities. It rises somewhat toward the east, and near Sabana de la Mar it attains an altitude of about 200 meters above sea level. This plateau is underlain by massive coralliferous limestone, probably of Miocene age, and is drained through underground passages. A trail from Cevicos to Villa Rivas, by far the most difficult trail travelled by any member of the ex- pedition, crosses this plateau. From a point several kilometers south of Cevicos, where it first climbs to the plateau, the trail follows the coiu-se of an underground stream, which is marked by a chain of deep sinkholes con- nected by low passes. The surprised traveller scrambles down one side of a sink and up the other, over jagged masses of sharp limestone, only to find another sink, equally difficult and dangerous, just before him. There are said to be 24 of these holes to be crossed, but the weary traveller loses count long before he emerges upon the level plain of the Vega Real. The part of the Cibao Valley that lies east of Santiago is abundantly watered (PI. IV, A), but the part west of Santiago becomes progressively more arid westward, and open grassy meadows give way to cactus and mes- quite clad plains (PI. IV, B) . Most of the water used for domestic pur- poses in this western area is carried on the backs of burros from Rio Yaque or its tributaries, in some places for as much as 20 kilometers. The Cibao Valley is thickly settled, progressive, and prosperous. Santiago de los Caballeros, the second largest city in the country, is the metropolis of the region. It has direct rail connection with Puerto Plata by the Ferrocarril Central Dominicana, a government-owned railroad, which connects at Moca with the Ferrocarril de Santiago y Samana, giving access to the port of Saman&,. Other towns worthy of mention are Moca, La Vega, San Francisco de Macoris, and Villa Rivas on the east, and Navarrete, Valverde or Mao, Guayubin, and Monte Cristi on the west. CORDILLERA CENTRAL. GENERAL FEATURES. The great mountainous backbone of the Dominican Republic, the Cordil- lera Central, starts from low hills at the extreme east end of the island, rises gradually towards the west and attains its greatest height in the west- central part of the island. Its westward extension forms the north range of the Republic of Haiti and is connected by the Montague Noir with the Sierra de Neiba. The range is widest in the middle, where it attains a width of 130 kilometers, extending from a point near Santiago to the latitude of Azua and sending a spur to the shore of the Caribbean Sea at Sabanabuey. o i3 s§ ■—I H so o a 1 1 1 ;. ^;/?f- 1? I 1 1 1 H 1 1 . ■.;. ■■■ :J GEOGBAPHY. 31 To the traveller on the few trails across the mountains no systematic arrangement of the elements composing the Cordillera is perceptible. The range appears to be a jumble of ridges and peaks, with occasional unexpected beautiful little flat-bottomed valleys nestling at their feet. The causes of this irregularity are to be sought in the complex geologic composition and structure of the Cordillera. Not only does the central mountain mass include many different kinds of rocks — effusive and intrusive igneous rocks, schists and other metamorphics, and a great variety of sedimentary rocks — each of which has its own characteristic topographic development, but much of it has been faulted along several different axes and otherwise disturbed. Examples of discordant ridges due to faulting are Loma El Niimero, east of Ocoa Bay, and the mountain front north of Azua. Both of these ridges, which run nearly at right angles to one another, are outlined by faults. BONAO TRAIL. The route across the Cordillera Central most frequently used by travelers between the capital and towns in the Cibao Valley is the Bonao trail. This route leads from Santo Domingo City through Los Alcarrizos and Bonao to La Vega. The Duarte Highway (Carretera Duarte), now under construction, follows this old trail for a considerable distance but departs from it at places in order to take advantage of easier grades. Hatillo, 28.5 kilometers from the capital, is in the low hills at the southern border of the Cordillera Central. The approach to Hatillo is over a grad- ually rising, rolling country, much of which is cultivated. The camp at this place marked the end of the part of the Carretera Duarte leading from Santo Domingo City which had been completed by April 1, 1919. Between Hatillo and El Madrigal, a settlement of a few scattered houses, the country is rather open. Many of the valleys are steep-sided and the ridges are rather sharp, but the soil is deep and not much rock is exposed. (See PI. V, A and B.) The higher mountains to the west are more rugged. Rio Jaina, where crossed, is clear and rapid, about one meter deep, 90 meters wide, and strewn with boulders. Near El Madrigal (see PI. V, C) two terraces at heights of 26 and 49 meters respectively above the river were noted. Between El Madrigal and Sabana Grande, which is marked by a single house, the route lies along the valleys of Rio Jaina and Arroyo Guananitos. The valley of Rio Jaina at El Madrigal is nearly 5 kilometers wide and has steep wooded hills on both sides. It is floored with clay, loam, and gravel, and is covered with a fairly dense growth of bushes, interspersed with some- what swampy savannas. Arroyo Guananitos, above La Mata, is a small meandering stream having a fall of 4 or 5 meters per kilometer. Its channel is choked with logs and trees, and terraces of gravel and sand were noted at several places in its valley. The upper part of the valley of Arroyo 32 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Guananitos is broad and nearly flat. At Sabana Grande, which is about 250 meters above sea level, it is more than 6 kilometers wide. The floors of the stream valleys, although wide and flat, are bordered by mountains. (See PL VI, B.) The scenery along the route is attractive in many ways and very picturesque. The main divide of the Cordillera Central between Sabana Grande and Bonao is crossed by the Bonao trail at an altitude of about 430 meters above sea level. The trail is somewhat steep but not difiicult in dry weather, but here, as in many other parts of it, mud is very trouble- some at all times except near the end of the dry season. Small pines grow at altitudes above 340 meters. Mahogany was noted between Piedra Blanca and Hato del Bonao. The growth of bushes and small trees of many kinds is in most places very thick, and some tree ferns were seen. Rio Juan Manuel, Arroyo Maim6n, and several other clear, swift streams are passed between the summit of the divide and Bonao. No falls were seen, but there are numerous small rapids. None of the streams are large, but several are large enough to supply a small, town with water, and perhaps also with some power. Bonao, a town of about 1,000 inhabitants and by far the largest settle- ment between the capital and La Vega, stands on the fertile alluvial flat that borders Rio Yuna. It is the center of an agricultural community, which produces considerable quantities of cacao, tobacco, coffee, beans, and many kinds of fruits. Rio Yuna, a broad stream about a meter and a half deep, is forded about 1 kilometer north of Bonao. The trail thence leads across a low divide into the valley of Rio Jima, a much smaller stream, crosses a low pine-clad ridge, and comes to Loma Miranda. Loma Miranda is crossed at an altitude of about 290 meters above sea level. Its grades are among the steepest on the Bonao trail, the descent on the northwestern side to the Vega Real being especially abrupt. The Carretera Duarte avoids this mountain by making a detour down the valley of Rio Jima. At El Pino, near the foot of Loma Miranda, the trail joins the Carretera Duarte and follows the nearly level floor of the Vega Real to Concepci6n de La Vega. SIERRA DE OCOA. The name Sierra de Ocoa is applied to the part of the Cordillera Central that lies south of Rio de las Cuevas and west of Rio Nizao. This region is well watered, presenting a striking contrast to the thirsty plains of Azua that adjoin it on the south. In the midst of the mountains is the thickly settled, fertile, terraced valley of Rio Ocoa, which drains almost the entire region and passes southward out of it through a gorge extending from San Jos6 de Ocoa to Los Ranchitos, near which it emerges upon the plain. DOMINICAN REPUBLIC Geological Survey Memoirs, Vol. I, Pl. IV A. VEGA REAL, SABANA LLANA NEAR EL HIGO GORDO, PROVINCE OF LA VEGA, WITH THE FOOTHILLS OF THE CORDILLERA CENTRAL IN THE DISTANCE. B. VALLEY OF RIO YAQUE DEL NORTE NORTH OF ESPERANZA. Large Cereus cacti in middle ground. GEOGRAPHY. 33 San Jos6 de Ocoa, better known by its old name of Maniel, is charmingly situated on an outwash slope and well- developed terrace at an altitude of about 50 meters above Rio Ocoa and about 450 meters above sea level. The town is nearly surrounded by sharp ridges of limestone, but from it can be seen the high mountains at the headwaters of thfe Ocoa. It boasts a church and plaza and three coffee mills, in which the coffee berries are shelled through hoppers. Besides coffee, the neighborhood produces large quantities of red beans (habichuelas). A small detachment of the Guardia Nacional is stationed here. Communication with the outside world is maintained over three difficult trails. One little used trail leads northeastward across Loma Nizao (alti- tude of pass about 875 meters above sea level) to Nizao Arriba and thence to Cotuf , meeting the Bonao trail from Santo Domingo to La Vega at Piedra Blanca. Another very hilly trail, which is slippery in rainy weather^ after passing numerous ridges descends from Loma de Portezuelo, which is about 650 meters above sea level, and comes out upon the plain at the village of Estebania, from which an easy trail leads to Azua. The third descends the gorge of Rio Ocoa, fording the river 15 times between San Jos6 de Ocoa and the little settlement of Los Ranehitos, where it tm-ns southeastward to Banf. This trail, of course, is impassable when the river is in flood. The highest mountains on the island rise from the area north of the Sierra de Ocoa. The top of Loma Tina, said to be the highest peak in the West Indies, is reputed to be 3,140 meters above sea level. Monte Culo de Maco, less famed but perhaps equally lofty, towers out of the canon of Rio del Medio opposite the little settlement of Las Canitas. As viewed from the west the mountain resembles a great wedge with a long, smooth, southward-sloping flank, strongly suggestive of a dip slope of sedimentary rocks and steeply truncated at the north end. The western face is very steep. El Rucillo, or Pico del Yaque, said to be 2,955 meters high, is nearly midway between San Josd de las Matas and Tiibano and about 20 kilometers north of Monte Culo de Maco. CONSTANZA TRAIL. The part of the Cordillera Central that lies north of the Sierra de Ocoa is crossed by the Constanza trail, which leads from Santiago and La Vega through Jarabacoa and Constanza to San Juan and Tiibano. From San- tiago the trail leads up the east side of Rio Yaque del Norte and two or three kilometers below Angostiu-a enters hills of coraUiferous Hmestone and massive Miocene conglomerate. From Baitoa, a village of several hundred inhabitants, the trail passes southward or southeastward across steeply tilted conglomerate (Tabera formation) for about 2 kilometers, circles around a prominent double peak of hard limestone, and winds along a narrow, crooked ridge, which maintains a general southward trend and reaches a maximum altitude of about 415 meters above sea level. It then 34 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. drops abruptly to Tabera, a little hamlet nestling in the Yaque Valley, surrounded by steep conical hills of conglomerate and brown shale just big enough to afford a perch for one or two houses. From Tabera the trail ascends gradually for 3 or 4 kilometers and then climbs a steep hill to an altitude of about 200 meters above sea level, where it is joined by a trail from La Vega. From the summit of Loma Llanada or Loma de Joa (altitude about 630 meters), a great mass of serpentine, one can look southward across the wide valleys of Rio Yaque and Rio Jimenoa, and can get, far to the north, vistas of the Cibao Valley and the Monte Cristi Range, looming up beyond it. The south side of Loma Llanada is covered with an open pine forest, which gives way, near the base, to plant types more characteristic of the tropics, such as the royal palm, guava, and wild orange. In the lower, damp places the rose apple ("pomarrosa") flourishes in great luxuriance. Be- tween Loma de Joa and Rio Jimenoa there are low hills and several small streams. Jarabacoa, a compact little town of perhaps 1,000 inhabitants, is built on a terrace on the left bank of Rio Yaque del Norte at an altitude of about 480 meters above sea level. A well-defined higher terrace begins at the edge of the town, and corresponding terraces can be seen on the oppo- site side of the river. El Barrero (altitude about 1,000 meters) dominates the view on the south. From the top of hills near Jarabacoa can be seen the rounded "peak of El Rucillo, and far away to the north the even profile of the Cordillera Septentrional. A steady climb of an hour and a half brings one from Arroyo Baiguate to a grassy knoll at the top of El Barrero, from which the road circles westward down the southern side and climbs by easy stages to El Paso Bajito and past La Piedra del Toro to the ford of Rio Jimenoa at El Rio. All trails in this region follow the crests of ridges that extend like buttresses away from the main mountain mass. From the top of Loma del Valle a beautiful view can be had of the flat- floored valley of Constanza and of the rugged, cloud-capped mountains that shut it away from the outside world. The valley occupies an area of perhaps 30 square kilometers at an altitude of about 1,100 meters above the sea. It is drained by Rio Lim6n, which has etched a narrow outlet through the mountains to the west. Because of the high altitude the climate of the valley of Constanza is delightfully invigorating. The nights are cool all the year round and frost is sometimes formed in winter. Mosquitoes, the bane of the tropics, appear to be unknown in this valley. About 1 kilo- meter from Constanza the Department of Agriculture maintains an ex- periment station for raising products of the temperate zone. Constanza is a forlorn village of several score of cabins, and except its beautiful location and healthful climate, has few attractions to the outsider. DOMINICAN REPUBLIC Geological Survey Memoirs, Vol. I, Pl. V A. VIEW NORTHWARD FROM HATILI-0, 28.5 KILOMETERS NORTHWEST OF THE CITY OF SANTO DOMINGO. l^^jjjl>J, '^'' ''''^''■-/l ^ gi^. kg^ H^ HM ■■■H^^Hj Ml RS PHfHI^i ^^Ik_'^'' »^.* ^v h^^Shh^I^ 1 ^ .jilrWiiHr !^iPI^BH^^^^^I WMk. W-Mft f^ ' - .-^ _^ — Li^' ' . -.iMS^ks^ffi^-^ 'o/^^HB B. VIEW SOUTHWARD FROM LOMA COCO, BETWEEN HATILLO AND EL MADRIGAL. C. TERRACE FLAT AT EL MADRIGAL, ON RI-O JAINA. GEOGRAPHY. 35 Beyond Constanza the trail runs westward, crossing Loma Chingiiela at an altitude of about 1,150 meters, perhaps 350 meters below its summit. The descent to Rio del Medio, 300 meters below, is very steep. On the west side of Loma Chingiiela there is a sudden change in the character of the vegetation. The open pine woods stop abruptly, giving way to nearly bare slopes that bear only an occasional tree. From the foot of Loma Chingiiela the road descends the gorge of Rio del Medio, at some places clinging high up on the side of the gorge in a trail too narrow for two horses to pass, at others descending to the bank of the river, which it crosses twelve times. At Arroyo El Gorbano it begins the ascent of Loma La Fortuna, scattered over whose side among the clouds, at an altitude of nearly 1,100 meters, is the settlement of Las Canitas. The west flank of this mountain overlooks the Sierra del Agua into the Valley of San Juan. After fording Rio del Medio for the thirteenth time the trail climbs the steep northern side of Loma la Laguna (altitude about 1,006 meters) and descends the longer, much gentler slope on the south to the boulder- strewn bed of Rio de las Cuevas, which it follows downstream for 9 or 10 kilometers to Tdbano. TRAIL FROM SABANETA TO SAN JUAK. Near the Haitian border the Cordillera Central is crossed by several trails, none of which is an important thoroughfare. The trail followed by Messrs. Condit and Ross, upon whose notes this description is based, leads from Sabaneta, in the Province of Monte Cristi, southwestward to Re- stauraci6n, near the Haitian border, thence thtough La Cruz, Guayajayuco, and Joca, to Las Matas, in the valley of San Juan. The usual route south from Restauraci6n passes through an eastward projecting corner of Haiti to Binica, but it was deemed advisable to follow the somewhat more diffi- cult trail in order to remain in Dominican territory and thus to avoid conflicts with bandits and revolutionists. For three kilometers southwest of Sabaneta the trail traverses grassy savannas, winds over hills of gradually increasing height and steepness, and crosses clear, gravelly brooks and small rivers to La Loma. Loma Pefiita, locally famous for the wild hogs that roam over it, is the most im- pressive peak seen from the trail. (See PL VI, A). The highest point reached on this part of the trail is roughly 420 meters above sea level, at which altitude there is an extensive and well-marked dissected upland bench, apparently free from gravel. La Loma, a village of a few score houses in a valley about 160 meters below the level of the upland bench, is the center of an agricultural community. From La Loma the trail rises to the level of the upland bench, and thence climbs to the crest of a ridge that stands at an altitude of about 550 meters 36 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN KEPUBLIC. above sea level, from which Manzanillo Bay and El Morro de Monte Cristi are visible in the distance. Just beyond this ridge the trail forks, one branch leading to Dajabon and the other southeastward along a steep ridge between deep valleys. Near El Carrizal there is an even-topped pine-clad ridge about 713 meters above sea level. The pines are tall and spindling. One tree 63.5 centi- meters in diameter was measured, but few are as much as 45 centimeters through. The ridge widens to a gently rolling upland at an altitude of about 715 meters, the highest point registered by the barometer east of Restauraci6n. The country is open, the soil is deep, and there are no rock outcrops. The trail here is broader and more work has apparently been done on it than in most other mountain districts in this country, possibly on account of the military importance of a road so near the Haitian boundary. From El Carrizal the trail descends to Restauraci6n at an altitude of about 650 meters above sea level. Restauraci6n, although it is one of the larger towns in the region and contains a small detachment of the Guardia Nacional, presents a poverty-stricken appearance and shows few signs of activity. The country between Restauraci6n and Joca is more mountainous than that to the north and east. After crossing Rio Neita, a small stream near Restauracion, the trail gradually rises toward the southeast to a ridge about 755 meters above sea level. The country here is rugged and is covered with the usual small pines and grass. Below the ridge, and perhaps 15 kilometers from Restauraci6n, is La Cruz, a solitary house among the pines. From the top of the next rise, which affords extensive vistas south- westward into Haiti (see PL XVI, B), the trail winds down into the vaUey of Rio Guayajayuco to a gravel-covered bench at an altitude of about 500 meters above sea level. Rio Guayajayuco or Artibonito, here a swift stream about 18 meters wide flowing in a steep-walled sandstone gorge, is crossed near the small settlement of Guayajayuco. From Guayajayuco the trail leads over steep hills for 9 or 10 kilometers, follows the bed of Rio Guayajayuco for about one kilometer, and then ascends to the grassy bench upon which stands the little settlement of El Amacey. At El Amacey begins the steep ascent of Loma Vieja. The trail climbs some 650 meters above the river to an altitude of approximately 1,035 meters above sea level, but Loma Vieja still towers above the trail, its summit lost in the mists. The vegetation is mostly shrubbery inter- spersed with a few small pines. An abundance of filmy, greenish-gray hanging moss gives it a ghostly appearance. The trail follows narrow ridges on the flanks of Loma Vieja for two or three kilometers, then plunges down into the valley of Rio Joca, a swift m >• tig eu £ 35 so z< og so o Q GEOGRAPHY. 37 stream several meters wide flowing ia a gorge about 40 meters deep. Joca, on the south side of the valley, is a station of the Guardia Nacional. From this lonely post patrols of two men are daily sent to meet the patrols from Restauraci6n at Guayajayuco. Constant vigilance is needed to prevent the passage of bandits and smugglers across the Haitian boundary. VALLEY OF SAN JUAN. The ^eat valley of San Juan occupies an area in the western part of Azua Province lying between the Cordillera Central on the north and the Sierra de Neiba on the south. On the west it merges into the central plain of Haiti; on the east it is separated from the Azua Plain by spurs from the Cordillera Central and the Sierra de Neiba. A low divide near Las Matas forms the watershed between Rio Macasla, which flows west- ward into Riviere Artibonite, and Rio San Juan, one of the larger tribu- taries of Rio Yaque del Sur. The part of the valley within the Dominican Republic extends northwestward for about 80 kilometers and ranges in width from 15 to 20 kilometers. It includes low hills, rolling plains, and large tracts of nearly level prairies or savannas. Glowing accounts of the beauty and fertihty of the valley of San Juan are brought out by travellers. The valley is favored with a larger and more evenly distributed rainfall than that of the adjoining Azua Plain, so that water for irrigation is more abundant. San Juan de la Maguana is the center of the social and commercial life of the valley. It is connected with Azua by a wagon road, which is at most times passable by automobiles, and which, when the improvements now in progress shall have been completed, will afford easy access by motor car to Azua. Automobiles can also continue westward nearly or quite to Com- mendador. The valley is so nearly level that roads can easily be opened in most parts of it. The greatest obstacles to travel are the thick brush and the superabundant gravel in some areas. AZUA PLAIN. The Azua Plain extends from the foothills of the Sierra de Ocoa of the Cordillera Central on the north to the Sierra de Martin Garcia on the south, and from Rio Yaque del Sur in the vicinity of Los Giiiros to the foot of Loma El Nrimero east of Bahfa de Ocoa. The continuity of the plain along the shore is interrupted by Loma de la Yigla, a limestone ridge rising from the water's edge at the entrance to the Bahla de Ocoa to an altitude of about 425 meters above sea level. Inland the plain is broken by several hilly areas. The Azua Plain is drained by Rio T^bara, Rio Jura, Rio Via, and several smaller streams. All these streams are intermittent in their lower courses, but their perennial headwaters furnish water for domestic use and for irrigation. 38 GEOLOGICAL HECONNAISSANCE OF THE DOMINICAN REPUBLIC. The Azua Plain is hot and semiarid. The rainfall is somewhat greater than the vegetation would indicate, but as much of it is torrential the run- off is excessive, so that much of the water is lost. A large part of the plain is overgrown with thickets of cacti and mesquite, which make travel across it tedious and painful except along beaten trails. A low, shrubby cactus, guazabara, is particularly annoying. The soil is fertile and responds readily to irrigation. Azua, the only large town in the neighborhood, is 5 kilometers inland from its port on Bahfa de Ocoa, with which it is connected by an improved highway and a narrow-gauge railroad. South of the town are several large sugar plantations. A wagon road passable by automobiles furnishes an outlet from the fertile Valley of San Juan to Azua, and another wagon road leads from Azua across El Niimero to Ban! and thence to the capital. The trail to Barahona by way of Quita Coraza is usually traveled at night in order to avoid the heat and the glare of midday. A little-used trail across the Sierra de Martin Garcia furnishes a difficult alternate route to Barahona. SIERRA DE NEIBA. The Sierra de Neiba is a range of high mountains lying south of the valley of San Juan and forming the boundary between the provinces of Azua and Barahona. The western extension of these mountains forms the central range of Haiti. The east end of the Sierra de Neiba is separated from the Sierra de Martin Garcia by Rio Yaque del Sur. South of the mountains is the deep trough of Enriquillo Basin. The Sierra de Neiba is composed chiefly of ridges of limestone ranging in altitude from 1,000 to 1,500 meters above sea level and having a fairly even profile, only a few peaks projecting above it, in this respect differing markedly from the rugged Cordillera Central. This uniformity gives a clue to the geological composition and structure of the range, which is formed of tilted blocks of hard limestone and other bedded rocks. SIERRA DE MARTIN GARCIA. East of the Sierra de Neiba and separated from it by Rio Yaque del Sur is the Sierra de Martin Garcia, a short mountain range culminating in Monte Busu at an altitude of 1,340 meters above sea level. The range ter- minates in a row of hills, the Cerros de la Terraza, on the shore of the Carib- bean Sea. The Sierra de Martin Garcia overlooks the Azua Plain on the north and Neiba Bay on the south, and partly shuts off Enriquillo Basin on the west. From the vicinity of Azua or Barahona the Sierra de Martin Garcia looms up as a lofty, rugged mountain. It is composed in part of limestones similar to those of the Sierra de Neiba. GEOGRAPHY. 39 ENRIQUILLO BASIN. The Enriquillo Basin is the eastward continuation of the Cul-de-sac region of Haiti. The two together form a valley about 15 kilometers wide, extending from the Bahla de Neiba, which itself is part of the same physio- graphic province, to Port-au-Prince, in Haiti. This valley, which in late geologic times was a strait, was upUfted so recently that it has been little modified by erosion. The visitor to the Enriquillo Basin has the unique experience of walking dry-shod on the bottom of the sea across shell-strewn sands and of wandering among forests of coral that appear so fresh that the water might have been withdrawn only yesterday. The Enriquillo Basin has been uplifted 35 meters or more, but some depressions in it stil remain considerably below sea level. Lake Enriquillo, a large remnant of the original strait, occupies one such depression. Its surface now stands 44 meters below sea level and is gradually being lowered by evaporation. In 1892, according to Wells,^ the surface of Lake Enriquillo stood practi- cally level with the sea. In 1900, according to Tippenhauer,^ its surface stood 34 meters below sea level. The water in Lake Enriquillo is much saltier than sea water, owing mostly to its concentration by evaporation and partly to additions of saline matter carried by streams. The waters of the Bahla de Neiba are kept out of the depression con- taining Lake Enriquillo by the delta deposits of Rio Yaque del Sxir, which has built a dam across the head of the bay. During unusually high floods part of the water from Rio Yaque is diverted westward into Lake Enri- quillo. Some of the flood water of Rio Yaque is stored in the Laguna del Rinc6n, a large fresh or sUghtly brackish lake connected with the Yaque by a channel near the village of Cabral. The fitang Saum^tre, or Laguna del Fondo, occupies another depression west of Lake Enriquillo. When visited by Wells,' in 1892, its water was slightly brackish, but potable, and its surface stood 58 meters above sea level. According to levels run in 1900^ the Etang Saumdtrestood 20 meters above sea level. SIERRA DE BAHORUCO. South of the Enriquillo Basin is a range of high mountains, the Sierra de Bahoruco, which forms the eastward prolongation of the south range of Haiti. These mountains come down to the sea near Barahona. The width of the range along the sea front is about 25 kilometers. Several peaks visible from the sea rise more than 1,400 meters above sea level, and one reaches 2,075 meters. The Montague de la Selle, in the south range of Haiti, is said to be 2,700 meters high. The mountains are clothed with open pine forests and are carpeted with grass that affords pasturage for 1 Wells, J. W., A survey journey in Santo Domingo, West Indies: Royal Geog. Soc. Sup. Pap., vol. 3, p. 595, 1893. 2Tippenhauer,L. G., Beitrage zurGeologieHaitis, V:Petermann's Mitt., Band 47, VII, p. 169, 1901. •Wells, J. W., op., cit., p. 595. * Tippenhauer, L. G., op. cit., p. 170. 40 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN EEPUBLIC. many cattle. The north front of the range is composed chiefly of massive, steeply tilted, overturned and faulted limestone. The Cerros de Sal, foot- hills 150 to 200 meters high west of Laguna del Rinc6n, consist of nearly vertical beds of rock salt, gypsum, shale, and sandstone. Tucked away in the mountains south of Duverg4 is Puerto Escondido, a settlement of prosperous, contented farmers. A trail leads through this village southward past Rancho Viejo, a cattleman's shelter, to Pedernales, on the Caribbean Sea at the Haitian border. SOUTHERN PENINSULA. The peninsula south of the Sierra de Bahoruco was not visited during this reconnaissance. The coast charts show a spur of the Sierra de Bahoruco reaching nearly to the shore at Cabo Falso and a range of hills parallel to the coast and not far inland, extending from Cabo Falso to the southern extremity of the peninsula. The triangular areas between these two ridges and the Sierra de Bahoruco are probably terraced plains. The region is said to be thickly wooded and to have a more abundant rainfall than the regions farther north. COASTAL PLAIN. Fringing the Caribbean Sea from Calderas Bay to the eastern extremity of the island is a series of terraces, which rise gradually from the shore to an altitude of 100 meters or more at the edge of the foothills of the Cordillera Central. The coastal plain, as the entire area may be called, increases in width from a narrow fringe only a few kilometers wide at the west end to a maximum width of perhaps 65 kilometers (including Saona Island) in the vicinity of Higiiey. Near Santo Domingo the coastal plain is about 16 kilometers wide. The part of the coastal plain east of Rio Jaina is some- times called the Eastern Valley, or the Seibo Plain, and the narrower western part is called the Banl Plain. The Seibo Plain is more humid than the Banl Plain, which verges on aridity and is dependent partly upon irri- gation. The Seibo Plain contains extensive forests and savannas. The soil is fertile and productive. Sugar cane is the most valuable crop. Sev- eral sugar mills have been established in the vicinity of San Pedro de Macorfs and La Romana. Three terraces are crossed on the road from San Pedro de Macorfs to Consuelo. (See PL VII, A.) The lowest slopes gently from a little less than 6 meters at San Pedro de Macoris to 9 meters at kilometer 1.4 from that city. An intermediate terrace plain, 18 meters above sea level at kilometer 1.8, rises gradually to 26.5 meters at kilometer 5. The upper plain, which is very slightly dissected, ranges in altitude from 42 meters at its outer margin (kilometer 5.7) to about 51 meters above sea level. It extends to kilometer 25.5 on the road to Hato Mayor. DOMINICAN REPUBLIC Geological Survey Memoirs, Vol. I, Pl. VII A. TERRACES ON RIO MAGUA ABOVE SAN PEDRO DE MACORtS. y- ., "■■' .1; Or . ■ *? ■1»..-'- '■« >.^;J^'.^;5'' i.-^ "¥'?■ ^?;:s.- ■ ''?. ' Vv" ' A% «.» B. SIERRA PRIETA; CLIFF OF WHITE LIMESTONE. C. GORGE OF RIO MAO ABOVE BULLA. GEOGRAPHY. 41 The principal towns of the coastal plain are Santo Domingo, the capital of the Dominican RepubHc; San Pedro de Macorls, one of the most modern towns but cursed with mosquitoes; and Banl. San Crist6bal, Hato Mayor, Seibo, Higiiey, and La Romana are small villages. Saona Island, a flat-topped terraced island, is obviously an outlier of the limestone plain of the southeast peninsula, from which it is separated by a shallow, narrow channel. Catalina Island, off the port of La Romana, is also a remnant detached from the mainland. Many good-sized streams, some of them navigable, cross the coastal plain. Ocean-going steamers enter the mouth of Rio Ozama at Santo Domingo, and the river is navigable by small boats for some distance above the city. Sugar from the large mills at Consuela and the neighboring estates is lightered down Rio Magui and Rio Macorls to San Pedro de Macorls. DRAINAGE. NORTH SLOPE OF THE CORDILLERA CENTRAL. The principal watershed of Santo Domingo is the CordiUera Central, in which all the larger streams have their source. The actual divide is very sinuous and lies somewhat south of the center of the mountain mass. From both sides of this divide good-sized streams find their way to the sea. Rio Yuna, one of the three largest rivers of the republic, heads in the moun- tains east of Constanza, flows in a tortuous course eastward and north- eastward past Bonao, and emerges into the Vega Real near Cotui. Its channel eastward through the Vega Real to the head of Saman4 Bay is sunk 15 meters, more or less, below the surface of the plain. The Yuna has built a wide delta which nearly blocks the passage between SamanS, Peninsula and the mainland. About midway between Cotul and Villa Rivas the Yuna is joined by its principal tributary, Rio Camii, which, although it has its source in the Cordillera Central, receives many tribu- taries from the north. Although these two rivers are navigable by launches for many miles no boats larger than dug-out canoes were seen on either of them. These rivers drain nearly all the north slope of the CordiUera Cen- tral east of a line through Santiago and Constanza. Most of the Kmestone plateau between Cevicos and Sabana de la Mar is drained through under- ground channels. Rio Yaque del Norte rises on the slopes of El Rucillo in the center of the island, runs eastward through the mountains to Jara- bacoa, swings nearly due north to Santiago, and thence flows northwest- ward to the sea at Monte Cristi. Like the Yuna, it has built a large delta, cut by several distributaries, some of which enter Manzanillo Bay and others extend to the ocean near Monte Cristi. Only the northern channel now contains water. Unlike the Yuna and the Camti, the Yaque receives few tributaries from the north. From the south, however, it receives practically all the drainage from the large area between Santiago and the 42 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Haitian border and north of the main watershed. The Amina, Mao, and Cana carry a considerable volume of clear, pure water. Rio Gurabo is a smaller, sluggish stream, but is the only source of drinking water for the villages along its banks. Rio Guayubin and the watercourses west of it are mere arroyos, dry most of the time but raging torrents in wet weather. SOUTH SLOPE OF THE CORDILLERA CENTRAL. The drainage from the south slope of the Cordillera Central falls into three principal groups — the through-flowing streams of the coastal plain, the basin of the Rio Yaque del Sur, and the headwaters of the Artibonite. Many large rivers cross the coastal plain and enter the Caribbean Sea, most of them in directions normal to the coast. Though none of these are ong in comparison to the rivers in other parts of the island, yet because of the large rainfall in this region they carry a surprisingly large volume of water and are subject to sudden floods. The larger rivers of the coastal plain, named from east to west, are the Chav6n, the Soco, the Macorls and its principal tributaries (the Magnk and the Iguamo), the Ozama, the Jaina, the Nigua, the Nizao, and the Ocoa. Many of the smaller streams, such as Rio Banl, have broad, boulder-strewn beds capable of carrying a large volume of flood water. The Ozama and the Macoris are navigable for some distance above their mouths. Rio Yaque del Sur, one of the three largest rivers, rises on the south flank of El Rucillo not far from the source of Rio Yaque del Norte. Its principal tributaries are Rio del Medio, a brawling torrent that twists through a deep gorge between Monte La Fortuna and Monte Culo de Maco; Rio de las Cuevas, whose milky waters, anastomosing over a broad, boulder- strewn bed, come from the direction of Monte Tina; and Rio San Juan, which drains a large mountainous area and the east end of the valley of San Juan. The Yaque receives no large tributaries below the mouth of Rio San Juan. It cuts across the end of the Sierra de Neiba, runs back of the Sierra de Martin Garcia, and builds its delta at the head of the Bahfa de Neiba. Riviere Artibonite, formed by the confluence near the Haitian border of Rio Macasla and Rio Guayajayuco, flows westward across Haiti and drains the western part of the valley of San Juan and its continuation, the central plain of Haiti, as well as part of the Cordillera Central. Along the Haitian boundary the Guayajayuco flows through a deep canon cut in shales and slates. This river system shows anomahes that offer interesting problems to be solved when accurate maps and more detailed knowledge of the geology are available. CORDILLERA SEPTENTRIONAL. The divide between the drainage basins of the Cibao Valley and the Atlantic coast is the high ridge that forms the south front of the Cordillera Septentrional. From the south slope of this ridge small streams flow south- GEOGRAPHY. 43 ward into Rio CanHi and Rio Yaque del Norte. The principal drainage lines north of the divide follow the longitudinal valleys, some streams flowing eastward into Escocesa Bay, others flowing northwestward into the Atlantic, but some streams cut across the obstructing ridges and find their way to the sea by shorter courses. The principal streams are Rio Boba and Rio Isabel, flowing east and west, respectively, and Rio Yasica, which cuts across the "grain" of the country. Many other smaller streams flow northward into the ocean. MINOR WATERSHEDS. Samani Peninsula is too small to support any large streams. A number of rivulets, most of them having their sources in springs at the foot of the front range, find their way into SamanS, Bay. So far as known, no streams break through the front range from the higher land farther north. The limestone plateau at the east end of the peninsula is drained by subterranean channels, some of which terminate as springs along the shore. The streams on the north side are on the whole longer and larger than those on the south, for more than half the peninsula is drained to the north. Because of the low rainfall in the southwestern part of the Republic no large streams have their source in the Sierra de Neiba. The headwaters of Rio Macasfa, one of the tributaries of the Artibonite, come from the north slope of the Sierra de Neiba, and a few small tributaries of Rio San Juan head farther east in the same range. Some large springs that are tributary to Lake Enriquillo issue at the foot of the mountains south of the lake. A few ephemeral rivulets trickle down the southeast end of the range only to lose themselves in the thirsty soil of Enriquillo Basin. The Sierra de Bahoruco probably receives more rain than the Sierra de Neiba, but no large streams have their source in it. Rio de las Damas flows northward into Lake Enriquillo, as do also several smaller brooks. Little is known of the drainage of the south side of the range and of the southern peninsula, but neither probably contains any large streams. TRANSPORTATION. RAILROADS. There are two public railroads in the Dominican RepubUc, both narrow- gauge, and both serving only part of the Cibao Valley — the area north of the Cordillera Central. The Ferrocarril Central Dominicano is a govern- ment-owned line extending from Puerto Plata across the Cordillera Sep- tentrional to Santiago and thence by way of Pena to Moca, where it con- nects with the Ferrocarril de Santiago y Saman&,. The Ferrocarril Central Dominicano crosses the mountains on grades so steep that it can only with great difficulty maintain trafiic, which is at times wholly interrupted be- cause of slippery rails. It crosses the divide in a tunnel near Altamira at an altitude of about 490 meters. The main line of the Ferrocarril de 44 GEOLOGICAL BECONNAISSANCE OF THE DOMINICAN REPUBLIC. Santiago y SamanS,, sometimes called the "Scotch Railroad" because of the nationality of its promoters, extends from La Vega to a terminal on Saman&, Bay at Sanchez, and one branch runs northward to San Francisco de Ma- coris and another to Salcedo and Moca. Several large sugar estates have constructed short railways for their own use. These roads are most numerous in the vicinity of San Pedro de Macorls, Azua, and other towns on the south coast. ROADS AHD TRAILS. Highway construction in the Dominican Republic is now being vigor- ously prosecuted by the Departamento de Obras Piiblicas, but the mileage of roads passable for wheeled vehicles is still lamentably small. The most important road projected is the Carretera Duarte, which will run from Santo Domingo through La Vega and Santiago to Monte Cristi. Much of this road, which will connect the capital with the Cibao Valley, is already open to traffic, and the final and most difficult section, that across the Cordillera Central, is now under construction. Nearly all overland traffic uses trails that are absolutely impassable for wheeled vehicles and that appear to have received few repairs since the time of Columbus. The sharp hoofs of innumerable mules and burros, heavily laden with the varied products of the country, have cut the softer stretches of road into remarkably even transverse furrows, some of them nearly belly deep, which fill with a sticky mixture of mud and water during rains and rarely become dry. The hard ridges between the furrows offer a precarious footing to pedestrians, but the canny donkey prefers to follow in the footsteps of his ancestors. As many of these mudholes occur on steep mountain sides very little labor in digging ditches would greatly reduce their number. Mud is more to be dreaded than mountains. The most formidable obstacle to travel in the Dominican Republic is the Cordillera Central. This great mountain range is crossed by several trails, all of them rather difficult. The passes across the east end of the range are low and very muddy. The trails across the central and western parts of the range are not so muddy but are very rough and steep. In the course of this investigation the Cordillera was crossed by three trails — ^the Bonao trail, which leads from the capital through Los Alcarrizos, Piedra Blanca, and Bonao to La Vega; the Constanza trail; and a trail from Saba- neta to Restauraci6n and thence along the canon of the Guayajayuco to the vicinity of B&,nica and on to San Juan. COAST LINE AND SHORE FEATURES. MANZANILLO BAY. At the mouth of Rio Massacre, the boundary between the Dominican Republic and the Republic of Haiti, a V-shaped tongue of deep water, probably formed by a down-dropped fault block, pushes into the land. GEOGRAPHY. 45 On the south side of this V the 100-fathom line hugs the north coast of Haiti, but on the north side it sweeps northwestward about 40 kilometers to the outer end of Monte Cristi Bank, a submerged platform that projects from the mainland of the province of Monte Cristi. Manzanillo Bay, at the head of this V-shaped deep, is one of the best harbors on the north coast of the island. It is large and well protected, and its deep water extends close up to the shore. The east and north shores of the bay, which are formed by the delta of Rio Yaque del Norte, are low and swampy, and are penetrated by several abandoned distributaries of the river. Manzanillo Bay is now very Uttle used, but when a railroad from Santiago is extended to terminals on deep water, it should become the outlet for a large com- merce. MONTE CRISTI BANK. Several islets on the submerged platform called the Monte Cristi Bank now rise a few feet above sea level or he awash, and an uplift of 40 metjrs would convert the greater part of the bank into dry land. The sides of the bank slope steeply into water exceeding in depth 100 fathoms (183 meters). Off Monte Cristi the bank is about 22 kilometers wide, but it gradually narrows eastward to Punta Rucia, some 50 kilometers from Monte Cristi, where deep water extends close to shore. The delta of Rio Yaque del Norte is gradually pushing westward across the Monte Cristi Bank. Corals grow plentifully on much of the bank, and barrier reefs separated from the shore by lagoons extend along part of its eastern end. Monte Cristi Bay is an open roadstead, sheltered from the trade winds by Cabra Island and the headland of El Morro, a prominent butte 275 meters high. As the water near the shore is too shallow for any but small boats , sea-going vessels are compelled to anchor 2 or 3 kilometers out and transfer their cargoes to Hghters. The shore near Monte Cristi is low and shelving and is bordered by salt marshes, which are protected from the sea by a low sand bar. South of the town is the broad delta of Rio Yaque del Norte. The main channel of the river is about 3 kilometers from the town, but old, abandoned distribu- taries ramify across the delta to the south. The land back of the town rises into a low, semicircular ridge, which leads northeastward to the foothiUs of the Cordillera Septentrional, or Monte Cristi Range. El Morro, nearly 5 kilometers north of Monte Cristi (PI. II, B), is separated from it by salt marshes. Flat terraces, some of them strewn with conch shells, indicate relatively recent uplifts along this part of the coast. PUERTO PLATA BAY. The circular harbor of Puerto Plata indents the north shore of the Re- public about 70 kilometers east of Monte Cristi. The harbor is entered through a narrow channel between coral reefs that extend in a line of foam from West Point, on the west, nearly across its entrance. The battered 46 GEOLOGICAL EECONNAISSANCE OP THE DOMINICAN REPUBLIC. hulks of wrecks on the reefs bear silent testimony to the perils of navigation in this treacherous spot. On the east rise the time-stained walls of Fort San Felipe, at the top of a low cliff, and on a gentle rise behind the fort is the lighthouse. Except along the promontories of East Point and West Point, the bay is bordered by a narrow strip of palm-fringed sandy beach, broken through on the southwest by Rio San Marcos, a sluggish stream that wanders in a swampy alluvial plain. On the south rise the steep sides of Monte Isabel de Torres, a conspicuous landmark from the sea (PI. Ill, A), and on the outwash slopes at its feet is built the picturesque town of Puerto Plata. Along the western skyline rise the jagged profiles of several sharp coni- cal hills. Puerto Plata Bay appears to be the drowned mouth of the valley of Rio San Marcos, but a dead coral reef 10 feet above sea level adjoining the living reef at the mouth of the bay shows that there has been emergence as well as submergence in this region. PUERTO PLATA TO CAPE SAMANA. East of Puerto Plata gentle slopes that extend back several kilometers from the shore give room for farms and plantations between the mountains and the sea. Much of the coast between Puerto Plata and Cape Frances Viejo is bordered by coral reefs through which narrow openings lead to the indentations in the shore forming the ports of Sosda and Cabarete. Cape Frances Viejo is a bold, lofty headland that stands less than 6 kilo- meters from the shore and rises 346 meters above sea level. It is visible 50 kilometers from the shore. From far out at sea off this cape can be seen Loma Quita Espuela, a peak on the south front of the Cordillera Septentrional overlooking the Vega Real near San Francisco de Macoris. From Cape Frances Viejo the coast runs southward past the village of Matanzas to the mouth of the Gran Estero, the swampy area that separates the peninsula of Samani from the mainland. The great bight in the angle between SamanS, Peninsula and Cape Frances Viejo is known as Escocesa Bay. A submerged bank supporting reefs and a few small cays extends from Matanzas to Cape Cabron and attains a maximum width of about 12 kilometers off Puerto Escondido. The deep bight between Cape Cabron and Cape SamanS,, called Rinc6n Bay, contains several small cays skirted by a reef. The bottom of the bay is a submerged bank that is in most places less than 20 fathoms (37 meters) below sea level. SAMANA BAY. Samana Bay is justly famous as one of the best and most beautiful har- bors in the West Indies. Ships entering the bay pass first the bold, rocky, eouthwestward-trending shore between Cape Saman^ and Ballandra Point, against which the waves spout high in air. Several step-like terraces GEOGEAPHY. 47 lead down from the two headlands to the lower plateau between them. From Ballandra Point the bay extends westward about 45 kilometers to the flat delta of Rio Yuna, maintaining an average width of about 16 kilometers and a depth great enough to admit the largest ships nearly to the head of the bay. Shoal water at the mouth of the bay restricts entrance to an easily defended channel near the northern shore, but within the bay there is ample room for many ships to maneuver or to lie safely at anchor. Along most of the eastern half of the north shore the mountains rise almost from the water's edge, but at Santa Barbara de Samana they are lower and more broken and the shore is indented by a little bay, which is shut off from the greater bay by several pretty little wooded rocky islets. (See PI. Ill, B.) The west half of the north shore is bordered by a nar- row fringe of terraced lowlands, back of which the mountains rise steeply. Near the west end of this terraced area is the town of Sanchez, the terminus of the Ferrocarril de Santiago y Samana and a port of entry. As the town is a considerable distance from deep water large vessels are unable to dock there and have to load and unload cargo from lighters. From the head of the bay to San Lorenzo Bay the south shore is jagged with cliffed spurs that extend into the water from a lofty, even-profiled limestone plateau. East of San Lorenzo Bay is a stretch of low, thickly wooded country, back of which rise low, jagged mountains. Sabana de la Mar, the only village worthy of notice on the south shore, cannot be reached by ships because of very shallow water. SamanS, Bay is the drowned extremity of the great Cibao Valley, but traces of rather recent sUght emergence are seen in raised beaches, raised coral reefs, and sea caves that now stand above tide. Many such caves have been found west of San Lorenzo Bay. EAST COAST. From Cape Rafael, a low point at the entrance to SamanS, Bay, the coast trends southeastward, in line with the end of Samani Peninsula, to Cape Engano. It is skirted by a broken reef. Cape Engano is a low, reef- locked point that rises several kilometers inland into low hills. A bank, which at its outer margin is in places only 30 fathoms below the surface, extends eastward from Cape Engano for 50 kilometers into the Mona Passage. This bank may be the cause of the heavy swells that prevail in this part of the Mona Passage. A lateral extension of this bank borders the coast at Point Espada, a prominent cliff over 90 meters high. Between Point Espada and the east end of Saona Island is a semi- circular indentation in which deep water reaches within a short distance of the shore. Most of the shore along this indentation is bold and rocky, and part of it is bordered by a raised coral reef. Yuma Bay, north of Cabo Falso, receives Rio Yuma, which drains a considerable area in the eastern peninsula. 48 GEOLOGICAL KECONNAISSANCE OF THE DOMINICAN REPUBLIC. SOUTH COAST. The peninsula extending southward from Yuma Bay to Catalinita Bay continues as a partly submerged boot-shaped bank for a considerable distance into the Caribbean Sea. Saona Island, on this bank, is about 22 kilometers long (from east to west) and about 3 to b}4 kilometers wide. The greater part of the island is low, but at its eastern end there is a rocky bluff 35 meters high. In Catalinita Bay, the shallow channel separating Saona Island from the mainland, there are several small islands and cays. From Saona Island to Punta Salinas the south shore of Santo Domingo presents little diversity. Rocky cliffs 3 to 4^ meters high, against which the waves break and dash high in air, extend for leagues. Wooded plains reach inland to the foot of the hills, which can be dimly discerned far away to the north but which approach closer to the shore west of Santo Domingo City. Low Catalina Island, off the port of La Romana, marks the end of a bank that fringes the shore as far west as Andres Bay and at- tains a maximum width of 11 kilometers off San Pedro de Macoris. Another triangular bank between Punta Palenque, near the mouth of Rio Nizao, and Punta Salinas is 9 kilometers wide. At San Pedro de Macorfs and Santo Domingo raised coral reefs and terrace plains show that this part of the coast stands higher with respect to the sea than formerly. The terraces near Macorfs are described on page 40. Between Punta Salinas and Punta Avarena, a distance of 55 kilometers, the south coast of Santo Domingo is deeply indented by three bays. Las Calderas Bay, cut off from the Caribbean Sea by the long sandy spit termi- nating in Punta Salinas and Punta Calderas, is the smallest and most shel- tered of the three. Ocoa Bay is much larger and is wide open to the south. Its bottom is a submerged bank whose outer edge runs westward from the mouth of Rio Ocoa to Punta Martin Garcia. Loma El Ndmero rises steeply from its eastern edge, and Loma de la Vigia, on the opposite side, partly protects the port of Azua from south winds. Puerto Viejo, the old port of Azua, southwest of the Loma de la Vigla, has the appearance of the drowned mouth of a valley, but is partly enclosed by raised coral reefs 3 meters above sea level. Neiba Bay, on the south side of which is the village of Barahona, is the continuation of EnriquiUo Basin, from which it has been separated by the delta of Rio Yaque del Sur. It hes between the lofty Sierra de Martin Garcia on the north and the Sierra de Bahoruco on the south. A bight of very deep water extends from the southeast nearly to the mouth of Rio Yaque del Sur, at the head of the bay, but the shallower water along the sides is obstructed by reefs and shoals. From the mouth of Neiba Bay the shore trends southwestward to Punta Beata, at the end of the southern peninsula, and the edges of the banks of Beata Island and Alta Vela maintain the same direction for 35 kilometers beyond the point. A channel exceeding 100 fathoms in depth separates the GEOGBAPHT. 49 banks on which are Alta Vela and Beata islands, and a wide expanse of very deep water intervenes between these two islands and Los Frailes, a cluster of white-topped, rugged rocks rising from a bank 3 kilometers in diameter nearly midway between Alta Vela and Cabo Falso. The Beata Island bank is attached to the mainland and sweeps in a broad semicircle to Cabo Falso. The shore from Punta Beata as far north as Cabo Rojo is a suc- cession of steep cliffs, which maintain their verticality even where they are faced by a beach of sand or pebbles. Cabo Falso, 40 meters high, is the extremity of a long headland which is connected by a ridge with the Sierra de Bahoruco. The shore north of it is indented by several small bays. A bank of irregular outhne hugs the shore north of Cabo Falso, widens off Cabo Rojo and Trou Jacob, and attains a width of 10 or 11 kilometers off Pedernales at the Haitian boundary. CHAPTER IV. STRATIGRAPHIC AND STRUCTURAL GEOLOGY AND GEOLOGIC HISTORY. By Wythe Cooke. STRATIGRAPHY. BASAL COMPLEX. CHAEACTEB AND EXTENT. The oldest rocks in the Dominican Republic form a complex group of schists, serpentines, intrusive and extrusive igneous rocks, tuffs, and more or less altered conglomerates, shales, and Umestones. These ancient basal rocks resemble the basal rocks in Cuba, Porto Rico, and the Virgin Islands, are genetically related to them, and have suffered similar metamorphism. This basal complex forms the axis of the Cordillera Central and makes up a large part of SamanS, Peninsula. (See PL VIII.) The complex includes rocks of many kinds, and a part of it certainly dates from Cretaceous time, but part is probably older. Some of the igneous and pyroclastic rocks that are now included in it are of Tertiary age, for they are intruded into or interbedded with Tertiary sediments. To untangle the intricacies of the basal complex, to map its component parts, and to ascertain the relative ages of the various rocks will require long and intensive work in both field and laboratory — ^work which cannot be done until suitable base maps have been made. COBDILLERA CENTRAL. Along the Bonao trail from Santo Domingo to La Vega the first outcrop of rocks referable to the basal complex is about 5 kilometers north of Los Alcarrizos, where brecciated augite andesite that weathers into spheroidal masses, outlined by rhombohedral joints, is exposed. No other outcrops were noted on this trail before Hatillo was reached. Most of the rock exposed between Hatillo and El Madrigal is schistose serpentine. In the road cuts near Hatillo the serpentine is much sheared and folded, and is metamorphosed into a taleose slate. The rock was probably originally lava and pyroclastic material of intermediate composi- tion. It is cut in places by dikes of fresher and less sheared black rock, which shows a tendency to ophitic texture. Several of the hills between Hatillo and El Madrigal are capped with limonitic boulders and pebbles. Near Rio Jaina there are several exposures of creamy-yellow rock, probably weathered sandstone. In the bed of Rio Jaina at the first crossing there are many boulders of dioritic gneiss, but 50 1^ REPUBLI SERVtd 1, LAM. VIII feJv C 20- IS- IS" .£iiC6.^/lAteuffl!>,-ilAf- U EXPLICACION EXPLANAT/ON ROCAS SEDIMENTARIAS S£D/M£NTA>fY fiOCffS Altivial AUwieJ deposits Coast limestone" calizas de coral en la Hoya. dfi Enriquillo Cbast Ijmestone'corslliferous Jimeatone in ^h^j^ctiJIo Beisin. Formacio'n Las Mataa,cascajosy mar^a. .^a^ JVai:a^ forma.tian. Grave/ and msri. ^ Un2&3tane and carr^ojnerste. Princip>aZinente caliza. Conbiene al^unas rocas Cretaceos- J^acipal^ JUnyestcme. Includes same Cr'etSjceous rocks. ROCAS VULcXncCAS VOLCANIC ROCKS Lavas, ba3aQ.tica£ ROCAS METAM^RFICAS METAMORPHiC ROCKS Rocaa metaxnarftcas de origines ambos sedimentariasy igneas. Cbntiene algunas rocoLS vulc^nicas lertnarias- ^asal caznplex. J^tamozyahosed tvcAs 6oth sedimentary and 3gneou:S. Includes some lerHajy voJcsnj'c rooks. ConglomeradO; are7aisca,escjuita.j caliza de coral, sal y yeso. Con^on2ermt9, sandstone, shales xsorallifet^^s Ijjnestane, -s^t and^^psuns. i 5 I 5^ 1 GEOLOGY AND GEOLOGIC HISTORY. 51 the bedrock is green chloritic schist. The profile of some of the mountains far west of this point suggests that they are composed of thick-bedded sediments that dip gently southward. At the second crossing of Rio Jaina, about 12 kilometers upstream from El Madrigal, an outcrop of weathered tuff or similar rock was seen. The gravel in the river here consists of diorite, a crystalline dark igneous rock, and a smaller amount of more siliceous intrusive rock that contains dark inclusions. No pebbles of sedimentary rocks were seen. Arroyo Gua- nanitos at its junction with Rio Jaina flows over hard, tough, and some- what schistose greenish amphibolite, which weathers to a soft, rusty brown rock above river level. Near Sabana Grande the bedrock is gray dioritic gneiss containing much biotite. Between Sabana Grande and Bonao all the rocks are metamorphic. They are mostly micaceous, chloritic, sericitic, and quartzose schists and various metamorphosed intrusives. Between Rio Juan Manuel and Rio Maim on a dark, schistose amphibohte is exposed. The cobbles in Rio Maimon are principally coarse and slightly gneissoid diorite, but the bed- rock is a greenish slate or phyllite, in places cut and altered by dikes. Between Bonao and Jayaco no outcrops of hard rock were noted. The alluvial plains in this region are composed of clay and loam interbedded with gravel, which should be a valuable source of well-water. The gravel in the bed of Rio Jima consists largely of porphyritic andesite but includes some banded slate and basalt. Near the last ford on Rio Jima pebbles of lignite were noted, which were probably derived from a low bluff near by. Loma Miranda, the last mountain crossed on this trail, is composed of sericite schist and schistose serpentine cut by dikes of andesite or basalt, which show little or no schistosity. Outcrops of brilliant red gossan and quartz veins containing numerous leached cavities show the effect of miner- alizing solutions, which probably were associated with the intrusion of the dikes mentioned above. Some prospecting for copper has been carried on in this vicinity, but so far without marked success. Cuts along the new Duarte Highway will afford good fresh exposures of rocks of the basal com- plex. In the bed of Rio Jima near kilometer 96 from Santo Domingo on this road there are boulders of conglomerate that contain pebbles distorted by squeezing. Along the road from La Vega to Cevicos, on a low ridge 2 kilometers west of the crossing of Rio Yuna, fragments of white tuff were noted, and 2 kilometers east of the river there is a higher ridge composed of fine-grained granitic rock associated with tuffs. On the low round hills known as the Cerros de la Travesia, west of Rio Chacuey, there are exposures of light gray or yellowish tuff. The first ridge east of Rio Chacuey contains greenish-gray volcanic rocks. Loma de los Palos is composed of basalt. The tuffs and effusives along the northern foothills of the Cordillera 52 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Central are probably much younger than the schists and serpentines of the basal complex, which are exposed a few kilometers farther south, on the road from Cotuf to Maimdn. Most of the hills in the vicinity of Maim6n are composed of serpentine that appears to be an alteration product of some basic igneous rock. On Loma Pegado, about 4 kilometers southwest of Maim6n, the serpentine has weathered at the surface to a brick-red, highly ferruginous soil similar to the lateritic iron ores of Cuba but too thin, where seen, to be of commercial value. Near the top of Loma Pegado the serpentine is cut by a dike of hornblende diabase. Near the foot of a low mountain southeast of Hatillo there are exposures of granitic gneiss, but the mountain is composed chiefly of chloritic schist, which near the summit of the mouiitain is impregnated with copper ore. Near Hatillo the clay soil contains small boulders of magnetite. A more detailed description of the iron and copper prospects of this region is given on pages 228-231. The Constanza trail crosses slates, schists, tuffs, diorites, and serpentines, which are cut by several kinds of dike rocks. The mountain at Las Minas, northwest of Jarabacoa, consists of schist. El Barrero, south of Jaraba- coa, is composed of serpentine. At Constanza there is greenish basalt tuff cut by dikes of a fine-grained lamprophyre. Rio Lim6n and Rio del Medio, southwest of Constanza, cut through fine-grained red and green rocks and serpentine. A fault block of muscovite-chloritic schist, chloritic schist, calcareous argillite, and diorite-gneiss north of San Jos6 de las Matas is separated from the main body of the basal complex, which is bounded south of the town by conglomerates and limestones, probably all of Oligocene age. At Bulla, Rio Mao emerges from a gorge cut in laminated chloritic schist, which is overlain unconformably by Miocene gravels. Outcrops of schist similar to that near San Jos6 de las Matas were seen also along the headwaters of Rio Gurabo near the point where it is crossed by the trail from Monci6n to Sabaneta. Near the edge of the basal complex south of Sabaneta there are exposures of blue sericite schist or phyllite, more or less gneissoid quartz diorite, and hornblende schist. Associated with the schists, but probably much younger, are lavas, tuffs, and porphyritic intrusions. Most of the trail from Sabaneta to Restauraci6n passes over quartz diorite, which is apparently intruded into schist and quartz diorite gneiss. Over the first 4 or 5 kilometers east of Restauraci6n green volcanic agglomerate and tuff apparently rest with depositional contact upon the quartz diorite. Between Restauraci6n and Joca the geology differs considerably from that farther east. Black basaltic rock, weathering to a serpentine-green in places, local beds of coarse agglomerate, and a few siliceous dikes are exposed over the first 8 or 10 kilometers from Restauraci6n. Beyond this is hard purplish limestone, much jointed and veined and dipping steeply GEOLOGY AND GEOLOGIC HISTORY. 53 northward. On the descent toward La Cruz bedded tuffs, somewhat copper-stained in places, strike N. 35° E. Near La Cruz there is siliceous tuff, which dips steeply southwestward. A few kilometers beyond La Cruz there are tuff and impure limestone, which dip very steeply eastward. About 1 kilometer farther on shale and sandstone stand vertical or dip steeply westward. Similar rock occurs between this point and Joca. Near Guayajayuco there are many minor flexures, but the general strike of the beds is N. 50° W. The rock in the gorge of Rio Guayajayuco where first seen is flaggy blue sandstone. Farther downstream there is a slaty shale, which weathers to gray splintery rock of schistose appearance. The beds strike N. 35° W., and stand vertical or dip eastward at a high angle. The trail passes over greenish shale for several kilometers and then again descends into the river canyon. Here the rock resembles dark-blue veined and sheared slate, in which most of the veins run at right angles to the slaty cleavage. The rock is similar to the blue phylhte on Rio Yaguajal near Sabaneta. Loma Vieja is composed of the same kind of rock. The slaty cleavage on its north slope strikes N. 40° W., approximately at right angles to the bedding. Near the highest point reached on the trail the cleavage strikes N. 50° W. and dips 60° E., but the bedding strikes north and dips 30° W. At a point on the southwest slope the bedding strikes N. 30° W. and dips 70° W. On the lower part of this slope and in the valley of Rio Joca the rock is a bluish quartzitic slate containing thin layers of limestone, which is in part recrystallized into rather coarse-grained marble. SAMANA PENINSULA. Rocks of the basal complex make up the greater part of Saman^ Penin- sula. The rocks seen in place in this area are micaceous schists and schis- tose limestones, but pebbles of pegmatites, felsites, and other igneous rocks included in younger conglomerates probably had their source somewhere on the peninsula. The predominant rock on the south slope of the moun- tains is hard, fairly pure, moderately schistose limestone. Some of the rock on the top of Loma las Canitas at S&nchez is marble. The strike of the schistosity of all the formations in the basal complex is in general east, parallel to the trend of thfe peninsula. CRETACEOUS SYSTEM. Rocks of Cretaceous age are supposed to make up a large part of the basal complex, but they have not been discriminated from formations that may be older. Gabb' collected a few poorly preserved fossils from earthy pebbly limestone at two locaUties on Rio Nigua, probably somewhere between San Crist6bal and Santa Marfa, but he does not give the exact localities. As the species collected by Gabb include such characteristically iQabb, W. M., On the topography and geology of Santo Domingo; Am. Philoa. Soo. Trans., vol. 15, a. B; pp. 86-87, 1873. 54 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Mesozoic molluscs as a Trigonia, an ammonite, and a baculite (?), he un- doubtedly was correct in referring the bed containing them to the Creta- ceous, but it seems very unlikely that all of the great variety of rocks cor- related by Gabb with this fossiliferous limestone are of the same age. Alberti' found Cretaceous fossils near Guayubin. East of the Azua-Bani road at Monte Mamon there are two hills, Cerros los Pinones, the backbone of which is a vertical ledge of limestone, 3 or 4 meters thick, striking N. 10° W. On the east side of the ledge is dark gray shale. Both hills are capped by a nearly horizontal deposit of loosely ce- mented conglomerate having a calcareous matrix ("caliche"). Fora- minifera from one of these hills were examined by Doctor Cushman, who submits the following memorandum regarding them: Station 8612. Very peculiar material. I have not yet been able to make out whether this is Cretaceous or Eocene. If Eocene, these species are different from those of any Eocene known previously in the West Indies. I have no good Cretaceous specimens with which to compare them. If this rock is Cretaceous, as seems probable, much of the shale and limestone exposed along Rio Ocoa below San Jos6 de Ocoa and in Loma el Niimero, which appear to be part of the same formation, is probably of Cretaceous age. Limestone containing indistinct moUusks, fragments of which are scattered along the ascent of Loma de Portezuela on the trail from Azua to San Jos6 de Ocoa about 200 meters above the foot of the mountain, may be part of the same formation. Dense, hard, dark-blue banded, slightly magnesian calcareous argillite, which breaks into rectangular fragments, underKes the Eocene limestone in the front range of the Cordillera Septentrional near Damajagua, north- west of Navarrete. As fragments of this rock are included in the Eocene limestone they must at least be older than upper Eocene. This rock closely resembles certain parts of the Cretaceous formations in Porto Rico and the Virgin Islands and is regarded as of Cretaceous age. Cretaceous rocks were noted at two localities near Gurabo, in the Prov- ince of Monte Cristi. The sedimentary rocks south of the village of Gu- rabo probably abut against the schists in fault contact. The schist is similar to that on Rio Mao above Bulla but is more metamorphosed and finely banded. The following descending sequence of beds, which strike N. 60° W. and dip 75° NE., was crossed in traveling southwest beyond the contact with the schist: (1) reddish-brown shales, sandstone, and dark gray limestone, which contain a network of white calcite seams and poorly preserved fossils (station 10274; for Hst of fossils see p. 55); (2) hmestone conglomerate; (3) amygdaloidal basalt; (4) more limestone. The level valley floor of Arroyo Clavijo, which is about 3 kilometers west of Gurabo and stands about 288 meters above sea level, is composed ' Albert! y Bosch, N., Apuntee para la prehiatoria de Quisqueya, torn. 1, p. 27, La Vega, 1912. GEOLOGY AND GEOLOGIC HISTORY. 55 of coarse conglomerate. A short distance downstream from the trail an outcrop of this conglomerate forms a bluff 20 meters high along the stream. This rock is similar to the basal Miocene conglomerate exposed along Rio Mao at Bulla. At the last crossing of the trail over Arroyo Clavijo there is an outcrop of basalt that shows rude bedding and resembles the basalt interbedded with limestone of Cretaceous age in the hills south of Gurabo. West of this locality similar flows and pyroclastics crop out most of the way to Sabaneta. About 11 kilometers east of Sabaneta (station 10275; list of fossils given below) tuff is interbedded with a thin layer of bluish limestone conglomerate, the pebbles of which contain poorly preserved fossils similar to those found in the limestone south of Gurabo. The fossils collected at stations 10274 and 10275 were submitted to Dr. T. W. Stanton, whose report is as follows : Although most of the small fragments of limestone show sections of fragmentary fossils on weathered sm'faces none of the fossils could be freed from the matrix by the ordinary methods of preparation. It was therefore necessary to depend on the study of sections as shown on weatheied surfaces and on the polished surfaces of eleven selected specimens, which were ground down and polished. Station 10274 (D. C. 68). Limestone about 1..5 kilometers south of Gurabo village near Moncifin: Coral. Undetermined genus. RadioUtes sp. Fragment showing shell structure similar to R. nicholasi Whitfield. Station 10275 (D. C. 69). About 11 kilometeis east of Sabaneta, on telegraph line to Guaraguanca; limestone interbedded with tuff: Coral. Undetermined genus. RadioUtes sp. Fragments with some shell structure as in specimen from station 10274. Caprinula (?) sp. Three fragments of a rudistid with shell structure like that of Caprinula. Gastropod. Section of small, slender shell of undetermined genus. The fragments of RadioUtes and Caprinula (?) give conclusive proof of the Cretaceous age of the rocks in which they are found, and they suggest correlation with the fossil- ifeious Cretaceous rocks of Jamaica, Cuba, and the Viigin Islands. Near Sabaneta there are extensive level plains consisting of sand and gravel that are only shghtly cemented. In some of the ravines there are out- crops of the volcanic tuff above described. A broad bench at an altitude of 225 meters is cut by deep ravines here and there. The rocks exposed in the ravines are coarse sand and conglomerate interbedded with clay shale locally containing Ugnitic bands. , Other outcrops of volcanic rocks similar to those associated with the Cretaceous limestone near Gurabo and probably of the same age were found south of Sabaneta. Similar rocks outcrop about 5 kilometers south of Sabaneta. A short distance to the south are foothills, which rise to an altitude of about 450 meters. The rocks composing them are of several igneous and metamorphic types, but have been so much weathered that 56 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. they could not be classified in the time available. Perfect exposures were seen in the gorge of Rio Yaquejal, which was followed for a distance of sev- eral kilometers. Along the lower part of the gorge there are exposures of dark bluish to serpentine green volcanic rock, similar to the basalt east of Sabaneta, but more indurated and containing coarse veins and much epi- dote. The mass has been greatly broken by minor faulting. Intruded into the volcanic rock are irregular dikes of granitic or dioritic porphyry, at least 5 meters wide. Farther up the river this volcanic rock lies in contact with a blue sericite schist or phyllite, which also is cut by numerous large irregular dikes similar to those that cut the greenish volcanic rock down the river. It is significant that the volcanic rock of serpentine green color cut by the granitic dikes is similar in appearance to the basalt found east of Sabaneta interbedded with fossihferous limestone conglomerate of Cretaceous age. Whether these two rocks are of the same age could probably be determined by carefully tracing the outcrops between the two localities. It would be interesting to learn whether the granitic dikes were formed before or after the Cretaceous limestone conglomerate. TERTIARY SYSTEM. Rocks of Tertiary age occupy probably two-thirds of the area of the Dominican Republic. Lower and perhaps middle Eocene deposits were not seen, but upper Eocene, middle and upper OKgocene, Miocene, and PHocene deposits have been recognized. The names of the Tertiary for- mations and those of some of their supposed equivalents are shown in the following correlation table: GEOLOGY AND GEOLOGIC HISTORY. 57 na.s o S P a.S.S w 3 P5 3 d 03 •a o •4-1 I 8 ■a I ^ i I I '3 o o sh ►a 3 S .■aw a o '3 rt ■1 i bO ."3 .-§ « (S§ 2 -S ^ ^ o S" ■ a te a) g BO ^ 03 el rS atiH (1) (B IS 2 o •a 3 rt a K a I 3 ■S S 0] 03 a- o p.- 3 O 2 -3 ■a 3 -O W •■5 S g 2 •s-S GO n .S « CQ fr^ 03 a oQ "S ■ca'p •jaddQ '3n39o;u ^ d fl o p ffifl « a.s 1 • d o >.S — •2 -3 o Si^ g =0 SS6 _o a ^ ■° 2 ■s a a J .o a •3 3 n pa •dnoi3 onb'Bx •aippipi •auaooij^ •jsaiot; •laddQ -§ H ■®IPPIM *w^oq *3ti3ao3i[0 3 bO c3 fi ja & s rt .a o CJ i 03 •jaddQ •aaaao;^ 58 GEOLOGICAL RECONNAISSANCE OP THE DOMINICAN EEPUBLIC. EOCENE SERIES. The Eocene rocks in the Dominican Republic, though widely distributed, are almost exclusively limestones. Eocene limestone has been recognized on both the north and south slopes of the Cordillera Septentrional, on the south slope of the Sierra de Ocoa, and farther east, near Banf, in the Province of Santo Domingo. Similar Eocene limestone forms a large part of the Sierra de Bahoruco and the Sierra de Neiba, and probably also of the Sierra de Martin Garcia. Patches of limestone along the northern slope of the Cordillera Central are supposed but not proved to be of Eocene age. The relations of the Eocene limestone to the underlying deposits are not definitely known, but limestone of Eocene age overlies deposits apparently of Cretaceous age in the southern scarp of the Cordillera Septentrional near Damajagua, northwest of Navarrete. At Las Lajas, on the Ferrocarril Central Dominicano, between Bajabonico and Altamira, Eocene limestone and sandstone apparently lie directly on sheared greenish hornstone and banded slate of the basal complex. At this locality the rocks of the basal complex are vertical and strike N. 40° W. ; the Eocene beds have the same strike, but dip southward about 60°. Other exposures in the vicinity of Las Lajas show that a conglomerate immediately overlies the rocks of the basal complex. Apparently the limestone and sandstone from which Eocene Foraminifera were collected (see list on p. 105, station 8708) are interbedded with the conglomerate. The only identified fossils that have been obtained from the Eocene of the Dominican RepubHc are Foraminifera, which are listed on pages 105-106. A sufficient number of recognizable species have been identified to establish close correlations with the Eocene deposits of the Republic of Haiti and of the other islands of the West Indies. The thickness of the Eocene limestones in the Dominican RepubHc is unknown. In Haiti, according to T. W. Vaughan, a considerable thickness of Eocene limestone occurs at Cape Haitien and in the mountains between Plaisance and Ennery. Similar limestone composes the main mountain mass from Ennery to Gonaives, thence to Artibonite Valley, and between St. Marc and the north side of the Cul-de-Sac. For this Eocene limestone, as exposed between Plaisance and Ennery, he proposes the name Plaisance limestone. The type exposure is at an altitude of 705 meters up the mountain from Plaisance toward Ennery. Typical fossils are Ortho- phragmina, Conulites, and other Foraminifera. Southeast of Port-au- Prince, on the road to Furcy, W. F. Jones' reports a thickness of at least 8,000 feet (2,438 meters) of limestone which he refers to the Eocene and Oligocene. That any of this great thickness of limestone is younger than 1 Jones, W. F., Jour. Geol., vol. 26, p. 733, 1918. GEOLOGY AND GEOLOGIC HISTOBT. 59 the Eocene has not been proved. The Eocene limestone of the Dominican RepubUc is probably not so thick. On the lower slopes of the front range of the Cordillera Septentrional near Damajagua, in Santiago Province, there is hard light-gray limestone of Eocene age. Some of this rock contains inclusions of hard, brittle, banded calcareous argillite, which breaks with rectangular, smooth faces and was probably derived from the Cretaceous rocks that are believed to underlie the Eocene at this locality. In a fragment of the Eocene limestone picked up loose on the hillside, but evidently not far from place, Doctor Cushman identified the species of Foraminifera listed on page 105 as from station 8721. Rock in place near this locality contains identifiable Fora- minifera, which are listed on page 105 (stations 8725 and 8725a), but they are neither so well preserved nor so abundant as the species at station 8721. Limestone of Eocene age also outcrops at several places near Altamira, in the Province of Puerto Plata. The identifiable Eocene fossils collected in Santiago and Puerto Plata provinces are listed on page 105. Besides the rocks in Puerto Plata Province that have been identified as of Eocene age. Eocene strata probably occur near the city of Puerto Plata. South of Rio San Marcos, along both the railroad and the trail to Baja- bonico, the oldest rock examined in exposures was serpentine, above which is limestone that contains angular fragments of lava. The corals, probably Oligocene, from the north slope of Monte Isabel de Torres (station 8675), listed on page 111, came from a younger geologic formation. The limestone above mentioned would therefore be either of Upper Cretaceous or Eocene age, probably Eocene, but further study is needed before a positive opinion will be warranted. The caves of Las Gui.caras are in thick, massive, dark blue-gray siliceous limestone, so hard that it strikes fire with steel. This limestone forms many steep hills, some of them 100 meters high, in the Sierra Prieta west of Rio Yuna and south of the road from La Vega to Cotuf. (See PI. VII, B.) The rock is so massive that it is difficult to ascertain its strike and dip. At El Comedero, one of the caves, the strike appears to be east, the dip 70° S. Some of these scattered limestone hills appear to be fault blocks. No fossils were obtained from this limestone, but the stratigraphic and structural relations indicate that it is of Eocene age. Blue Umestone similar to that at the caves of Las Guicaras is exposed in a small arroyo crossed by the road from La Vega to Cotuf several kilometers west of Rio Yuna. In the vicinity of Hatillo, a village near Rio Yuna on the road from Cotuf to Piedra Blanca, there are several hills composed of hard limestone, which is in part dark blue and somewhat bituminous and in part cream-white. The rock strikes N. 10° W. and dips 25° to 30° S. At one locality large 60 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. lumps of limestone breccia were found. The limestone hills are probably fault blocks in which the tilting did not produce folds in the limestone. The dip of the limestone, were there no fault, would carry the rock beneath sericite schists of the basal complex. The limestone is more thinly bedded than at the caves in Sierra Prieta but in other respects closely resembles it. Associated with the limestone on a hill west of Hatillo are many loose blocks of magnetite, the source of which has not been discovered. This is the celebrated "Iron Mountain," described in glowing terms by Gabb,i but there is evidently no large deposit of magnetite at this locality. Further remarks on the iron deposits of this region will be found in a paper by R. B. Brinsmade^ and in the report on mineral depbsits near Hatillo and Maimon on pages 228-231 of this volume. Paleontologic evidence of the age of the hmestone in Sierra Prieta and at Hatillo is lacking. The only organisms that were obtained from the rock are massive forms, which appear to be calcareous algae, and these have not yet been critically studied. This limestone is supposed to be of Eocene age because it resembles other Eocene rocks, but it may be older. Specimens of limestone collected by Mr. Condit from the seashore about 8 kilometers south of Barahona (station 8576) contain Foraminifera that are regarded by Doctor Cushman as "very definitely upper Eocene." The same species are found in the upper Eocene of Cuba. Mr. Ross found limestone containing Foraminifera similar to those in the Plaisance lime- stone of Haiti on the southwest slope of Canada de Rancho Viejo, in the Sierra de Bahoruco, south of Rancho Viejo (station 8627), and pebbles of similar limestone occur also in Oligocene or Miocene conglomerate in the vicinity of Rancho Viejo (station 8626). Rubble containing the Foraminifera listed on page 106 (station 8595) was found by Mr. Condit in the Sierra de Neiba about 2.5 kilometers north of Barbacoa. Rocks of Eocene age were identified at several localities in the Province of Azua. These are discussed on pages 199-200, and lists of the iden- tifiable fossils found in them are given on page 106. Along Rio Via above Azua there is massive limestone conglomerate, probably not over 50 feet thick, containing pebbles of greenish rock. Apparently above the conglomerate there is a thicker series of massive blue-gray limestone and alternating thin beds of limestone and shale, fol- lowed, near the top, by a few beds of limestone and shale. This entire formation except the limestone conglomerate is very much sheared and cut by small overthrust faults. A larger fault causes repetition of the greater part of the formation, including the conglomerate. The strike of the f orma- ' Gabb, W. M., On the topography and geology of Santo Domingo: Am Philos. Soo. Trans., vol. 15, n. 8., pp. 141-142, 1873. » Brinsmade, R. B., Iron in Santo Domingo: Min. and Sci. Press, vol. 117, pp. 355-358, 1918. GEOLOGY AND GEOLOGIC HISTORY. 61 tion is variable but is prevailingly northwest. The dip is high, and in most places, except where the beds are overturned, it is toward the northeast. The age of this formation has not been ascertained, but it is manifestly older than the Miocene deposits that adjoin it in fault contact on the south and is probably either Eocene or Oligocene. No fossils were found in it. OLIGOCENE SERIES. Tabeia Formation. The name Tabera formation is here proposed for the strata exposed along Rio Yaque del Norte in the vicinity of Tabera, a village on the east bank of the Yaque about 20 kilometers south of Santiago. The formation con- sists of alternate beds of blue-gray shale, sandstone, massive conglomerate, and some beds of Umestone. It rests with depositional contact upon diorite or epidiorite and is overlain with marked angular unconformity by yellow shell-bearing conglomerate and sand of the Baitoa formation (Miocene). The thickness of the Tabera formation can not now be stated with pre- cision. Probably not less than 300 meters of strata are exposed at Baitoa, and the lower beds, which outcrop farther upstream, are reported by Mr. Condit to be considerably thicker. In the vicinity of Tabera Mr. Condit noted more than 800 meters of shales and conglomerates referable to the Tabera formation, and all these beds lie stratigraphically below the part of the formation exposed at Baitoa. Unless some of the strata exposed are duplicated by faulting, the Tabera formation is probably not less than 1,500 meters thick. The basal beds of the Tabera formation exposed along Rio Yaque near the mouth of Arroyo Milac about 3 kilometers above Tabera consist of about 10 meters of limestone, which grades downward from massive lime- stone into conglomerate containing a few small, well-rounded pebbles of igneous rock but consisting chiefly of angular or rudely rounded cobbles of the dioritic rock upon which it rests. Large specimens of Lepidocyclina are scattered through the calcareous part of the rock but the largest and the most abundant are in the massive beds of limestone. The basal lime- stone and conglomerate aire overlain by a series of thick, dark-green sand- stones and shales containing local beds of conglomerate. This series is considerably sheared and crumpled and is cut by minor faults. About 600 meters above Tabera, on the Yaque, a 6-meter bed of conglomerate apparently grades laterally (southeastward) into limestone containing the Foraminifera Usted on page 107 (station 8671). A double-peaked hogback about 1 kilometer southeast of Baitoa is com- posed of limestone containing Lepidocyclina and corals (station 8672), which appears to be of the same age as the conglomerate on Rio Yaque. The fossils collected from the conglomerate and sandstones of the Tabera formation on Rio Yaque at and below Baitoa are hsted on pages 107-108 (stations 8557 and 8673). 62 GEOLOGICAL BECONNAISSANCE OF THE DOMINICAN BEPXTBLIC. At San Jos6 de las Matas, and extending southward from the town a dis- tance of about 1.5 kilometers, Mr. Condit found steeply inclined reddish conglomerate interbedded with shaly layers. The strike of the beds is N. 60° W. In the south bank of Arroyo Hondo at San Jose de las Matas there is an outcrop of gray semicrystalline limestone. Ferruginous con- glomerate similar to that at San Jos6 de las Matas is exposed at a waterfall on Rio Inoa about 3 kilometers farther west and not far below the mouth of Arroyo Hondo. At thte confluence of Rio Inoa and Rio Amina, about 3 kilometers below the waterfall, conglomerate and dark shaly sandstone dip westward at an angle of 20° to 40°. Mingled with igneous pebbles in the calcareous cement of the conglomerate are small lumps of limestone con- taining corals and orbitoidal Foraminifera. Some of the Foraminifera (Lepidocyclina sp.) are curved and are more than 25 millimeters in diameter. They lie between the pebbles of coarse conglomerate. On the basis of these Foraminifera the rock is correlated with the Tabera formation. The beds of the Tabera formation in the vicinity of San 3os6 de las Matas abut against gneissic igneous rocks to the south; to the north they are separated from the sediments of the Yaque group by a strip of sericite schist, perhaps 1.5 or 2 kilometers wide. The presence of these conglomerates and shales in the midst of the basal complex is doubtless due to faulting. Nearly a kilometer down the valley of Rio Gurabo from the village of Gurabo are outcrops of sedimentary rocks that are believed to be, in part at least, of Oligocene age. The schist here is overlain by a basal conglom- erate, or rather a ferruginous breccia, made up almost entirely of fragments derived from the adjacent schists. The fragments are angular and poorly assorted but show distinct stratification. This deposit grades upward into a fine-grained conglomerate that has a limestone matrix containing Foram- inifera. A little higher stratigraphically there are beds of massive lime- stone rich in corals and Foraminifera. This series of conglomerates and limestones dips northeastward at an angle of about 15°. Unconformably beneath these gently dipping strata are nonfossiliferous, coarse-grained, bluish sandstone and dark conglomerate, which dip northwestward at a steep angle. The conglomerate of the lower series appears to contain no fragments from the adj acent schists. The deposits above the unconformity are not greatly indurated, and lithologically the finer-grained beds resemble some of those in the Tabera formation. Unfortunately the fossils col- lected in the upper limestone strata were lost in transit, so that the age can not be confirmed, but in the field the fossils were believed to be probably Oligocene. The beds below the unconformity are probably Cretaceous or Eocene. Besides the deposits above described and referred to the Tabera forma- tion, limestone containing similar fossils was found at several places in the northern part of the Republic — at El Lim6n, on the trail from Santiago GEOLOGY AND GEOLOGIC HISTORY. 63 to Altamira (station 8713); at Yaroa village, about 17 kilometers north of Pena (station 8719) ; at Las Cacaos, north of Pena, near the head of Rio Licey (station 8740); on Las Lavas Creek, above Las Lagunas, on the Santiago-Altamira trail (station 8704); and probably at Las Lagunas (station 8703). Lists of the fossils from these localities are given on pages 107, 108, 111. In the Province of Puerto Plata deposits of probably OUgocene age were found on the north slope of Monte Isabel de Torres at an altitude of about 320 meters (station 8675). The fossils collected at this locality are listed on page 111. They resemble in their stratigraphic affinities the fauna of the Tabera formation. Limestone containing fossils of middle Oligocene age was found on the south side, in the Province of Azua, at at least five localities. The |precise localities for the fossils and their names are given on pages 108-109. At the east end of the Sierra de Neiba limestone containing Foraminifera that are probably of Oligocene age was collected on the right bank of Rio Yaque del Sur opposite Bastia, about 1.6 kilometers northwest of La Trinchera. The Foraminifera are listed on page 112 (station 8569). Cevicos Limestone. The name Cevicos limestone is taken from the village of Cevicos, near the east end of the Province of La Vega. The formation has been ex- plored only along the trails leading from CotuI eastward to Cevicos and from Cevicos northward to Villa Rivas. On the trail from Cotul the forma- tion was first seen in Arroyo Blanco, at the eastern foot of Loma de los PaloSj.from which it extends, most of the way under cover, to Cevicos. It was traced several kilometers north of Cevicos but disappears beneath a thick reef -coral limestone, sut>posed to be of Miocene age, which forms the rugged plateau bordering the Vega Real. (See page 30). The Cevicos limestone is yellow or cream-colored, more or less argilla- ceous, and in places nodular. It contains many fossils, but few of them are sufficiently well preserved to be identified. A species of Orthaulax (0. aguadillensis) is abundant at Arroyo Blanco but was not seen elsewhere. This species, as well as two echinoids, Clypeaster concavus Cotteau and Brissopsis antillarum Cotteau, correlates the Cevicos limestone closely with the fauna of the Anguilla formation of Anguilla, which, according to current American usage, is considered uppermost Ohgocene. Although it is here classified as Oligocene, the Cevicos hmestone as well as the Anguilla formation of Anguilla and the Emperador limestone of Panama, with which it is tentatively correlated, may ultimately be referred to the lower Miocene. The coral faunas of these formations, according to Vaughan, are in some respects similar to Miocene faunas and can be sepa- rated from them only with difficulty. In its lithology and structure also the Cevicos limestone resembles the formations of the Yaque group much 64 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN EEPUBLIC. more closely than it resembles the Tabera formation. Its softness and lack of alteration and its comparatively slight deformation suggest an age considerably later than that of the Tabera formation. The relations of the Cevicos limestone to the basalt that forms the Loma de los Palos have not been ascertained, but it seems probable that the limestone is younger and was deposited upon thie basalt. Wherever beds of limestone have been observed they are very nearly horizontal, although they probably slope gently northward or northeastward. The massive reef-limestone that covers the Cevicos Umestone to the north is evidently younger, but whether the reef was deposited conformably upon the Cevicos limestone or whether there is a stratigraphic break between was not determined. In the bank of Arroyo Blanco outcrops of creamy yellow limestone, nodular on weathered surfaces, extend 12 to 15 meters above water level. The bedding is indistinct but appears to be nearly horizontal. Softer and more argillaceous nodular limestone is exposed at about the same altitude in the banks of Arroyo la Mora about 1.5 kilometers east of Arroyo Blanco. This bed contains numerous casts of moUusks, including species of Area, Cardium, and several venerids. The only fossils collected in which the shell substance is preserved are a species of Ostrea and a crushed specimen of Brissopsis antillarum Cotteau. Yellow nodular limestone containing mollusks, corals, and Foraminifera is exposed to a thickness of less than 2 meters on the east side of Arroyo Barranca, the first arroyo northeast of Cevicos on the road to Villa Rivas. It is overlain by 12 to 15 meters of yellow loam. Similar rock containing a Pecten, apparently a variety of Pecten vaun Cooke, and other fossils was found on both sides of a stream supposed to be Arroyo Jerguen. The fossils from all these localities are listed on page 110. Either the Cevicos Umestone or formations similar to it extend eastward for a considerable distance. According to Mr. Ross the south shore of SamanS, Bay as far east as San Lorenzo Bay is made up of massive pink to white cavernous limestone similar in general appearance to the coral-bear- ing limestone overlying the Cevicos limestone and perhaps identical with it. This rock forms a level plateau like that south of Villa Rivas and probably about as high. According to Gabb^ the summit of Loma de los Muertos, 10 kilometers south of Sabana de la Mar, is capped with thick horizontal beds of limestone similar to that near Cevicos. In the southern part of the island limestone containing corals of upper Ohgocene facies is exposed in the slopes and foothills of Monte Calabaza near San Crist6bal and at a place 24 kilometers from Santo Domingo City on the road to San Crist6bal. Precise data on the localities and lists of the fossils are given on page 112. ^Gabb, W. M., On the topography and geology of Santo Domingo: Am. Philos. Soo. Trans., vol. 15 u. o., p. 148, 1873. GEOLOGY AND GEOLOGIC HISTOBY. 65 MIOCENE SERIES. Yaque Group. PEBVIOU8 STUDIES. The Miocene formations of the Cibao Valley have been studied in greater detail and by more investigators who have published the results of their work than any other strata in the Dominican Republic. T. S. Heneken^ described the geology of part of this region in 1853, but his conception of the geology contains many errors. The collections of fossils procured by him were studied by British paleontologists, ^ whose descriptions give the first account of the Miocene fauna of the island. Gabb' criticized scathingly the work of Heneken, but his own interpretation of the geology leaves much to be desired. Dr. Carlotta J. Maury^ and her associates in the expedition to the Yaque Valley in 1916 brought back large collections of fossils, by means of which she discriminated two faunal zones, the Sconsia laevigata zone and the Aphera isladolonis zone, to which she later* applied the names Gurabo formation and Cercado formation, respectively. STTBDIVISIONS. The work of the expedition of 1919 increased the number of formations discriminated in the Miocene of the valley of Rio Yaque del Norte from two to six, of which the lower two are regarded as approximately contempo- raneous. The names apphed to these formations are the following: Mao clay. Mao Adentro limestone. Gurabo formation. Cercado formation. Baitop, formation. Bulla conglomerate. For the six formations of Miocene age in the valley of Rio Yaque del Norte and its tributaries the name Yaque group is here proposed. This name is peculiarly appropriate, because the equivalent strata on the south side of the Cordillera Central are best exposed along Rio Yaque del Sur. The formations of the Yaque group in the area south of the Cordillera Central have not been named, although five divisions that are probably worthy of formational rank have been discriminated by Condit and Ross. The generalized section of the Yaque group in the vicinity of Quita Cora^a is described by Condit and Ross as follows: 1 Heneken, T. S., On some Tertiary deposits in Santo Domingo, with notes on the fossil shells by J. C . Moore and on the fossil corals by W. Lonsdale: Geol. Soc. London Quart. Jour., vol. 9, pp. 115-134, 1853. 2 Duncan, P. M., On the fossil corals (Madreporaria) of the West Indian Islands: Geol. Soc. London Quart. Jour., vol. 19, pp. 406-458, Pis. XIII-XVI, 1863; idem, vol. 20, pp. 20-24; 358-374, Pis. II-V, 1864; idem, vol. 24, pp. 9-33, Pis. I, II, 1867. Sowerby, G. B., Descriptions of new species of fossil shells found by T. S. Heneken: Geol Soc. London Quart. Jour., vol. 6, pp. 44-53, 1849. 2 Gabb., W. M., On the topography and geology of Santo Domingo: Am. Philos. Soc. Trans., vol. 15 u. s., p. 95, 1873. » Maury, C. J., Santo Domingo type sections and fossils: Bull. Am. Faleout., vol. 5, Nos. 29, 30, 1917. ' Maury, C. J., Science, new ser., vol. 50, p. 591, 1919. 66 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Section of Yague group (Miocene) near Quita Coraza. Thickness in meters. 5. Sandstone, coarse to conglomeratic, with shaly beds in the lower part; tight olive to gray. Large Areas and other fossils plentiful in the lower beds 600 4. Clay-limestone member; calcareous, containing branching corals and layers of limestone filled with fossils (station 8590) 200 3. Sandstone, conglomeratic _ 100 2. Shale, bluish with thin sandstone laminae; no fossils seen 400 1. Sandstone and conglomerate, bluish sandy shale, and thin, nonpersistent beds of limestone; some of the beds contain a few fossils, chiefly fragments of branching coials and oysters 1500 (?) Lists of fossils collected from the Yaque group on the south side of the CordiUera Central are given on pages 155-162. BAITOA POHMATION. The Baitoa formation is named from a village on Rio Yaque del Norte on the road from Santiago to Jarabacoa. The formation at the type locality is a conglomeratic sandy marl containing an abundance of fossil shells. It rests with marked angular unconformity upon the upturned and beveled edges of the Tabera formation. Its upper limit has not been as- certained, but it is probably conformable with the Cercado formation. At Baitoa it dips gently northward. It is exposed in the bluff at Baitoa for a thickness of probably about 30 meters, but it may be considerably thicker. The formation is best exposed in the high, horseshoe-shaped bluff on the right bank of Rio Yaque just below Baitoa, where it forms a nearly vertical cliff at the top of a very steep slope composed of blue-gray shales, sand- stones, and conglomerates of the Tabera formation. The older formation is steeply tilted 40° toward the northeast and strikes N. 40° W. Upon the truncated edges of the dark strata of the Tabera formation lie the gently sloping, rusty-yellow conglomeratic sand and marl of the Baitoa formation. Even from a distance the contact is clearly visible, for the contrast between the formations is striking. The vertical climb of nearly 50 meters from Rio Yaque to the base of the Baitoa formation is difficult, and in many places it is impossible. The formation is more conveniently examined along the trail leading from Baitoa to Santiago, which passes up the hill and along the edge of the cliff, but the exposures here are poor and the fossils are not so abundant. The fossils named in the hsts given on pages 113-114 were collected from the Baitoa formation. BULLA CONGLOMERATE. The BuUa conglomerate, which is named from a village on the west side of Rio Mao near the crossing of the trail from San Jos4 de las Matas to Monci6n, rests with depositional contact upon schistose sediments of the DOMINICAN REPUBLIC Geological Survey Memoirs, Vol. I, Pl. IX 87S5' Cercado Blufri oFMavry- S/ufir 3 ofMaury- N oFMai/pr •ne nxAs I 2. 3 4- S KILOME.TELRS SKETCH MAP OF PART OF RIO MAO SHOWING POSITIONS OF STATIONS AT WHICH COLLECTIONS OF FOSSILS WERE MADE. GEOLOGY AND GEOLOGIC HISTORY. 67 basal complex and is apparently conformable with the overlying Cercado formation. It is probably of nearly the same age as the Baitoa formation. The Bulla conglomerate is exposed from the entrance to the gorge of Rio Mao at Bulla downstream nearly to Hato Viejo, but its lateral extent has not been traced. The gorge of Rio Mao at Bulla is cut in greatly folded and highly meta- morphosed schistose shale (see PI. VII, C), upon which rest coarse cobbles of the Bulla conglomerate. On the left bank of Rio Mao, at the lower ford at Bulla (see PI. IX), the Bulla conglomerate forms a bluff that extends below water level. The conglomerate contains greatly decayed boulders of many kinds of igneous and metamorphic rocks, some of them more than 30 centimeters long, which are not definitely sorted. The first bare bluff on the east side of Rio Mao below Bulla on the trail to Hato Viejo is about 50 meters high and is separated from the river by a broad flat. The bluff is composed of beds of coarse conglomerate ranging in thickness from 30 centimeters to 3 meters or more, interbedded with layers of sand from 30 centimeters to 2.5 meters thick. The conglomerate contains poorly sorted pebbles and subangular boulders of diorite, horn- stone, schist, and other rocks of the basal complex, ranging from about 1 centimeter to 30 centimeters in diameter. The upper, more sandy part, which appears to mark the transition to the Cercado formation, contains a few poorly preserved mollusks (station 8529; for list see pp. 116-124). The inter-fingering of sandstone and conglomerate is shown in Plate X. The strata in this bluff dip northward at an angle of 8°. The thickness of the Bulla conglomerate is about 120 meters. CERCADO rORMATION'. The name Cercado formation has been applied by Maury' to the fine blue or gray silty sand exposed in a long double bluff (Bluff 3 of Maury; see PL VIII and PI. XII, A) on the west side of Rio Mao 5 to 7 kilometers south of the village of Cercado de Mao, just above Paso del Perro and opposite Hato Viejo. The strata which are exposed in bluffs at and near the village of Cercado and for which the name Cercado would be more appropriate are younger than the Cercado formation and are included in the Gurabo formation. The height of the bluff at the type locaHty ranges from about 18 meters at its lower end to perhaps 75 meters. It is cut through about 1 kilometer above the ford by an arroyo. The cliff is nearly vertical, but at its base there are several massive rounded ledges. The lower 6 meters of the bluff consist of bluish sandy shell-marl that includes some layers composed prin- cipally of Foraminifera of the genus Amphistegina. These little shells are so abundant that the beds containing them resemble coarse sand. 1 Maury, C. J.. Scienee, n. ser., vol. 50, p. 591, 1919. 68 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN REPUBLIC. Pockets in the blue marl contain a great profusion of mollusks. Aphera islacolonis is regarded by Maury as characteristic of the Cercado formation. The fossils that have been identified in the collections from the type locality of the Cercado formation (station 8525) are listed on pages 115-126. According to information received from Maury, her Bluff No. 2 is the low bluff on the left side of the river between Paso del Perro and Paso Chorrera (station 8526; see sketch map, PL IX). The following is a sec- tion by T. W. Vaughan of the exposure there: Section at station 8BS6, on Rio Mao. MeterB. Gravel, sand, and silt of a stream terrace deposit, unconformable on the miderlying Miocene 3 to 6 Miocene (Cercado formation): 1. Bluish fine silty sand, mostly fine-grained, with pockets and layers containing many mollusks as well as Foraminifera, which are in places so abundant as to produce a forami- niferal sandstone. The individual beds range in thick- ness from 0.3 to 1.5 meters and include hard layers 6 to 9 Total thickness of exposure _ 12 The beds dip northward at an angle of 4°. A list of the few fossils col- lected in the lower bed at this locality is given on pages 115-126. The Cercado formation is exposed on Rio Cana at the ford of the trail from Las Caobas to Sabaneta, near the villages of Cana (east bank) and Caimito (west bank) . The section below is given by T. W. Vaughan : Section on Bio Cana at crossing of road from Las Caobas to Sabaneta. Soil and river gravel at top. Miocene (Cercado formation): Meters. 6. Sand, yellowish on weathered surface 2.1 5. Conglomerate and coarse sand 1.5 4. Greenish sandstone, some large grains as much as 6 mm. in diameter; a seam of pebbles 4.9 3. Bed of small pebbles; pebbles mostly less than 25 mm. long 0.3 2. Bluish sands; some pebbles. The sandstone weathers to yellowish sands. Contains many fossils in pockets 6 . 3 1. Dark-bluish sands, compact and somewhat indurated, interbedded with conglomera+e. The lowest 1 meter is mostly sand with a little clay, and it contains a pebble seam a few centimeters thick. This is over- lain by a pebble bed about 1.3 m. thick. The pebbles range in length from 3 to 15 centimeters. The edges of most of them are rounded, but many are sub- angular. Composed of igneous rock, laminated hornstone, etc 3.7 From bed 2 a considerable number of fossils were collected (station 8534; for list see pp. 115-124). DOMINICAN REPUBLIC Geological Survey Memoirs, Vol. I, Pl. X BULLA CONGLOMERATE INTERBEDDED WITH FOSSILIFEROUS SAND NORTHEAST OF BULLA, AT EAST EDGE OP FLAT OF RIO MAO. GEOLOGY AND GEOLOGIC HISTORY. 69 At an altitude of 53 meters (by barometer) above the river a bed of large Teredo tubes similar to Teredo incrassatus (Gabb) was crossed on the east side of Rio Cana. This bed may correspond to that noted by Maury* on the river 3 kilometers below Caimito. The section above described corresponds to Maury's Zone H.^ Mol- lusks characteristic of the Cercado formation were also collected by the Maury expedition farther upstream, at a locality apparently about 3 kilo- meters above the crossing of the road from Las Caobas to Sabaneta. This locality is Maury's Zone I.^ The Cercado formation is exposed on Rio Gurabo between Rio Mao and Rio Cana, about 8.5 kilometers above Gurabo Adentro (see PL XI, stations 8737, 8738, 8739). The fossils from these localities are listed on pages 115-124, 127-129. The Cercado formation has been recognized as far eastward as Rio Albano (station 8729), near San Jos6 de las Matas, where a characteristic faunule, which is listed on pages 116-124, was collected. GUBABO FORMATION. The type locality of the Gurabo formation is on Rio Gurabo from "Zone A" to "Zone F," inclusive, of Maury,* near Los Quemados. As the de- scriptions of localities given by Doctor Maury are obscure it is rather difficult to identify some of the places she mentions. Apparently the lo- cality to which she attached the name "Los Quemados" is the last crossing of Rio Gurabo on the trail from Gurabo Adentro to Los Quemados, about 3 kilometers west of Los Quemados. (See PI. XI.) The exposures on Rio Gurabo are described by her in the section below. The lettered ' 'zones' ' are the successive bluffs met on ascending the river. Section at Los Quemados. Concealed by vegetation and unexplored. Feet. Limestone with poorly preserved corals. Approximate thickness 50 Zone A. Hard light-blue clays forming vertical cliffs, slightly concave near the base. The clays weather yellowish white. Fossils rare or absent in the upper part of the bluffs; abundant below. Fauna chiefly Gastropods. A few pelecypods, such as Venericardia and Echinochama. Approximately 300 Zone B. Hard blue clays, blocky, not well stratified, weathering grayish. Fossils abundant. Thickness about 50 Zone C. Alternating clays and hmestones, with a rather heavy bed of the latter above. Fossils very scarce; Cassis suleifera. Thickness approximately 10 Zone D. Hard blue calcareous clays. Corals. Cerithium abundant. About 15 Zone E. Blue uniform clays with Cerithium, Phos, Cypraea. Ap- proximately 20 1 Maury, C. J., Am. Paleont. Bull., vol. 5, p. 441, 1917. 2 Maury, op. cit. 8 Maury, op. cit., p. 442. < Maury, C. J., Science, new ser., vol. 50, p. 591, 1919; Am. Paleont. BuU., vol. 5, p. 434, 1917. 70 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Zone F. Hard greenish clays with concretions. Corals, Cassis, Zenophora. Approximately 20 Zone G. Two miles above Los Quemados. Hard grayish-green clays with sandy layers and limonitic nodules. Strata in general unfos- siliferous, but lenses very rich in fossils occur. Amauropsis. Few species in common with the preceding zones. Exposed thickness 10 feet; estimated total thickness at least 50 The Gurabo formation is exposed along Rio Gurabo from near the north end of the stretch of the river shown on Plate XI to a point several kilo- meters above the south end of the stretch shown on the map. For much of this distance the river winds through a narrow gorge cut in the silt- stone of the Gurabo formation. The gorge is narrowest and virtually con- tinuous along the upper reaches of the river. In many places great blocks of (^ralliferous Mao Adentro limestone have tumbled down from the top of the cliffs and cover the Gurabo formation. On Rio Gurabo the top of the Gurabo formation is exposed at the bluff marked "U" (station 8556) on Plate XI, about 3 kilometers south of Gurabo Adentro. The following section at bluff "U" was measured by Mr. Condit: Section at bluff "U," Rio Gurabo, about 3 kilometers below Gurabo Adentro. Top of Gurabo formation. Meters. 4. Calcareous silt . 9 3. Calcareous silt containing many branching corals 0.36 2. FossUiferous calcareous silt 1.3 1. Conglomerate consisting chiefly of pebbles of igneous rock less than 75 mm. in diameter 0.46 The strike of the beds at bluff "U" is N. 60° W., and the dip is 15° NE. The strata exposed along Rio Gurabo consist chiefly of beds of fine- grained siltstone. They include a few beds of rather coarse sandstone and some conglomeratic layers, but conglomerate is rare. The prevailing color is Ught brownish-green, but weathered surfaces are light brown or yellow. The silt in most of the beds is so fine as scarcely to feel gritty when rubbed between the fingers. All the beds are calcareous and some contain cal- careous concretions. Several beds of limestone are intercalated between the silts. Many of the beds of both siltstone and limestone are rich in fossils, but in some beds fossils are scarce or lacking. The pebbles of the conglomerates are of metamorphic rocks, principally igneous, and in part fine-grained and porphyritic. The siltstone contains many glistening particles of a micaceous mineral resembling chlorite. Mollusks are less numerous in the Gurabo than in the underlying Cercado formation. Sconsia laevigata is common and appears to be restricted to the Gurabo formation. Corals, both in number of species and in abundance of individuals, are more numerous than in the Cercado formation but less numerous than in the Mao Adentro limestone. Some of the reef-forming corals in the upper ledges of the Gurabo formation are very large ; specimens GEOLOGY AND GEOLOGIC HISTORY. 71 of Goniopora, Orbicella, and Siderastraea nearly 1 meter in diameter are not rare. The species of fossils that have been identified in collections from the Gurabo formation along Rio Gurabo are hsted on pages 133-147. The locations of the stations at which they were taken are shown by num- bers corresponding to those on Plate XI. The Gm-abo formation appears to be conformable with the under- lying Cercado formation. As the lower part of the Mao Adentro limestone, which overlies the Gurabo formation, contains local deposits of con- glomerate, it seems probable that crustal movements were going on at the close of Gurabo time, but deposition appears to have been continuous. Along Rio Mao the Gurabo formation is exposed in every bluff from a point about 5 kilometers south of Cercado de Mao to the first bluff above Mao Adentro, about 3 kilometers north of Cercado de Mao. (See PL IX.) The beds are of the same Hthologic character here as on Rio Gurabo, and they contain the same fauna. The formation dips generally northward at a low angle, probably in most places less than 5°. The following section was measured in the first bluff on the east bank of Rio Mao above the ford known as Paso la Chorrera: Section on right hank Rio Mao above Paso la Chorrera. Miocene (Yaque "group) : Meters. Gurabo formation: 6. Inaccessible. 5. Yellowish calcareous sand and hard nodular lime- stone containing Placocyathus and casts of moUusks 3 4. Concealed. About 9 3. Fine, friable yellowish sand; when fresh probably like the imderlying beds. About _..32 Cercado formation: 2. Compact, fine-grained calcareous sand, with ledges of nodular hmestone. Contains a bed rich in shells, overlain by a layer consisting chiefly of Foraminifera which, where locally indiu'ated, resembles a coarse sandstone. Station 8522 4.5 1. Compact, fine-grained calcareous sand with ledges of nodular hmestone. Contains mollusks, corals, and imperfect plant remains. Certain layers contain great numbers of small Foraminifera. Station 8521 4.5 The first bluff below Paso la Chorrera (see PI. XII, B), which is also the first bluff on the west side of Rio Mao above Cercado de Mao, furnishes a good section of the Gurabo formation. This bluff, which is called "Bluff 1 Cercado" by Maury,' is one of the locahties she cites" as typical of the Gurabo formation. The lower bed of this section contains the fauna of the "Sconsia laevigata zone." 1 Maury, C. J., Am. Paleont. Bull., vol. 5, pp. 425-427, 1917. sMaury, C. J., Science, new ser., vol. 50, p. 691, 1919. 72 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Section on left bank of Rio Mao 1 kilometer above the ford at Cercado de Mao. Pleistocene: Metera. 4. Thin cover of river gravel, thickness variable. Miocene (Gurabo formation): 3. Soft yellowish fine silty marl containing Placocyathus, Amu- sium, and Amphistegina. Contains a few harder nodular ledges, especially in the lower part. Forms a vertical or overhanging bluff 12 . 2 2. Thin-bedded hard yellowish Kmestone. Some ledges are platy. Collection of corals. Station 8520 9.1 1. Massive soft calcareous sand with a few locally indurated nodular ledges. Contains many moUusks and corals, especially in the lower part. "Sconsia laevigata zone." Station 8519 27 . 4 The bluff on the right bank of Rio Mao opposite Cercado de Mao, about 1 kilometer below Paso Bajito, the ford of the road to Potrero, shows about 12 meters of blue clay, light gray when dry, stained yellow with iron in places. This bed (station 8527), which contains many fossil corals, is the stratigraphic equivalent of bed 3 of the preceding section. This bed dips a few degrees east of north at an angle of about 4°. The fossiliferous bed is overlain by about 3 meters of gravel. Very nearly the same horizon is represented in the two bluffs on the left bank of Rio Mao between Cercado de Mao and Mao Adentro (stations 8528 and 8734). The lowermost of these, which is about 25 meters high and is capped with gravel, is composed of bluish silty clay, bluish silt, and sand. The dip averages 7°, nearly due north. Plate XIII, A, is a view of the bluff at station 8528. The entire thickness of the Gurabo formation is probably comprised within the interval between the top of the ridge south of Cercado de Mao, which is capped by the Mao Adentro limestone, and the river at its foot. According to a barometric reading the altitude of this ridge above the river is about 230 meters. The thickness of the Gurabo formation on Rio Mao is probably about 200 meters. Excellent exposures of the Gurabo formation were noted on Rio Guana- juma at the crossing of the trail from Potrero to Cercado de Mao. The formation here has the same lithologic character and faunal content as on Rio Mao and Rio Amina. Large collections of fossils were obtained from the Gurabo formation at Potrero, on Rio Amina (station 8516). The principal collection was made from a 15-meter bed of bluish silt overlain by river terrace gravel deposits, which are exposed in the right bank of the river from a point just above the ford at Potrero for about 300 meters upstream. The dip of the Gurabo formation in this bluff is about 6° toward the north. DOMINICAN REPUBUC Geological Survey Memoirs, Vol. I, Pl. XII A. CERCADO FORMATION ON RIO MAO OPPOSITE HATO VIEJO; STATION 8625. B. GURABO FORMATION ON RIO MAO JUST ABOVE EL PASO BAJITO; STATIONS S519, 8620 GEOLOGY AND GEOLOGIC HISTORY. 73 A cut near Canela, 15 kilometers from Santiago, on a road from Santiago to Sabaneta, exposes soft greenish-gray shale, sandstone, and a little nodular limestone containing many fossils (station 8726). The Gurabo formation is exposed also at many other places in the valley of Rio Yaque del Norte, especially in the vicinity of Santiago. Lists of fossils obtained from the formation are given on pages 130-151. MAO ADENTBO LIMESTONE. The Mao Adentro hmestone is typically exposed in the bluff on the right (east) bank of Rio Mao opposite the village of Mao Adentro. The follow- ing section is given by T. W. Vaughan: Section on Rio Mao opposite Mao Adentro. Miocene (Mao Adentro limestone) : Meters. 2. Conglomeratic limestone interbedded with bluish shale; about five limestone ledges and five shale beds within 8 meters. The Umestone is a mat of corals, among which branching forms are predominant. Station 8532. Total exposed thickness in cliff face about 21 1. Laminated sand and silts, originally bluish, oxidized yellowish or brown. The sand is medium to coarse with a few small pebbles 1.5 to 3 mm. long. There are interbedded thin laminated beds of moie argillaceous material, which is well and rather evenly stratified in layers from 6 mm. to 15 cm. thick. Station 8533. A few fossil corals 3.8 The beds dip 8° N. 60° W. and strike N. 30° E. The Mao Adentro limestone forms the hogback ridge at Mao Adentro and caps the ridge south of Cercado de Mao. The top of the Samba Hills is probably formed of this rock. A view of the ridge on the east side of Rio Mao is shown in Plate XIII, B. An exposure on Arroyo las Lavas at the crossing of the highway from Santiago to Monte Cristi, several kilometers southeast of Navarrete, seems to represent the Mao Adentro limestone. The strike of the beds in the arroyo agrees with the aUgmnent of the mountain front of the Cordillera Septentrional (about N. 70° W.), and the apparent dip is about 80° N., toward the mountains, but the beds are really overturned. This deforma- tion is doubtless the result of the fault that separates the Miocene deposits of the Yaque Valley from the Eocene and Cretaceous rocks adjacent to them in the front of the Cordillera Septentrional. The material in the ex- posure on Arroyo las Lavas is a mass of corals, chiefly of branching forms, in a matrix of soft yellowish argillaceous marl. Associated with the corals are a few moUusks. The species collected at this locality (station 8663) are listed on pages 152 153. The Mao Adentro hmestone caps a hill about 3 kilometers northeast of Santiago, at the locality known as Gurabo Hills (stations 8723 and 8724). The harder parts of this limestone are quarried by the Department of 74 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Obras Pdblicas for road metal. The rock is yellowish, soft, somewhat argil- laceous coralliferous limestone, in which are lumps of harder limestone composed largely of corals and other fossils. The harder lumps are used as road metal and the soft matrix is discarded. The rock is exposed in numer- ous test pits scattered over the hills. In a quarry where a face over 30 meters wide is exposed a good section of the formation was observed. Here the lumps suitable for road metal occur in a bed about 3 meters thick that strikes approximately N. 30° E. and dips 15° N. This bed of harder material is underlain by calcareous clay, which is about 6 meters thick and contains a few small, hard lumps. Below the calcareous clay is an equal thickness of bedded sand, which has been disturbed by a small fault. The sand contains a few small coral lumps in the upper part and a few thin beds, about 5 centimeters thick, of hard, impure limestone in the lower part. The Mao Adentro limestone is an important formation in the valley of Rio Yaque del Norte, for it seems to form the summits of most of the promi- nent hogback ridges there. Besides the ridges already mentioned there is Sierra del Viento, which is north of Rio Yaque and east of Rio Amina. This ridge is capped by a hard coralliferous limestone, which is undeilain by an argillaceous or arenaceous deposit containing great numbers of branching corals. The beds in which branching corals are so numerous are ten- tatively considered a part of the Gurabo formation. As the Gurabo formation appears to grade into the Mao Adentro lime- stone, notwithstanding the presence of beds of gravel near their contact and evidence of crustal disturbance in the area whence the gravels were derived, it was not practicable to decide with certainty as to which of the two formations some exposures should be referred. The Mao Adentro limestone probably possesses a peculiarity that will need to be considered in f uttu-e field work. It is composed largely of corals, and in places it seems to be true coral-reef rock. Living coral reefs form broken ridges or chains or discontinuous patches of limestone, between and on the sides of which are contemporaneous sediments of different character. It is highly probable that the Mao Adentro limestone never formed a continuous rock sheet throughout its extent, but that it was composed of broken ridges and patches similar to the coral reefs of modern times. The relations of this limestone to older, contemporaneous, and younger deposits offer puzzling problems that can be solved only by detailed field studies. The fossils obtained in the Mao Adentro limestone are listed on pages 152-153. MAO CLAY. The Mao clay overlies the Mao Adentro limestone and forms the top- most division that has thus far been discriminated in the Yaque group. It is exposed in a bluff on the west side of Rio Mao 2 or 3 kilometers south of the town of Valverde (old name Mao) . The sediment exposed in this blufiE DOMINICAN REPUBLIC Geological Survey Memoihs, Vol. I, Pl. XIII A. GURABO FORMATION ON RIO MAO BELOW CERCADO DE MAO; STATION 8628. a ■w B. RIO MAO SEEN FROM TOP OF BLUFF ABOVE EL PASO BAJITO. GEOLOGY AND GEOLOGIC HISTORY. 75 is blue clay-shale or siltstone resembling that so common in the lower for- mations of the Yaque group, especially in the Cercado formation, but is finer-grained and contains only a few fossils. The thickness of the Mao clay is unknown but is probably not less than 150 meters and may be con- siderably more. The type exposure is at station 8530 on Plate IX. The few fossils that have been collected from the Mao clay are listed on page 153. Cerros de Sal Formation. Around the border of Enriquillo Basin there are strata containing Miocene fossils that are obviously younger than the beds of the Yaque group. For these strata the name Cerros de Sal formation is proposed by Condit and Ross. (See p. 201.) The name is taken from the Cerros de Sal, where salt is mined. The stratigraphic relations of the Cerros de Sal formation to the forma- tions of the Yaque group have not been determined, but the presence in the formation of beds of salt and gypsum, evidently formed in enclosed basins, suggests that the Cerros de Sal formation is not conformable with the Yaque group. The lithology of the Cerros de Sal formation is shown in the following generalized section, which was measured by Condit and Ross in the Cerros de Sal. The thicknesses given are regarded as minima. Generalized section in the Cerros de Sal. Miocene (Cerros de Sal formation) : Meters. 7. Sandy shale, poorly exposed, alternating with calcareous fossiliferous sandstone that forms low ridges north of Cerros de Sal 300 6. Cross-bedded sandstone, unconsolidated, alternating with gypseous shale; strike N. 70° E 150 6. Sandy clay beds, Ught olive color, with embedded corals at two horizons (station 8574) ; strike about N. 70° W., dip vertical 400 4. Sandy clay beds of various colors with several shell beds (station 8742) and thin layers of impure earthy Ugnite 170 3. Sandstone, sandy shale, and thin layers of pinkish fossiliferous limestone, forming north face of high ridge. — ^ 150 2. Gypsum in thick, massive, white, finely crystalUne layers, alternating with thinner layers of green, gypseous shales, and with beds of coarsely crystalUne salt; gypseous shales in upper part 700 1. Sandy clay and sandstone, red and yellow 100 The fossils collected from the Cerros de Sal formation are listed on pages 163-164. The fauna has no known counterpart on the north side of the island. The Cerros de Sal formation is younger thaa any other Miocene deposits hitherto discovered in the West Indies. It is provisionally corre- lated with the upper Miocene of Europe — ^that is, with the Tortonian, Sarmatian, or Pontian stages of the Mediterranean region. 76 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. MIOCENE OR PLIOCENE SERIES. Plant-Bearing Beds at S&nchez. Beginning at an exposure about 180 meters east of the pier at S&nchez, unconsolidated plant-bearing clay and sand containing seams of limonite crop out for several kilometers eastward along the south shore of SamanS, Bay. In the exposure 180 meters east of the pier (station 8684) the strata dip eastward at an angle of 24°; 270 meters east of the pier (station 8685) they dip westward at an angle of 45°. At other localities farther east they show diversity in both strike and dip. More detail on this formation is given on page 184, and fossils from it are listed on page 165. The data at hand are inadequate for fixing the geologic age of the deposit, but as it is older than the terraces that bevel its surface around Sinchez it is tenta- tively referred to the Miocene or Pliocene. PLIOCENE SERIES. Las Matas Formation. The name Las Matas formation is applied by Condit and Ross (p. 201 of this report) to loosely consohdated deposits of gravel, clay, and limestone in the valley of San Juan and adjacent areas. The name is taken from the village of Las Matas, in the province of Azua. The Las Matas formation lies unconformably upon the Yaque group. The contact is plainly shown at a place on Rio Yaque del Sur 3 kilometers upstream from Los Guii'os, where the Yaque group is overlain with angular unconformity by the Las Matas formation. At this locahty the strikes as well as the dips are dis- cordant. The formation consists chiefly of gravel but includes some marly lime- stone and clay. The gravel is yellowish-gray and is less firmly cemented than the conglomerate of the Yaque group. The clay is faint reddish to purpUsh, presenting a marked contrast to the bluish-gray to olive-green clay of the Yaque group. The formation looks like a subaerial deposit. The gravels resemble outwash material such as is now being laid down along the border of the mountains in this region. No fossils have been found in the Las Matas formation, but it is evidently younger than the Miocene, and as it is certainly older than some deposits referred to the Pleistocene it is provisionally regarded as Pliocene, though it may be early Pleistocene. QUATERNARY SYSTEM. Raised coral reefs that are evidently not older than Pleistocene were seen at almost every place along the shore that was visited by members of the expedition, and the coast charts show raised reefs at many other places. Adjoining the living reef that partly encloses the harbor of Puerto Plata is a dead reef, now standing 2.5 to 3 meters above sea level. At San Pedro de Macoris fossil reefs are even more conspicuous. The flat, rocky plain GEOLOGY AND GEOLOGIC HISTORY. 77 which there forms the point between the harbor and the ocean is a reef that stands about 2.5 meters above the sea. This plain is composed of hard, nodular, white or yellowish Umestone containing many hving species of corals. Doctor Vaughan recognized near or at the sea front the corals Orbicella annularis, Maeandra strigosa, Manidna gyrosa, Siderastrea siderea, Acropora muricata, and Acropora palmata. Back from the shore this hard rock merges laterally into soft, creamy-yellow nodular limestone. A cut near the steamer dock at Macorls exposes about 3 meters of this marl, in which there are many corals representing species characteristic of protected but clear water. The following species were identified by Doctor Vaughan: Orbicella annularis (Ell. and Soil.). Maeandra labyrinthiformis (Linn.). Manicina gyrosa (Ell. and Sol.). Agaricia agaricites (Linn.). Siderastrea siderea (Ell. and Sol.). Acropora muricata (Linn.). (Most abundant species.) Porites porites Lam. Porites astreoides Lam. At Santo Domingo City the sea front in the vicinity of the wreck of the U. S. S. Memphis is bordered by a raised reef. Lake Enriquillo is bordered by a terrace of coral limestone at an altitude of about 35 meters above sea level and about 79 meters above the present level of Lake Enriquillo. This coral reef is conspicuous at Neiba and Duverge, but farther east it takes the form of a flat-lying bedded limestone. It is either of the same age as the conglomeratic "coast limestone," which extends from Cabral southeastward beyond Barahona, or it is a little younger. Plate XVII, B (p. 198), is a view of a part of this reef. The "coast limestone," which was referred to the Pleistocene by Gabb, is not a unit but includes sediments ranging in age from Miocene to Recent. Much of it, however, is of Pleistocene age. A large part of it is soft, pul- verulent, marly limestone, which is locally called "caliche." Some of this rock is conglomeratic and contains large boulders of older rocks of many kinds. Raised rocky beaches, which still carry cUnging shells, such as Mytilus, were seen at several widely separated places, notably several kilometers inland from San Pedro de Macorfs, at an altitude of more than 30 meters above sea level, and along the shore northeast of Monte Cristi. The fossils collected from Pleistocene or younger deposits are listed on pages 166-168. STRUCTURE. The structure of the Dominican Republic as a whole is simple, but its details are very intricate. The oldest rocks form a broad strip through the center of the island, and the younger rocks flank them on each side. 78 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Except within the basal complex, where folding as well as faulting has been intense, faulting is the dominant element of the structure and folding is distinctly subordinate. Faults outline many of both the maj or and minor topographic features and determine the distribution of the geologic forma- tions. The three longitudinal valleys that cross the island — ^the Cibao Valley, the San Juan-Azua area, and the Enriquillo Basin — are areas of Miocene and younger sediments that are partly outlined by faults. The mountain ridges that bound these valleys are composed of hard, older for- mations. Block faulting, both in the Cordillera Central and in the flank- ing areas, has caused frequent repetition of strata and greatly complicates the problem of interpreting the stratigraphy of the island. The structure of the southwestern part of the Cibao Valley is monoclinal. The Miocene formations of the Yaque group dip gently northward and abut against the steep front of the Cordillera Septentrional, which, in the area between Santiago and Esperanza, is a fault scarp. At places, as in Arroyo las Lavas at the crossing of the Monte Cristi road, the edge of the Miocene formations has been dragged upward and the strata slightly overturned. At Damajagua, northwest of Navarrete, this great fault brings up Creta- ceous "hornstone" and Eocene limestone high above the Miocene. The extension of this fault toward the northwest and southeast has not been traced. No faults of great magnitude were observed near Monte Cristi. Faulting has also taken place along the south side of the Cibao Valley, but the throw of the faults in that area is apparently not so great as that above described. The Oligocene Tabera formation, which dips steeply away from the Cordillera Central, is cut by many faults, but the throw of all . that were examined is small. Block faulting of greater magnitude has taken place in the neighborhood of San Jos6 de las Matas and also near Dajabon. The east end of the Cibao Valley is a gentle syncline. The Cevicos lime- stone in the neighborhood of Cevicos dips very gently northward, and the yellowish limestone that forms the foothills of the Cordillera Septentrional near Villa Rivas and Arenoso, which probably should be correlated with the Cevicos Umestone, is inclined toward the south. No faulting was ob- served along the northern margin of the Cibao Valley east of San Francisco de Macorls. The large fault that forms the scarp near Navarrete either does not extend so far east or passes north of any route traversed by a member of the expedition. Faults of undetermined magnitude involve schists and associated rocks of the basal complex and also hard limestones, probably of Eocene age, in the Lomas de Sierra Prieta near the margin of the Cibao Valley west of Rio Yuna and at Hatillo near Rio Yuna, southwest of Cotul. The mountain front north of Azua marks a fault which brings limestones and shales, probably Eocene or older, against beds of Miocene age. This GEOLOGY AND GEOLOGIC HISTOET. 79 fault appears to run nearly due east and west and intersects the north- south fault which extends from San Jos6 de Ocoa southward along the edge of Loma el Niimero. Rio Ocoa from San Jos6 de Ocoa to Los Ran- chitos follows this north-south fault line. The diastrophic movements that have affected the Dominican Republic occurred dxiring many geologic periods. The stresses that folded and sheared the rocks of the basal complex and converted so many of them into schists were probably active during Eocene time or earher. Great diastro- phic movement probably antedated later Eocene time, when limestones were formed over much of the present land surface of the island. The Tabera formation, of middle Oligocene age, was steeply tilted, faulted, and uplifted during late Oligocene time, while the upper Oligocene Cevicos lime- stone was being laid down in a sinking area farther east, which may have remained above water while the shales and conglomerates of the Tabera formation were deposited. The latest known Miocene deposit, the Cerros de Sal formation, has in places been faulted and tilted vertically since its deposition. The deposits of salt and gypsxnn in the Cerros de Sal forma- tion show that changes in the level of land and sea were taking place while the beds were being deposited. Gentle flexures in the Las Matas forma- tion, which is supposed to be of Pliocene age, and many raised beaches and uplifted coral reefs not older than Pleistocene record oscillations of compar- atively recent date. Nor is there any sign of cessation of crustal movements in this region. On the contrary, evidence on every hand indicates that crustal movements are still in progress. The violent earthquakes which have repeatedly laid waste the ancient city of Santiago link the diastro- phism of the past with that of the present and indicate that crustal move- ments are probably going on today with as great intensity as at any time in the past. OUTLINE OF GEOLOGIC HISTORY. The geologic history of the Dominican RepubKc is not yet fully under- stood and any outhne of it must therefore be defective. The oldest rocks whose age has been definitely established are Upper Cretaceous deposits, but these deposits contain pieces of igneous rock, which indicate either Cretaceous or earlier igneous activity. Contemporaneous igneous activity is shown by the interbedding of extrusive igneous rocks with Cretaceous sediments. As the Cretaceous sediments are of a kind characteristic of shallow water, there was necessarily a shoal-water bank over at least a part of the area now occupied by the Dominican RepubHc. Some of the rocks may be much older than Upper Cretaceous. In Cuba Doctor Barnum Brown has recently traced an Upper Jiu-assic shore line, showing that there was land in Cuba prior to Upper Jurassic time. Farther west, in Guatemala and Nicaragua, certain prominent tectonic features that are 80 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. in line with the main tectonic features of the Antilles existed at the close of Paleozoic time. In fact, a gradually increasing body of evidence points to the existence of the major tectonic lines of the Antilles in late Paleozoic time. It is inferred that during early Eocene time the site of the Dominican Republic was mostly a land area, because the widespread deposits of Eocene age all seem to belong to the latest subdivision of Eocene time. Until the geologic map of the Republic has been completed it will not be practica- ble to ascertain whether any part of it remained above sea during all of Eocene time, but the Eocene sediments contain large Foraminifera, such as Lepidocyclina, Orthophragmina, and Nummulites, that inhabited shallow tropical waters. The limestones in the areas occupied by Sierra de Neiba, Sierra de Bahoruco, and other mountains in the southwestern part of the Republic attained considerable thickness, and Eocene limestone with con- clomerate at its base overlies the Cretaceous deposits in the Cordillera Septentrional. The Eocene limestones, however, appear to be thicker in Haiti than in the Dominican Republic. The intrusion of the great masses of dioritic rocks probably occurred before the deposition of the Eocene sediments. It seems that after the deposition of the Eocene sediments there was a period of diastrophism, because the Tabera formation, of middle Oligocene age, is composed largely of coarse conglomerate, which indicates erosion at its source, and the Oligocene deposits in the vicinity of Los Bancos appear to be separated from Eocene deposits by a marked erosion unconformity. (See p. 95, Chapter VI.) Before middle Oligocene time there must have been a great deal of igneous activity to supply the material for the conglom- erates and there may have been volcanic extrusions. Igneous activity dur- ing Oligocene time is shown by the interbedding of tuffs with fossiliferous deposits. Although middle Oligocene deposits occupy considerable areas in the Republic the whole of its surface was not under sea at this time . The earth movements during this period were evidently complex, and at the close of Oligocene time there appears to have been further diastrophic movement. At the beginning of Miocene sedimentation the central axis of the Island was a mountainous ridge bordered by a shallow sea in which the basal con- glomerate and sandy sediments of the Cibao Valley and of Azua Province were deposited to a thickness ranging from a few hundred to at least 1,500 meters. Active erosion of the adjacent land was almost continuous, and sandy sediments were spread over the sea bottom with only a temporary pause now and then permitting the deposition of thin beds of limestone. Nearly all the calcareous beds are made up of reef corals intermixed with some sandy material. No evidence of igneous activity in Miocene time is now known. GEOLOGY AND GEOLOGIC HISTORY. 81 The events since Miocene time have included elevation and erosion, which were accompanied by pronounced faulting and folding and which lifted the Cordillera Central considerably higher than it stands now and brought into existence the Cordillera Septentrional, an uphfted block of Oligocene and older strata bounding the Miocene deposits of Cibao Valley on the north. Structural deformation of the Miocene strata, although not great in the Cibao Valley, proceeded apace in the southern region, where the beds were folded, faulted, and overturned. The great structural valleys, such as San Juan, Enriquillo, and Cibao, were probably produced during PKocene time, and into them were carried the products of erosion of the central mountain chain, which were laid down at or near sea level. The work of block faulting in shaping the topography of Haiti and other islands of the West Indies group has been described by Vaughan.^ The events of late Pliocene time include mild folding and repeated eleva- tion and depression, accompanied by more or less movement, which has continued down to the present and which produce the destructive earth- quakes that occur from time to time. There is evidence of late vulcanism in the sheets of basaltic lava that cover the Las Matas formation along the upper valley of Rio Yaque del Sur. During Pleistocene time there was a period of quiet, gradual submer- gence, which favored deposition of the "coast limestone," a marly porous rock of a type common throughout the West Indies, made up largely of reef corals of species still living in the Antillean seas. The "coast lime- stone" has been elevated so as to form an almost continuous line of cliffs along much of the coast and has undergone slight deformation. The paleontologic evidence indicates that its beds slope seaward, the youngest beds being exposed nearest the coast. These beds locally rest uncon- formably on Miocene strata, which appear a short distance inland in the province of Santo Domingo and in other areas to the east. The extent to which the coast has undergone subsidence and emergence is indicated by sea-cut cliffs and terraces at different altitudes and by the presence of recent shell beds on these terraces. The amount of displace- ment differs at different places. Meinzer'' reports that beds in eastern Cuba containing Pleistocene or younger fossils have been found up to an altitude of 200 meters above sea level. Doctor Berkey' has Ukewise found widespread evidence of depression and reelevation in Porto Rico. Similar evidence was found by our party, the best being seen near San Pedro de Macorls, where a shell bed some kilometers inland stands at an altitude of 1 Vaughan, T. W., Geologic history of Central America and the West Indies during Cenozoic time: Geol. Soc. America Bull., vol. 29, 1918, p. 618. . _ 2 Meinzer, O. E., Geological reconnaissance of a region adjacent to Guantanamo, Cuba (unpublished report),quotedbyVaughan in Contributions to the geology and paleontology of the Canal Zone, Panama, and geologically related areas in Central America and the West Indies: U. S. Nat. Mus. Bull. 103, p. 265. » Berkey, C. P., Geological reconnaissance of Porto Rico: New York Acad. Sci. Annals, vol. 26, p. 60, 1915. 82 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. 40 meters. Along the Barahona coast shells of species that are still extant were found on a terrace at an altitude of 20 meters. The course of events along the Dominican coast subsequent to the deposition of the "coast limestone" may have been as follows : 1. Elevation of at least 100 meters, with intermittent pauses during which wave-cut terraces were formed. 2. Active erosion during which deep valley notches were cut across the "coast limestone." 3. Depression that produced drowned valleys, which indent the coast and furnish the harbors, such as Puerto Plata and SamanS, Bay. The depression occupied by Lake Enriquillo probably dates from this time. It may have been cut off from Neiba Bay by delta deposits of Rio Yaque. 4. Elevation as the latest event. The elevation appears to have been about 35 meters in Barahona Province but was very different in other parts of the island. The chief evidence of elevation in Barahona Province is the well-defined coquina and coral reef terrace around Enriquillo Basin, which is very conspicuous at Barbacoa, Neiba, and Duverg^. To the traveller passing over this forest of corals, some still bearing their original colors, its resemblance to a modern coral reef as seen at low tide is striking. There is also evidence that a shght elevation was the latest event in other parts of the Republic, especially in the vicinity of Monte Cristi and Saman^ Bay. The course of events has probably been much more complex than that outlined above. There may have been in addition minor oscillations. The "coast limestone" itself is made up of strata of ages ranging from Miocene to Recent, and it may have been elevated above the sea in late Pleistocene or Recent time, for the corals and other fossils found in it along the sea front are identical with forms now found in the adjacent sea. Volcanism probably recurred in early Pleistocene time and has been practically continuous almost to the present. There is no historic record of late volcanic activity, but it is denoted by the recent aspect of some of the volcanic vents and lava fields in the province of Azua. Hot springs that may be regarded as phenomena associated with final stages of volcanism are reported to occur at a few localities in the Cordillera Central. CHAPTER V. METAMORPHIC AND IGNEOUS ROCKS. By F. C. Calkins. METAMORPHIC SEDIMENTARY ROCKS. All the metamorphic sedimentary rocks represented in the collection made in the Dominican RepubUc belong to the basal complex in the prov- inces traversed by the Cordillera Central and in Samana Peninsula. They do not include all the rocks that are here assigned to the basal complex, nor some of the distinctly tuffaceous sediments mentioned on page 55, which may be Cretaceous. The term "sedimentary rocks" as here used includes tuffaceous material. The most intensely metamorphosed specimen is D. C. 23a, a silvery- looking micaceous schist from the Province of La Vega. This rock has undergone "regional" metamorphism, and seems to be much older than Cretaceous. The same may be said of the marbles from Samana Peninsula and the Province of Santiago, which are gray to white and are markedly crystalline. These marbles contain mica and probably other metamorphic minerals, which cause certain layers to stand out in relief on weathered surfaces. A much lower degree of alteration is shown by a reddish lime- stone, supposedly Cretaceous, from the vicinity of Banl. There are several specimens of pale-green chloritic schist that resemble altered tuff, especially R. 6, which exhibits vestiges of brecciated texture. The absence of sediments resembling quartzite is rather noteworthy. Specimens of metamorphic sedimentary rocks. No. Name. Locality. Remarks. D. C. 69 D. C. ? D. C. 23a R.6 Laminated chloritic schist. Marble, miisdovite- chloritic schist, chlo- ritic schist, impure limestone or calcare- ous argillite. Muscovite-chlorite cy- anite schist. Canyon of Rio Mao above Bulla, Province of Monte Cristi. Canyon of Rio Amina, a few miles be- low San Jos6 de las Matas, Province of Santiago. Cobbles along La Vega trail between summit of divide and Rio Maim6n, Province of La Vega. Loma de la Mina, near Hatillo, Prov- ince of La Vega. Junction of Arroyo Maria Luisa and Rio San Juan, Province of Samanfi. Southwest slope of Loma Botonceillo, on Constanza-Tfibanoroad, Province of Azua. Below second hi gh falls in Rio Via, 5 or 6 kilometers above Azua, Province of Azua. Same as C-88-19; rock forming falls. Arroyo Salado just above confluence with Arroyo Escondido, northwest of Bani, Province of Santo Domingo. In basal complex. Very highly altered. Marble may be altered tuff. Contains muscovite. etc C-79-19........ C-88-19 Calcareous sediment — Chert No thin section. C-82-19 c Keddish-purple impure limestone. Near supposed oil seeps. 83 84 GEOLOGICAL BECONNAISSANCE OF THE DOMINICAN REPUBLIC. GRANULAR INTRUSIVE ROCKS. Diorite. — The granular intrusive rocks include none more siliceous than quartz diorite or granodiorite. Most of the specimens are quartz diorites. Rocks of this class are found in the provinces of Monte Cristi, Santiago, and Pacificador. The commonest type is medium-grained, gray, granitic- looking rock, rather rich in quartz, containing variable amounts of horn- blende. Biotite is subordinate to hornblende in all the specimens and is quite absent from some. Most specimens contain little or no potash feldspar. Only one (D. C. 56b) contains enough to suggest its affinity to granodiorite. In one specimen (R. 33) the usual interstitial position of orthoclase is occupied by albite, which may be secondary after orthoclase. The poverty of these rocks in potash, combined with their rather high silicity, is noteworthy. One specimen has a gneissic texture induced by pressure (D. C. 72). Two (D. C. 23d, D. C. 25) are tentatively grouped with the diorites; they have suffered deep-seated alteration and are possibly epidiorites de- rived from gabbro. The feldspar is abnormally sodic for rocks so rich in dark minerals. Gabbro. — ^A single specimen of gabbro (D. C. 23c) was collected in the Province of Santiago. It consists essentially of labradorite, augite, and hornblende. The hornblende, which is more abundant than the augite, is probably in part secondary. Some of the altered rocks just mentioned, however, may have been derived from gabbro. Peridotite. — ^A specimen (D. C. 3) of altered peridotite, consisting mainly of dull serpentine derived from olivine but sprinkled with satiny crystals of bastite, was collected near the town of Puerto Plata, and a hornblende- olivine rock was collected in the Province of La Vega (D. C. 23e). Specimens of granular intrusive rocks. No. Name. Locality. Remarks. R. 33 Quartz diorite.. Juan Calvo Hills, 4 km. south of Cobble. Contains inter- Dajabon, Province of Monte stitial albite {replacing Cristi. orthoclase?). D. C. 72 Quartz diorite gneiss Arroyo Blanco, road from Sabaneta to Restauraci6n, Province of Monte Cristi. No alkali feldspar present. D. C. 3 Serpentine Along railroad 5.8 km. west of Puerto Plata, Province of Puerto rock, also some limestone. Plata. R. 12 Arroyo Arenasito, Cordillera Septentrional, near Villa Rivas, Province of Pacificador. R. 11 Quartz diorite, aplitic facies. Arroyo Higuero, Cordillera Sep- tentrional, near Villa Rivas, position to R. 12 but finer- Province of Pacificador. grained. D. C. 56b-... Quartz diorite or grano- Rio Jinoa, about 5 km. southwest diorite. of San Jos6 de las Matas, Prov- ince of Santiago. D. C. 25. Diorite or epidiorite Canyon of Rio Yaque del Norte Much altered; amphibole is above Tabera, Province of fibrous; might be altered Santiago. gabbro. METAMOEPHIC AND IGNEOUS ROCKS. Specimens of granvlar intntsive rocks — Continued. 85 No. Name. Locality Remarks. D. C. 23a Quartz diorite La Vega trail between summit of divide and Rio Maim6n, I^ov- ince of Santiago, Hornblende abimdant; feld- D. C. 23d Quartz diorite or epi- diorite. Amphibolite schist spar bytownite; no potash feldspar present." Texture indicates deep- seated alteration. Feld- spar abnormally sodic. Essentially quartz, horn- D. C. 23f.... Same as 23a, above.._ D. C. 23c blende, and albite. May be of same origin as 23d, but more thoroughly altered. D C 23e Hornblende peridotite... Quartz diorite ably in part secondary. Much altered; olivine wholly replaced. Also a dark porphyritic rock. C-76-19 Rio Medio, between lOth andJlth crossings, road from Constanza to Laa Canitas, Province of Azua. not determined. DIKE ROCKS. Many of the specimens are either described as occurring in dikes or, as their texture indicates, are obviously dike rocks. Some others are only tentatively classified as dike rocks in the absence of adequate information regarding their mode of occurrence. Silicic dike rocks. — The most common sort of silicic dike rock in the col- lection is a whitish granite porphyry containing phenocrysts of quartz and albite and sparse vestiges of some altered ferromagnesian mineral in a groundmass of albite, quartz, and orthoclase. Specimens of such rock were collected in the Provinces of Santiago and Pacificador. An aplitic rock (D. C. 27a) from the Province of Santiago consists essentially of feld- spar, abundant quartz, and a moderate amount of hornblende. The feld- spar is albite or sodic anorthoclase. Both this aplite and the granite porphyry may be genetically related to the quartz diorites. Intermediate dike rocks. — ^A dark-green sheared and highly altered diorite porphyry (D. C. 23b) was found in the Province of Santiago, and a very fresh gray diorite porphyry (D. C. 83) from the Province of Azua contains phenocrysts of labradorite, augite, hornblende, and biotite. Mafic dike rocks. — The collection contains several specimens of diabase, which may be dike rocks, though some of them may be lavas. They are from the provinces of Azua and Santiago. Two specimens (R. 7 and D. C. 56a) have the texture of diabase but contain hornblende in place of augite; in D. C. 56a the feldspar is near albite and probably secondary. Some other dark greenish dike rocks containing augite but not diabasic in texture are listed as lamprophyres. They were found in the provinces of Samani, Monte Cristi, and Santo Domingo. They are considerably altered and in at least one (D. C. 68b) the feldspar is albite. 86 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN HEPUBLIC. Specimens of dike rocks. No. Name. Locality. Remarks. D. C. 68b Lamprophyre „ . Cordillera Central) about 1.5 km. Feldspar albite, possibly secondary. south of the village of Gurabo, Province of Monte Criati. R 12b .. Granite porphyry Cobble in Arroyo Arenasito in Cor- dillera Septentrional, near Villa Phenocrysta of quartz and Bodic plagioclase. Rivas, Province of Pacificador. Samani 6.... Lamprophyre Heach west of Las Cafiitas, south Dike cutting schist; similar shore of Samand Bay, Province of to Samand S. but more Saman^. altered. Samani 8.... Lamprophyre Beach west of Las Cafiitas on south Phenocrysts plagioclase and augite ; much altered. shore of Saman^ Bay, Province of Samand.. D. C. 27a Aplite ... Canyon of Rio Yaoue del Norte at No potash feldspar; feldspar sodic anorthoclase? Baitoa, Province of Santiago. D. C. 661 ^eta^liabase Bio Inca near San Joa£ de las Mataa. Essentially plagioclase and secondary amphibole. .Lli'&\/ AXA^/OI ^A^tAX hJCbl^ U V0^ \ifiV 'OrD ^TJkC4V£tDf Province of Santiago. C-70-19 Lamprophyre Hill on northeast edge of Constanza, Small dike' cuts C— 69— 19. Province of La Vega. KJX^^Ot^M \*11^0 f \/KXViJ ^J \/i/ .i.x. C-67-19 Granite porphyry ? About 3 km. south of El Paso Bajito on road from Jarabacoa to Con- stanza, Province of La Vega. Weathered; no thin section. D. C. 2Sb.... Sheared diorite por- La Vega trail between summit of Cobble; contains pseudo- phry. divide and Rio Maim6n, Province morphs after plagioclase of La Vega. and hornblende. R7. Hornblende diabase liOma Pecado near Maini6n. Prov- Contains periclase? ince of La Vega. R 8 Granite porphyry East of Cotul, Province of La Vega.... Phenocrysts of quartz and albit«. C-81-19 Diabase ? Dike cutting conglomerate in Arroyo No thin section. Lima, southeast of Ttibano, Province of Azua. D.C.83 Diorite porphyry or Left bank Rio Yaque del Sur on hill Very fresh; phenocrysts pla- andesite. near Arroyo Salado, Province of gioclase, augite, horn- Azua. blende, and biotite. C-91-19.. MetadiabaBe 7 West slope of Loma Nizao between Feldspar is albite, idiomor- San Jos€ de Ocoa and Nizao phic against hornblende. Arriba, Province of Azua. LAVAS. Among the lavas, as among the granular intrusives, there are no decidedly- silicic or alkaUc types, but there are intermediate, basic, and ultrabasic types. Andesites. — A gray poryphyritic typical hornblende-augite andesite was found in the Province of Azua (D. C. 74), and two other specimens, of which no thin sections are available, from the same province, apparently belong to hornblende andesite. A black augite andesite with phenocrysts of plagioclase and augite was collected in the Province of Santo Domingo. Basalts. — The collection contains specimens of basalt from the provinces of Monte Cristi, La Vega, Azua, Barahona, and Santo Domingo, and also two specimens from the D^partement du Nord, Republic of Haiti. The rocks are variously altered, the olivine in many of them being replaced by chlorite or serpentine. Two extremely fresh specimens of very basic lava classifiable as limburgite rather than basalt are D. C. 76 and 79. One of these contains no feldspar, though feldspar might be present if the glass of the groundmass were crystallized. METAMORPHIC AND IGNEOUS BOCKS. Specimens of lavas. 87 No. Name. Locality. Remarks. D. C. 680 Basalt . Cordillera Central, about 1.5 km. Amygdaloidal. south of Gurabo, Province of Monte Criati. R 9 Basalt Western foothills of Loma de los Texture intersertal. Con- Palos near Cotui, Province of La tains much chlorite and Vega. epidote. C-74-19. Amygdaloidal basalt- Loma Chinguela (7 ), 3 Ji hours west of Constanza, road to Tlibano, Prov- ince of La Vega. D. C. 74 Hornblende - augite Ridge about 8 km. east of B&nica, Hornblende resorbed? andesite. Province of Azua. C-7-19 Hornblende andesite.. Boulder in Rio Medio at first crossing, road from Constanza to Ttibano, Province of Azua. No thin section. C-83-19 Hornblende andesite.. Near Tlibano, on road to Constanza, Province of Azua. No thin section. C-80-19 Altered basalt 7 Rio Medio at Lim6n, Province of Azua. D.C.79a Hornblende basalt East side of Rio Yaque del Sur op- Phenocrysts of basaltic posite mouth of Rio de las hornblende, olivine, and a Cuevas, Province of Azua. few of augite. D. C. 76 Limbureite or basalt.. Punta Cafia, between Las Matas and Contains olivine, augite. San Juan, Province of Azua. magnetite and a rather small amount of glass. D. C. 79 Limburgite or basalt.. West side of Rio Yaque del Sur op- Similar in composition to posite mouth of Rio de las Cuevas, D. C. 76 but apparently Province of Azua. contains a little feldspar. R 80 Altered vesicular Brioaro Hill, San Francisco Mining Abundant chlorite and sec- basalt ?. Concession, Province of Santo Domingo. ondary quartz. D. C. Alcar- Brecciated augite an- 5 km. north of Los Aloarrizos on the Phenocrysts plagioclase and rizos. desite.- Duarte Highway, Province of Santo Domingo. augite. D. C. 98 ... . Basalt Rio Bahoruco, on the coast south of Amygdaloidal. Barahona, Province of Barahona. D.C.98a Basalt Rio Bahoruco, on the coast south of Barahona, Province of Barahona. H-3-V Hornblende -bearing basalt. Kadiak, between Limb6 and Camp Le Coq, about one-third the dis- Hornblende in groundmass. tance from Limb^, Ddpartment du Nord, Republic of Haiti. H-l-v Basalt T Beudaret (altitude 442 meters), at top of divide at head of Riviere Limb6, Thoroughly altered; contains much epidote, chlorite and between T,imb6 and Plaisance, De- secondary amphibole. partment ,du Nord, Republic of Haiti. TUFFACEOUS ROCKS. The collection contains specimens of typical unsorted tuifs, of water-laid sandstone consisting largely of volcanic material, and of metamorphic rocks that may be altered tuffs. The last named are described under "Metamorphic sedimentary rocks," page 83. Unsorted tuffs were found in the provinces of Puerto Plata, Azua, Bara- hona, Santo Domingo, and La Vega. In composition they are andesitic and basaltic. They vary widely in degree of alteration and range in color from whitish to dark green or red. Tuff sandstones in which feldspar crystals are somewhat concentrated by current action were collected in the provinces of Santiago, Pacificador, and Puerto Plata. These are oUve-green. 88 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. A specimen (R 2, 3) of pale drab limestone collected in the Province of Puerto Plata contains fragments of green decomposed lava whose sharp angularity indicates that they were not carried far by currents and that they were erupted while the limestone was being formed. A dark-gray calcareous rock from the Constanza-Tlibano road, in the Province of La Vega (C 73-19), contains much noncalcareous material that forms a pale rind on its weathered surface. This material may be volcanic, as Dr. Vaughan has suggested, but the suggestion can not be verified with- out microscopic study. This rock probably belongs to the basal complex. Specimens of tuffaceous rocks. No. Name. Locality. Remarks. D. C. 1 R 1.. _ TufE (andeaitic 7) Tuff-sandstone Southern edge of the city of Puerto Plata, Province of Puerto Plata. Trail to Santiago, about 300 meters west of San Marcos, Province of Puerto Plata. Trail between Puerto Plata and Santiago, southwest of San Marcos, on the north- east slope of divide. Province of Puerto Plata. Arroyo north of Los Ranchos, Cordillera Septentrional, near lignite prospect, Province of Pacificador. Canyon of Rio Yaque del Norte at Baitoa, Province of Santiago. About 1.5 km. south of El Paao Bajito, road from Jarabacoa to Conatanza, Province of La Vega. Hill northeast of Constanza, Province of La Vega. First crossing of Arroyo Hondo, road from Constanza to T6bano, Province of La Vega. Cerro de las Chibras, Tdbano, Province of Azua. La Rama prospect, San Francisco Mining Concession, Province of Santo Domingo. Chini prospect, near Arroyo Alga, San Fran- cisco Mining Concession, Province of Santo Domingo. Sierra Bahoruco, north side of Cafiada Diablo, south of Duvergfi, Province of Barahona. R2, 3 Limestone containing fragments of lava. Andesitio? tuft-sand- stone. Andesitio tuft-sand- stone. Indurated tuff I Fragments angular. R 17 D. C. 27b.... C-66-19. C-69-19 with similar ma- terial. Contains fluorite. Cretaceous? C-73-19. 0-82-19 Andeaitic or basaltic tuft?. Dark red. Very fresh. R 81 Andeaitic tuff R86 Tuff ?.-_ Decomposed tuff ? — Much altered. R 55-.. CHAPTER VI. TERTIARY AND QUATERNARY STRATIGRAPHIC PALEON- TOLOGY. By Thomas Wayland Vaughan and Wendell Phillips Woodeing. OBJECTS OF THE PALEONTOLOGIC WORK. As is stated in the introductory chapter of this volxime, one of the objects of the prehminary geologic work done in the Dominican RepubUc included the collection of fossils that would establish a more accurate geo- logic correlation of the formations in the Republic and that would aid in correlating them with formations in other West Indian islands, southern North America, Central America, and northern South America and in estab- lishing geologic correlations of formations on the two sides of the Atlantic. The large collections obtained during the reconnaissance have been studied in a preliminary way and the information they afford is here presented. The only other collections made in the Dominican Republic that can aid in determining geologic correlations are those obtained by Dr. Carlotta J. Maury and her party in May and June, 1916.^ The results of studies by specialists of the Foraminifera, Echinii, Bryozoa, and Crustacea collected by her party, as well as of some stratigraphic information contained in her report, have been used, for by thus combining the results of the studies of the two sets of collections we are able to give a summary of all that is now known of the Tertiary stratigraphic paleontology of the Dominican RepubHc. The small fauna of the known Cretaceous is discussed on pages 53-55. The identification of the fossils has been a laborious undertaking, in which a number of investigators have collaborated. Credit for the deter- minations should be given as follows : Foraminifera, Dr. Joseph A. Cushman, of the United States Geological Survey; corals, Dr. T. Wayland Vaughan, of the United States Geological Survey; Echinii, Dr. Robert T. Jackson, of Peterborough, New Hampshire; Bryozoa, Dr. Ray S. Bassler, of the United States National Museum, and Monsieur F. Canu, of Versailles, France; MoUusca, Dr. W. P. Woodring and Mr. W. C. Mansfield, both of the United States Geological Survey; Crustacea, Dr. Mary J. Rathbun, of the United States National Museum. The few fossil phanerogamous plants were examined by Professor E. W. Berry, of Johns Hopkins Univer- sity. It would possibly be no more than just to give the names of all these collaborators as joint authors of this chapter. In references to fossils given in the following lists the identifications should be credited to the ' Santo Domingo type sections and tosaila: Bull. Am. Paleontology, vol. 5, pp. 165-459, Pis. 27-68, 1917. 89 90 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. specialists who made them. Dr. Marshall A. Howe, of the New York Botanical Garden, is preparing a report on the fossil calcareous algae, but the results of his study are not yet available. The lists here given are only preliminary, because, although great care has been taken both in the identification of species and in the compilation of the lists, it has not yet been practicable to make monographic studies of the several groups of organisms represented. Many species have not yet been named and further field work will doubtless add greatly to the number already collected, but notwithstanding these limitations much valuable information was procured. The general biologic features of several of the formations have become fairly well known, and when the data are presented in detail they will help still further to solve problems of both local and re- gional geology. PALEONTOLOGIC LITERATURE. As it is not practicable to illustrate in this volume the fossils mentioned in the tables, it is desirable to give references to the more valuable illustrated reports on the West Indian and Central American representatives of the groups here considered. Three volumes of particular value have appeared during the last few years. They are as follows : Carlotta J. Maury, Santo Domingo type sections and fossils: Bull. Am. Paleontology, vol. 5, pp. 165^59, pis. 27-68, 1917. T. W. Vaughan and others, Contributions to the geology and paleontology of the Canal Zone, Panama, and geologically related areas in Central America and the West Indies, prepared under the direction of T. W. Vaughan: U. S. Nat. Mus. Bull. 103, 612 pp., 154 pis., 25 text-figs., 1918-1919. This volume contains memoirs on fossils as fol- lows: Calcareous algae, by M. A. Howe; Higher plants, by E. W. Berry; Foraminifera, by J. A. Cushman; Echinii, by R. T. Jackson; Bryozoa, by F. Canu and R. S. Bassler; Decapod Crustacea, by Mary J. Rathbun; Cirrepedia, by H. A. Pilsbry; Corals, by T. W. Vaughan. The last paper in the volume is one by T. W. Vaughan summarizing the pale- ontologic data and discussing problems of correlation and of geologic history. T. W. Vaughan and others. Contributions to the geology and paleontology of the West Indies, prepared under the direction of T. W. Vaughan: Carnegie Inst. Washington Pub. 291, 184 pp., 53 pis., 7 text-figs., 1919. Besides a brief introduction by T. W. Vaughan this volume contains papers on West Indian fossils as follows: Calcareous algae, by M. A. Howe; Foraminifera, by J. A. Cushman; Bryozoa, by F. Canu and R. S. Bassler; Mol- lusks, by C. W. Cooke; Decapod Crustacea, by M. J. Rathbun. These volumes contain references to older works. Several other valuable papers on Foraminifera by Doctor Cushman have recently been published. Among these papers are "The American species of Orthophragmina and Lepidocyclina" (U. S. Geol. Survey Prof. Paper 125-D, pp. 39-105, pis. 7-35, text-figs., 1920) and "Lower Miocene Foraminifera of Florida" (U. S. Geol. Survey Prof. Paper 120-B, pp. 60-74, pi. 11, 1920). The publications here cited, together with the references they contain and the bibliography given on pages 18-25, include nearly aU the impor- tant papers on West Indian stratigraphic paleontology. STRATIGRAPHIC PALEONTOLOGY. 91 GEOLOGIC CORRELATION. The expression "geologic correlation" means the determination or the attempt to determine the contemporaneity of geologic events in different regions — ^proximate or remote — the attempt to determine, for instance, what deposits were forming at the same time at the two ends of the present valley of Rio Yaque del Norte and what deposits were forming at that time on the south side of the Cordillera Central. As applied to the Dominican Republic it involves a comparison of the geologic history of the Dominican Repubhc with that of Cuba, Jamaica, and other West Indian islands, and of the geologic history of this general region with that of other parts of America or of more remote parts of the earth. Geologic correlation may be made: (1) by actually tracing geologic formations from one area to another through adjacent exposures; (2) by comparing the record of the diastrophic events (earth movements) in the two areas; (3) by studying the remains of such organisms as may be en- tombed in the sediments in the two areas if they are sufficiently abundant. Each of these methods has its limitations and its hability to error, and in many regions a reliable conclusion can not be reached by means of any one of them, but satisfactory correlations in some regions may be reached by combining evidence afforded by two or all of them. Correlation by tracing formations through lithologic continuity and simi- larity is not invariably trustworthy, because formations that are different in character may have been deposited contemporaneously and because similar formations may have been deposited at different times. Everyone who is familiar with the physical features of the Republic knows that the sediments now forming at the mouths of such streams as Rio Yuna and Rio Yaque del Norte are different from those forming on Monte Cristi Bank or in any other area around the shores of the Dominican Republic that is not reached by detritus washed from the land; yet these different kinds of sediments are forming at precisely the same time. One could not therefore correlate these contemporary river-borne formations by tracing them along the shore from the mouth of the Yuna to the mouth of the Yaque, for they are not continuous. The discontinuity between the formations of Haiti and of Cuba is still more striking. Rock of the same kind may be formed in widely separated geologic ages. In the West Indies there are shallow- water Hmestones of Jurassic, Upper Cretaceous, Eocene, middle Oligocene, late Oligocene, Miocene, and Pleistocene age, so that one who employed no other criteria than lithology for determining the geologic age of a de- posit — which means also its stratigraphic position — might make very serious errors. Yet, although geologic correlations by lithology may some- times fail, it is nevertheless valuable. 92 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Correlations by diastrophic events, a method which is based on similarity in deformation or in succession of deformation or on similarity in degree of metamorphism, is also defective, for the whole crust of the earth is not simultaneously subjected to earth movements of the same kind and inten- sity. Parts of the earth's crust have remained almost undisturbed while other parts have been folded into mountain chains, and igneous activity was violent in some regions while there was none at all in others. Not- withstanding the limitations of the method of correlation by diastrophism, however, it is of great value, because the strata in some large parts of the earth did undergo deformation at nearly the same time, and in a study of those parts the comphcated events of the past may be traced by carefully studying the relations of the rocks one to another and thereby learning something of the history of their deformation. Correlation by means of fossil organisms depends upon the premise that the organisms which inhabited the earth in past geologic time have changed in character and in grouping from age to age and that the organisms which lived in each geologic age were similar. The defects of this method of cor- relation are numerous: (1) Many deposits, particularly those formed on the land, contain no organic remains; (2) land, water, or climatic barriers may not permit organisms to move freely to any part of the earth — that is, the organisms of one time and place may be restricted in their geographic-dis- tribution, and the organisms that lived at a certain time may have been very different in different regions; (3) if organisms had suddenly changed at the beginning of each geologic epoch and if all the organisms that lived during that epoch were characteristic of it there would be no great difficulty in recognizing the age of a deposit that contains abundant organic remains, but abrupt breaks do not generally occur between faunas of successive epochs. For instance, it seems that nearly all the species of the Hving shallow-water coral fauna of the West Indies already existed in Miocene time — probably in older Miocene time. The Miocene coral fauna of the West Indies is characterized by some genera and groups of species some of which are now extinct while others persist in the Indo-Pacific region. Almost all the superspeeific groups of the Recent West Indian shallow-water MoUusca were also hving in Miocene time in the West Indian region, but the Miocene MoUusca include groups that are now restricted to the west coast of America or to the Indo-Pacific region. Correlation by means of fossils involves still other difficulties and lia- bihties to error. The original subdivision of the Tertiary system into Eocene, Miocene, and Pliocene was made by Lyell according to the per- centage of living species of moUusks found in the rocks, the Eocene con- taining 3.5 per cent, the Miocene 17 per cent, and the Pliocene 30 to 50 per cent of species still living. Two other subdivisions of the Tertiary were afterward made, the Oligocene by Beyrich and the Paleocene by STRATIGEAPHIC PALEONTOLOGY. 93 Schimper, the Oligocene containing 10 to 15 per cent of living species of MoUusca and the Paleocene practically none. The comparison of faunas by means of such percentages is likely to lead to very serious errors and possesses significance only when all the species of a given ecologic complex are known and are compared with all the species of a similar ecologic com- plex. In the discussion of fossil faunas too little attention has been paid to differences in contemporaneous faunas due to differences in environment. The necessity of giving greater consideration to ecology in the study and geologic use of fossils has been recently emphasized by Vaughan.^ If the percentage method of comparing faunas were appUed to the living lagoon fauna and the living exposed barrier reef fauna of Cocos-Keeling Islands, on the assumption that the lagoon fauna is geologically Recent, the barrier fauna would be Miocene, and the fauna of the pools and flats behind the barrier reef would be oldest Pliocene. By this method, much of the West Indian Miocene might be made PKocene or even Pleistocene. Errors may be introduced because a fossil fauna may not be homogeneous. Marine MoUusca, for example, may be collected from different ecologic stations at a single locality within a single formation. Mud-burrowing and boring bivalves have been washed upshore and mixed with gastropods that lived only on intertidal sand flats; offshore and estuarine forms have been washed in among indigenous shoal-water species. Yet percentage comparisons are valuable if they are applied to complete faunas of a similar ecologic complex, and though one may seldom be sure of having collected all the members of any fauna, careful and thorough collecting may give a large proportion of it. The biologic method of correlation affords its best results only if it is applied after a study of the vertical distribution of species, particularly the minor variants of species, in accurately ascertained colum- nar sections. By studying in this way the faunas and the associated sedi- ments over areas of moderate extent the stratigraphic range of many species and variants may be ascertained, and these species rather than percentages supply a basis for the correlation of similar deposits. Even this method of work involves liability to error, however, because the observed strati- graphic ranges of the organisms studied may not sufficiently represent the actual ranges. . In establishing the correlations of the formations of the Dominican Republic all three methods were used. It was not practicable in many places to trace the formations from one area to another even where it is possible to do so; the record of earth movements, although it has not been fully deciphered, was a valuable aid, but the most generally useful method, and that by which the ages of most of the formations were inferred, was 1 Vaughan, T. W., Fossil corals from Central America, Cuba, and Porto Rico, with an account of the American Tertiary, Pleistocene, and Recent coral reefs: U. S. Nat. Mus. Bull. 103, pp. 190-193, 1918, (Section entitled "Geologic correlation by means of fossil corals."! Corals and the formation of coral reefs: Smithsonian Kept, for 1917, pp. 186-276, pis. 37, text-figs. 16, 1919. 94 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN REPUBLIC. the biologic. In some cases it was possible to apply both diastrophic and biologic criteria, as, for instance, in referring the Baitoa formation to the Miocene. The underlying Tabera formation, which, as is clearly shown by its fossils, is of the same or nearly the same age as the middle Oligocene Antigua formation, was folded and eroded before the Baitoa was deposited upon it. It may reasonably be inferred that this folding and erosion consumed a long time — probably all of upper Oligocene time — and that the Baitoa formation is of Miocene age. Moreover, the fauna of the Baitoa shows affinities with that of the other members of the Yaque group, not with the faunas of the older formations. The Baitoa is therefore referred to a stratigraphic position low in the Miocene. One result of this conclusion is to place in the Miocene the type species of the genus Orthaulax, 0. inornatus Gabb, a species that had been supposed to be of Ohgocene age. RELATIONS OF DOMINICAN TERTIARY AND QUATERNARY BIOTA. Within the last two years Vaughan has discussed in three papers the relations of the West Indian and Central American Tertiary marine inver- tebrate fauna,^ and Dr. C. J. Maury* and Dr. Bela Hubbard' have more recently pubhshed two papers that are devoted particularly to Porto Rico. As rather full references to other literature are given in the papers cited, particularly the longer one by Vaughan, the present discussion is much condensed. EOCENE. The Dominican Eocene seems to be of very nearly the same if not the same geologic horizon on both the north and the south side of the island. The tables on pages 105-106 show that the same species are found on both. The same or a very similar fauna is found in Saint Bartholomew, Jamaica, Cuba, Nicaragua, Costa Rica, and Panama, and probably in Colombia and Trinidad. Vaughan also obtained it in Haiti at Cape Haitien and between Plaisance and Ennery, at an altitude of about 705 meters above sea level, on the north side of the summit of Mount Puilboreau. The genera of Foraminifera in the Haitian deposits were determined by Doctor Cushman as Globigerina, Calcarina, Orthophragmina, Conulites, Biloculina, and Quin- quelocuUna. To the Eocene limestone that is so well exposed in north- western Haiti Vaughan has applied the name Plaisance limestone. This fauna is late Eocene, the same age as that of the Jackson formation and Ocala limestone of the southern and southeastern United States and 'Vaughan. T. W., Correlation of the Tertiary geologic formations of the southeastern United States , Central America, and the West Indies; Washington Acad. Sci. Jour., vol. 8, pp. 268-276, 1918. Geologic history of Central America and the West Indies during Cenozoic time: Geol. Soc. America Bull., vol. 29, pp. 615-€30, 1919. The biologic character and geologic correlation of the sedimentary formations of Panama in tlieir relation to the geologic history of Central America and the West Indies: U. S. Nat. Mus. Bull. 103, pp. 547-612, 1919. 'Maury, Carlotta J., On the correlation of Porto Rican Tertiary formations with other Antillean and mainland borisons: Am. Jour. Sci., vol. 48, pp. 209-215, 1919. • Hubbard, Bela, The Tertiary formations of Porto Rico: Science, n. s., vol. 51, pp. 395, 396, 1920. STEATIGHAPHIC PALEONTOLOGY. 95 the Priabona formation of northern Italy. It appears that there are no Paleocene nor lower and middle Eocene sediments above sea level in the West Indies. Upper Cretaceous deposition was terminated by intense deformation and by the emergence of the sea bottom above sea level, where it stood for a long time. The unconformity between the Upper Cretaceous and the overlying Tertiary deposits is great wherever it has been actually studied — in fact, it is the greatest unconformity known in that part of the world. OLIGOCENE. Most of the Oligocene deposits of the Dominican Republic are of middle Oligocene age. They occur on both the north and the south side of the Cordillera Central and in the Sierra Septentrional. The deposits in the different districts that are sufficiently fossiliferous to warrant the expression of an opinion regarding their age seem to be stratigraphically equivalent and to be of about the same age as the Antigua formation of Antigua. Equivalent deposits also occur in Saint Croix, where Vaughan collected ^LepidocycUna morgani Lem. and R. Douv., Carpenteria americana Cush- man, Astrocoenia decaturensis Vaughan, Goniastrea reussi (Duncan), Cyathomorpha tenuis (Duncan), Diploastrea crassolamellata (Duncan), and Goniopora microscopica (Duncan). Deposits of middle OUgocene age are found also in Porto Rico, Cuba, southwestern Georgia, eastern Mexico, and Panama, and probably in Trinidad. The European equivalent of this horizon seems to be the Rupelian Oligocene. The recognition of middle Oligocene in the Dominican RepubUc is based primarily upon Foraminifera and corals. The moUuscan fauna can not be confused with the later faunas, and it indicates that the middle Oligocene MoUusca of the Dominican Republic form a local faunule that bears little relation to the known faunules of similar age in other West Indian islands. Two small faunules from Rio Yaque del Sur near Los Bancos (stations 8565 and 8619) are apparently of middle Oligocene age. The determination of these two faunules as middle Oligocene is based not so much on their similarity to known middle Oligocene faunules as on their dissimilarity to the Miocene faunules collected on the south side. The small collection of plants from station 8564 is of middle Oligocene age if the age of the MoUusca from station 8565 has been correctly determined. Until now no lower Oligocene marine sediments have been certainly recognized in the West Indies, perhaps because of emergence above sea level or because some of the sediments now classified as middle Oligocene should be referred to the lower Oligocene; or lower Oligocene deposits may be there but have not yet been found. The Tabera formation, according to Cooke (p. 61, this volume), is thick, and the middle Oligocene fossils were found in its upper part. Its lower part may be lower Oligocene. On the south side of the Republic a period of erosion appears to have intervened between Eocene and Oligocene deposition, 96 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN HEPTTBLIC. The upper Oligocene deposits consist of the Cevicos limestone, which is found in the Cibao Valley, and limestone on Monte Calavosa and near San Cristobal, on the south side. The faunas are meager and the correla- tion is uncertain, but if it is correct deposits of the same age occur in the islands of Anguilla, Porto Rico (according to Maury), and Cuba, and in Florida, Panama, and Trinidad. These deposits are tentatively correlated with the Chattian-Aquitanian of southern Europe. Doctor Cooke (see p. 63) has noted the uncertainty as to whether these deposits should be classified as uppermost Oligocene or basal Miocene. MIOCERE. YAQUE GROUP, NORTH SIDE. Baitoa Formation. Only the corals and mollusks and one bryozoan of the3aitoa formation have been identified. One species of coral, Goniopora sp., appears to be the same as that found in the Chipola marl of Florida. The bryozoan Cupularia denticulata Defr. ranges stratigraphically from the Chipola marl to Recent in America. The most abundant fossils are MoUusca. The most conspic- uous faunal bteak in the Tertiary system of the Dominican Republic indi- cated by the MoUusca is that between the upper Oligocene and the Baitoa formation. The fauna of the Baitoa formation closely resembles the suc- ceeding Miocene faunas. Only two of the Baitoa superspecific groups, the genera Orthaulax and Cymia, are not known in the later Miocene faunas of the valley of Rio Yaque del Norte. The curious stromboid genus Orthaulax, which is represented by the genotype 0. inornatus Gabb, has been considered a typical Oligocene genus; but the faunal assemblage of the Baitoa formation clearly indicates its Miocene (Burdigalian) age. Phos semicostatus Gabb is the most characteristic mollusk of the formation. The horizon of the Baitoa formation, which has not been found elsewhere in the West Indies, is correlated with that of the Chipola marl of Florida. Cooke ^ has recently discussed the stratigraphic significance of Orthaulax. In the Dominican Republic this genus, according to present information, appears to range from upper Oligocene to middle Miocene. In contending that the Quebradillas Umestone of Porto Rico is upper OKgocene because it contains Orthaulax in abundance, Hubbard ^ is expressing an opinion once held, but unwarranted, that this genus is restricted to the Oligocene. Doctor Maury* has, however, referred the Quebradillas limestone to the lower Miocene. Cercado Formation. The faunal lists for the Cercado formation embrace all fossils collected in 1919 except the Foraminifera, which have not yet been studied, but lists of Foraminifera obtained by Doctor Maury are included. This formation 'Cooke, C. W., Abstract, Geol. Soo. America Bull., vol. 31, p. 206, 1920. ' Hubbard, Bela., Science, new aer., vol. 51, p. 396, 1920. 'Maury, C. J., Am. Jour. Soi., vol. 48, p. 212, 1919. STHATIGEAPHIC PALEONTOLOGY. 97 is of old Miocene age. The coral fauna comprises about 19 species, only about four of which, Placocyathus n. sp. b, Stylophora n. sp. with a com- mensal worm, Thysanus corbicula Duncan, and Porites n. sp. with a com- mensal worm, seem to be confined to the formation; most if not all the other species range upward into the Gurabo formation, and at least two species, Solenastrea bournoni M. Edw. and H. and Siderastrea siderea (Ell. and Sol.), have persisted until Recent time. The most abundant or- ganisms are MoUusca, of which about 500 species have been recognized. The characteristic species are Conus cercadensis Maury, Cancellaria (Aphera) islacolonis Maury, Area (Scapharca) corcupidonis Maury, Area (Scapharca) arthurpennelli Maury, Pecten (Aequipecten) n. sp. a, Cardium (Trachycardium) dominicanum Dall, and Corbula (Bothrocorbula) viminea Guppy. The largest faunule, 260 species, was collected on Rio Mao at station 8525, which is Doctor Maury's "bluff 3."i The faunule on Rio Albano (station 8729) is remarkably Kke thfe faunule at station 8525, though the two localities are far apart geographically. The Cercado faunule on Rio Cana (station 8534) is characterized by the substitution of pecuKar specific stocks for many species that are conspicuous at other localities of the Cercado formation. Because of the apparent specific identity of several species of corals in this formation with species found in the 6owden marl of Jamaica Vaughan correlated it with the Bowden marl, but there is considerable similarity between the corals of the Gurabo foridation and those of the Bowden, and this is true of other organisms, so that the Cercado formation is probably a little older than the Bowden. (For fuller discussion see pp. 98-99.) Modified Cercado Fauna. Cercado faunules that are modified by the first appearance of a number of species of mollusks that elsewhere are confined to the overlying Gurabo formation were collected on Rio Mao (station 8522) and on Rio Gurabo (station 8739). Thfese species are Terebra suldfera Sowerby, Comis haytensis Sowerby, Conus muttiliratus Bose subsp. gaza Brown and Pilsbry, "Clavatula" labiata Gabb, Cancellaria guppyi Gabb, Lyria pulchella (Sow- erby),^ Metulella venusta (Sowerby), Distortio simillima (Sowerby), Peeten (Aequipeeten) eugrammatus Dall and Echinochama antiquata Maury not Dall. All these species are abundant at one or more localities of the Gurabo formation and, moreover, the above list includes six superspecific groups that are not known in the typical Cercado fauna. According to Doctor Maury's faunal hsts her expedition collected a simi- larly modified Cercado faunule from "Zone G," Rio Gurabo.^ The faunule of "Zone G" includes four species that are found in the Gurabo 1 Maury, C. J., Bull. Am. Paleontology, vol. 5, p. 425, 1917. s This species is reported by Maury from the Cercado formation at "Bluff 3," Rio Mao ( = station 8525). s Maury, C. J., Bull. Am. Paleontology, vol. 5, pp. 439-440, 1917. 98 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN EEPUBLIC. formation but not in the typical Cercado formation — Conus consobrinus Sowerby, Conus marginatus Sowerby, Fasciolaria semistriata Sowerby, and Metulella venusta (Sowerby). Gurabo Formation. The faunal lists for the Gurabo formation are incomplete, as the Forami- nifera obtained in it have not been identified; the fauna here recorded consists mostly of corals and mollusks. One of the striking peculiarities of the formation is the relatively rich coral fauna, comprising between 70 and 80 species, a considerable number of which, particularly in its upper part, are of reef facies. Although several species also occur in the underlying Cercado formation and others range upward into the overlying Mao Aden- tro limestone, the assemblage differs from that of each of the adjacent for- mations and some species appear to be confined to it, for example, Astero- smilia abnormalis (Duncan), A. exarata Duncan, A. profunda (Duncan), A. hilli Vaughan, Teleiophyllia grandis Duncan, and Syzygophyllia dentata (Duncan). Several of the species occur in the Cercado formation and in the lower part of the Gurabo; others occur in the upper part of the Gurabo and in the Mao Adentro limestone. It is therefore possible to tell the part of the formation from which a fairly large collection of well-preserved corals came. About 400 species of MoUusca have been recognized in the Gurabo forma- tion, and almost half of these species are not known in the typical Cercado formation. The most abundant species that do not occur in the typical Cercado formation are Terebra sulcifera Sowerby, Conus haytensis Sowerby, Conus symmetricus Sowerby and subsp. domingensis Sowerby, "Clavatula" labiata Gabb, "Drillia" venusta (Sowerby), Lyria pulchella (Sowerby), Murex domingensis Sowerby, Metulella venusta (Sowerby), Distortio simillima (Sowerby), Sconsia laevigata (Sowerby), Morum domingense (Sowerby), Crepaticella capula Guppy, Peden (Aequipecten) eugrammatus Dall, Echinochama antiquata Maury not Dall, and Cytherea (Ventricola) blandiana (Guppy). The largest shoal-water faunules were collected on Rio Mao at stations 8519 (Maury's Bluff 1) and 8734, and on Rio Amina (station 8516). The large collection from Rio Yaque del Norte (station 8702) includes several groups, such as Leucosyrinx, Pleurotomella, Caricella, and Verticordia (Trigonulina) , that indicate deeper water. Several species of MoUusca are confined to certain horizons within the Gurabo formation, so that subdivisions of the formation can be recognized. The Bowden marl of Jamaica is apparently of about the same age as the Gurabo formation. Woodring has recently completed a monograph on the MoUusca of the Bowden marl, which has been submitted to the Carnegie Institution of Washington for publication.' The Bowden moUuscan ' Vaughan, T. W., Carnegie Institution of Wasliington Year Book No. 18, p. 345, 1920. STHATIGKAPHIC PALEONTOLOGY. 99 fauna, consisting of about 600 species from a single locality, is more diver- sified than the faunas of either the Cercado or Gurabo formations, but is more similar to the Gurabo fauna than to the Cercado. There is no faunal or stratigraphic evidence to sustain Doctor Maury's assumption that the Bowden fauna is stratigraphically a mixed fauna, though it is less homogeneous than either the typical shoal-water Cercado or Gurabo faunas. The Gurabo corals that occur also in the Bowden marl and in the marls at Baracoa and Matanzas, Cuba, are Hsted in the following table: Gurabo corals. Bowden. Baracoa. Matanzas. Btylophora granulata Duncan... Madracis decactis (Lyman)... Madracis mirabilis (Duch. and Micht.).. Asterosmilia profunda (Duncan) Asterosmilia hilli Vaughan... X X Stephanocoenia intersepta (Esper)... Thysanua n. sp. a... Agaricia dominicensis Vaughan.. Forites baracoaensis Vaughan. X X X X X X Siderastrea siderea (Ell. and Sol.), which occurs at Bowden, was not col- lected in the Gurabo, but as it was found in the underlying Cercado forma- tion and in the overlying Mao Adentro limestone the failure to obtain it in the Gurabo was probably accidental. Another Bowden species, Pla- cocyathus barretti Duncan, was collected by Doctor Maury's party in the Samba Hills at an altitude of about 540 feet (station 7787), and Mr. Condit collected on Rio Yaque del Norte at station 8702 a specimen that is referred to in the list (p. 147) as Placocyathus barretti Duncan var., but this may be a varietal form of P. variabilis Duncan. The number of species now known from the Bowden marl is 17,'' and 9 of these occur in or range through the Gurabo formation. A species of Goniopora at Bowden is very close to G.jacobiana Vaughan, which occurs in the Gurabo and in the Mao Adentro. Another Bowden species, Antillia walli Duncan, was collected on the south side, a mile north of Azua (station 8609). The correlation by Vaughan of the La Cruz marl of Cuba with the Gurabo formation appears to be correct, as every species identified in it except Thysanus excentricus Duncan, a Bowden species, is found also in the Gurabo formation, but the La Cruz marl may be the equivalent of the Mao Adentro limestone. It now seems that the faunal differences between the marls at Baracoa and Matanzas, Cuba, and the La Cruz marl at Santiago, Cuba, may be due to difference in ecologic conditions rather than to dijBference in age, the marl at Baracoa and Matanzas and that at Bowden having been deposited in somewhat deeper water than that in which the La Cruz marl and most of the Gurabo formation were deposited. > Maury, C. J., Bull. Am. Paleontology, vol. 5, p. 433, 1917. ' Vaughan, T. W., U. S. Nat. Mus. Bull. 103, p. 211, 1918. 100 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN REPUBLIC. Deposits of nearly the same age as the Gurabo formation are known in Costa Rica, Panama, Colombia, and other parts of northern South America, and probably in Trinidad and Martinique. An attempt to correlate the Cercado and Gurabo formations with the Miocene deposits of the southeastern United States involves diflBculties because of differences in faunal facies due to differences in climate. The Alum Bluff formation of Florida, comprising, in ascending order, the Chipola marl, Oak Grove sand, and Shoal River marl members, is con- sidered BurdigaKan in age. Of these three stratigraphic units the Chi- pola marl was deposited under climatic conditions that most closely ap- proached the conditions in the West Indies, although the fauna of the Chi- pola marl is very warm temperate to subtropical and not tropical. The faunas of the Oak Grove sand and Shoal River marl have a cooler water facies. The Baitoa formation of the Dominican Republic appears to be the correlative of the Chipola marl. In Florida the only subtropical fauna that is younger than the Chipola is the Pliocene Caloosahatchee fauna. In many respects the molluscan faunas of the Cercado and Gurabo formations, as well as that of the Bowden marl, are more similar to the Caloosahatchee fauna than to the Chipola or other Alum Bluff faunas. In 1917 Woodring' stated that the Bowden marl is distinctly younger than the Alum Bluff formation, and as the Alum Bluff formation was then considered upper Oligocene he suggested that the Bowden marl was Burdi- galian, but the Gurabo formation, like the Bowden marl, is doubtless younger than the Alum Bluff formation, and is probably the equivalent of part of the Chesapeake group, so that in European terminology it is of Helvetian age. The correlation suggested in the foregoing paragraph differs from that of Vaughan pubUshed in 1918 and 1919^* in that the Gurabo formation and its correlatives are now regarded as one stage younger and the lower three formations of the Chesapeake group as one stage older, or as the equivalent of the European Helvetian. This opinion is a return to that of DalP as against that of Berry "that the Calvert flora indicates a Tortonian age is as conclusive as intercontinental correlations ever can be."^ The table on page 57 is adjusted to these modifications in correlation, but as the correlations are still tentative readjustments may yet be made. Mao Adentro Limestone. Only the corals and moUusks of the Mao Adentro Umestone have been identified, but the collections include a few calcareous algae and a con- siderable number of Foraminifera. The corals represent a reef-coral 1 Woodring, W. P., Johns Hopkins University Circular, March, 1917, p. 254, 1917. ' U. S. Nat. Mus. Bull. 103, pp. 514-516, 586-593, tables opposite p. 569, 595, 1919. • Dall, W. H., The relations of the Miocene of Maryland to that of other regions and to the Recent fauna: Maryland Geol. Survey, Miocene, p. cxliii, 1904. * Berry, E. W., The physical conditions indicated by the flora of the Calvert formation: U. S. Geol. Survey Prof. Paper 98, p. 66, 1916. STRATIGRAPHIC PALEONTOLOGY. 101 fauna and in places constituted reefs. The type locality of the formation is at stations 8532 and 8533, opposite Mao Adentro, on Rio Mao, where 18 species of corals were collected. Station 8531 is on the same river farther downstream. The stratigraphic relations of these exposures to the Gurabo formation are entirely clear. The total number of species of corals col- lected at the two localities is 26. The exposure at station 8663, on Arroyo las Lavas, is correlated with the Mao Adentro limestone because of faunal similarity, as about 14 out of 18 species (about 80 per cent) of the corals collected at the type locality of the formation occur also at station 8663. However, the total number of species obtained at station 8663 is about 34. A comparison of the Ust of species of the Mao Adentro limestone with that of the Gurabo formation shows that the faunas of the two formations have many species in common; in fact there is very Uttle difference between the fauna bf the upper part of the Gurabo and that of the Mao Adentro. The strata exposed at stations 8556 and 8735, bluffs TJ and W on Rio Gurabo, might, according to the fossils, be referred with almost equal propriety to either of the formations. The moUuscan fauna of most coral reefs is meager, and it is therefore not surprising that only 19 species were collected from the Mao Adentro Hme- stone. Most of these were collected at Arroyo las Lavas (station 8663). All the species determined except one, which is confined to this horizon, occur also in the Gurabo formation. Although most of these species have been found in the upper part of the Gurabo formation, Conocerithium gurabense (Maury), the most abundant species at station 8663, occurs in the lower part of the Gurabo formation at stations 8715 and 8519. As the Mao Adentro limestone is faunally so similar to the Gurabo forma- tion it should probably be considered middle Miocene, slightly younger than the Gurabo. Mao Clay. The fauna of the Mao clay is very meager. It includes one species of coral and nine species of MoUusca. Only one of the determinable species of MoUusca is confined to this horizon. All the other species occur in the Gurabo formation, and one of them, Cancellaria (Bivetia) epistomifera Guppy, is also found in the Cercado formation. There is no evident faunal basis for recognizing the Mao clay as a separate formation. The reason for assigning a distinctive name to it is given on page 75. Monte Cristi District. As it is not practicable to apply with certainty the formation names used east of Rio Cana to the deposits examined by Mr. Ross in the vicinity of Monte Cristi the collections made near that town are listed separately from those made from the Miocene formations of the north side of the Repub- lic. (See pp. 153-154.) The exposure at station 8780 represents a horizon 102 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN REPUBLIC. either near the top of the Gurabo formation or the Mao Adentro limestone. The collection from station 8783 (El Morro de Monte Cristi, altitude 153 meters) represents the Gurabo formation, and that from station 8774 (alti- tude 155 meters) probably belongs to the same formation. These deter- minations essentially corroborate the opinion of Doctor Maury regarding the age of these beds.^ The collections from stations 8777 and 8778 are apparently from a horizon high in the Yaque group, for they include Area (Scapharca) patrida Sowerby, which was collected by the Maury expedi- tion^ on Rio Cana from beds in the upper part of the Gurabo formation or above the Gurabo formation. This species was not collected by the expedition of 1919 on the south side of the valley of Rio Yaque del Norte. YAQUE GROUP, SOUTH SIDE. Although the fossils collected from the Yaque group on the south side of the RepubUc are numerous and comprise more than 50 species of corals, about 120 species of mollusks, and many other organisms, including abun- dant unidentified Foraminifera, they afford no adequate basis for precise correlation of the formations of the south side with those of the valley of Rio Yaque del Norte. This is due to lack of precision in the data on the stratigraphic relations of the beds from which the collections were made and to apparent mixtures of faunas of different ages at some of the localities. One locality that appears to be the correlative of the upper part of the Gurabo formation is station 8622, where at least 9 out of 14 species of corals seem to be common to the Gurabo. At station 8621, however, which according to the field notes is stratigraphically higher than station 8622, the MoUusca indicate that the horizon is that of the Cercado formation. The collections from stations 8572, 8590, and 8760 include a species of Orthaulax that, according to Doctor Cooke, is [Orthaulax aguadillensis Maury, which is found also in the upper Oligocene Cevicos limestone of the Cibao Valley and in the Aguadilla limestone of Porto Rico. The collec- tions from stations 8572 and 8590 probably represent more than one horizon. The Mollusca collected at stations 8570 and 8760, apparently from a single horizon, indicate that the south side Orthaulax horizon occupies a position between the Baitoa formation and the Cercado formation or even higher. Aside from Orthaulax this horizon is characterized by a new species of Scapharca that closely resembles Area (Scapharca) patrida Sowerby. In the valley of Rio Yaque del Norte A. patrida is apparently confined to a horizon in the upper part of the Yaque group. Perhaps some beds at other localities may be correlated with some on the north side after the collections have been more critically studied, but as the collections can not be referred to their precise positions in the stratigraphic 1 Maury, C. J., Bull. Am. Paleontology, vol. 5, p. 450, 1917. 'Idem, p. 441. STRATIGRAPHIC PALEONTOLOGY. 103 sections and as some of them represent mixed faunas adequate strati- graphic knowledge of the Yaque group in the southwest part of the Republic can be obtained only through additional field work. It seems, however, that the principal formations of the Cibao Valley are represented by con- temporaneous deposits on the south side. CEBROS DE SAL FORMATION. Only corals and mollusks are hsted from the Cerros de Sal formation. The corals do not indicate the precise position of the formation in the Miocene series, but the mollusks may afford ground for a more definite opinion. The moUuscan f aunules at the four localities at which collections were made have only a few species in common and most of these species are pelecypods. The collection from station 8591 is remarkable for the large proportion of pelecypods, which outnumber the gastropods by 100 per cent. The fauna is evidently younger than any of the faunas of the Yaque group on both the north and south sides of the island, for it includes a larger number of Recent species or Recent specific stocks, especially among the pelecypods. The formation can not yet be definitely correlated with European di- visions, but if the correlations suggested for the older subdivisions of the Dominican Miocene are correct it should be Tortonian or younger, perhaps Sarmatian or Pontian. MIOCENE OR PLIOCENE IN DISTRICT OF SAMANA. The plants and fresh or brackish water MoUusca collected at S&nchez (stations 8607, 8764, 8684, and 8685) include the largest collection of fossil plants made during the reconnaissance. The stratigraphic significance of these plants is not yet known, but the beds in which they were found are greatly deformed, so that considerable earth movement has occurred since their deposition. PLEISTOCENE OR YOUNGER. Nearly all the Pleistocene or later corals and mollusks listed on pages 166-168 are now living in West Indian waters, and the few species that seem to be new may yet be found there. The close of Pleistocene time in North America, according to geologic opinion, was marked by the retreat of the last Wisconsin ice cap, between 10,000 and 30,000 years ago, but as the tropics were not directly affected by glaciation it is not always possible to distinguish between tropical Pleistocene and Recent deposits, for at least the marine faunas of the two epochs are almost identical. The reference of a marine deposit within the tropics to the Pleistocene must therefore de- pend upon indirect evidence derived from a study of geologic history, and as the geology of the Dominican Republic has been studied merely in a re- connaisance way only rather general statements as to the deposits of these ages are now warranted. Along much of the southern lowland of the Re- public Miocene limestone is overlain by coralhferous limestone containing 104 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. remains of species of corals that are still living. By referring to page 82 it will be seen that this coralliferous limestone is crossed by streams whose lower stretches have been slightly submerged and that there may have been slight emergence after the submergence. These events indicate a consider- able lapse of time after the limestone was formed and would appear to justify its reference to the Pleistocene series. Other possible evidence of the age of this limestone may also be con- sidered. Most geologists who have studied the subject hold that diiring the existence of the continental ice caps the sea level was lowered in the tropics because so much water was locked up in the glaciers. After the glaciers melted the sea level was raised by the return of the water to the ocean. It is therefore at least probable that the drowning of the mouths of the valleys that cross the limestone containing species still Kving was due to water returned to the ocean by the melting of the Wisconsin ice sheet. The limestone may therefore be of Pleistocene age.^ The considerations thus presented apply particularly to the elevated coral-reef limestone of the District of Macorfs and the Province of Santo Domingo. Parts of the "coast limestone" may be later than Pleistocene. (For a discussion of the phenomena around Enriquillo Basin see page 77.) EXTINCT MAMMALS OF THE DOMINICAN REPUBLIC. No mammaUan remains were collected during the geologic reconnaissance but as such remains have a bearing on the geologic history of the West Indies it may be noted that G. S. Miller, Jr., has recorded'' the rodents Isolohodon portoricensis AUen, Plagiodontia aedium F. Cuvier, and Bro- tomys voratus Miller, from collections made in kitchen middens at San Pedro de Macorls by Dr. Theodor de Booy and at San Lorenzo by Dr. W. L. Abbott. The geologic significance of these animals becomes obvious when they are considered in connection with the faunas of Cuba, Porto Rico, and other West Indian islands. Miller says, regarding the West Indian hystricine rodents: They suggest direct descent from such a part of a general South American fauna, probably not less ancient than that of the Miocene, as might have been isolated by a splitting off of the Archipelago from the mainland. Of later influence from the continent there is no trace. In subsequent field work in the RepubHc it is highly important that In- dian dwelling sites and caves should be thoroughly explored for vertebrate remains in order to increase our knowledge of the extinct mammals. 1 For a disousaion of West Indian shore-line features, see Vaughan, T. W., Fossil oorala from Central America, Cuba, and Porto Rico, with an aooount of the American Tertiary, Pleistocene, and Recent ooral reefs: U. S. Nat. Mus. Bull. 103, pp. 189-524, pis. 68-152, 1919, especially pp. 263-306. > Bones of mammals from Indian sites in Cuba and Santo Domingo: Smithsonian Misc. Coll., vol. 66, No. 12, pp. 10, 1 pi., 1916. STHATIGEAPHIC PALEONTOLOGY. 105 LISTS OF LOCALITIES AND FOSSILS. EOCEITE. List of stations on north side. 8705 (D. C. 35). Province of Puerto Plata, along railroad above Altamira, north slope. Specimens from limestone in conglomerate boulders. D. D. Condit, collector. April 22, 1919. 8707 (D. C. 36). Province of Puerto Plata, 0.8 kilometer south of Sabana de P6rez, along the railroad from Puerto Plata to Altamira. D. D. Condit, collector. April 22, 1919. 8708 (D. C. 38). Province of Puerto Plata, Las Lajas, sandstone in contact with basal complex. D. D. Condit, collector. April 22, 1919. 8711 (D. C. 40). Province of Puerto Plata, 0.8 kilometer southeast of Altamira. D. D. Condit, collector. April 23, 1919. §721. Province of Santiago, southern foot of Monte Cristi Range, north side of Damajagua. Limestone float. T. W. Vaughan, collector. April 29, 1919. 8722 (D. C. 48). Province of Santiago, head of Yaroa Creek. D. D. Condit, col- lector. April 26, 1919. 8725 (D. C. 51). Province of Santiago, between Damajagua, a camp at base of moimtains noith of Esperanza, and the southern foot of the Monte Cristi Range. T. W. Vaughan and D. D. Condit, collectors. April 29, 1919. 8725o. Same locaUty as 8725. Faunal list. Stationa. Species. Prov. Puerto Plata. Prov. Santiago. 8705 8707 8708 8711 8721 8722 8725 8725a Foraminifera: X X X X X X X X 1 X X X X X X Orthophragmina sp. c£. 0. minima Cuah- X X Orthopbragmina sp. (stellate apeciea) X X X Lepidocyclina sp. cf. L. antillea Cush- X X X Lepidocyclina sp. cf . L. aubraulinii Cush- X X X X X X X X X X X X X 1 Throughout the faunal lists undetermined species of a genus are listed together on the same line in the ooality columns, although the species at those localities may not be identical. 106 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. List of stations on south side. 8614. Province of Santo Domingo, road from Bani to San Cristobal about 0.8 kilo- meter east of Cruz de los dos Caminos and about 5.2 Idlometers east of Bani. C. W. Cooke and D. D. Condi*-., collectors. June 10, 1919. 8562 (D. C. 75). Province of Azua, Foraminiieral limestone fiom gravels on the Biinica-Las Matas road at half-way point. D. D. Condit, collector. May 17, 1919. 8608 (C. 84). Province of Azua, rubble on roadside north of Arroyo Salado near Higuero Largo; road from Tdbano to Las Yayas, altitude 495 meters above sea level. C. W. Cooke, collector. May 26, 1919. 8644. Province of Azua. Loose rubble from Higuerito, Azua oil fields. D. D. Condit, collector. 1919. 8595 (D. C. 94). Province of Barahona, Foraminiferal limestone from point on mountain slope 2.5 kilometers north of Barbacoa, altitude about 180 meters; none of the material was in place. D. D. Condit, collector. May 29, 1919. 8626 (R. 57). Province of Barahona. Limestone pebbles with Foraminifera from point near Rancho Viejo; traverse of June 3, 1919, Sierra de Bahoruco. C. P. Ross, collector. 8627 (R. 58). Province of Barahona, Foraminiferal limestone, traverse of June 3, 1919, Sieira de Bahoruco, west slope of Canada de Rancho Viejo. C. P. Ross, collector. 8576 (D. C. 97). Prov'nce of Barahona, rubble from near sea beach south side of Rio Cafia and about 8.5 kilometers south of Barahona. D. D. Condit, collector. June 4, 1919. Faunal list. Stations. Species. Prov. Santo Do- mingo. Prov. Azua. Prov. Barahona. 8614 8562 8608 8644 8595 8626 8627 8576 Foraminifera: Textularia sp. cf. T. agglutinans d'Orbigny X Textularia sp. (coarse species) X Textularia sp X Textularia ? sp X Globigerina ep. (large species) X X X Conulites sp ^ X Carpenteria monticularis Carter? ~ X X Nummulites? sp X X X X X Orthophragmina sp. cf. 0. subtaramellei Orthophragmina sp. (stellate species). _ X Lepidocyclina antillea Cushman X Lepidocyclina sp. cf. L. antillea Cush- man X Lepidocyclina subraulinii Cushman X X X liepidocyclina sp. cf. L. subraulinii Cushman X Lepidocyclina perundosa Cushman X X Lepidocyclina sp. cf. L. duplicata Cush- man „ _ Operculina? sp X Bigenerina? sp X Spiroloculina sp X X X Quinqueloculina sp Triloculiua sp Gen. 7 and sp. 7 (same as species from upper Eocene of Cuba) X STRATIGEAPHIC PALEONTOLOGY. 107 MIDDLE OLIGOCENE. LAst 0/ stations on north side. 8669 (D. C. 24). Province of La Vega, Tabera, on Rio Yaque del Norte, about 0.5 kilometer southwest of the village; fossils from conglomerate. D. D. Condit, collector. April 17, 1919. 8671 (D. C. 26). Province of La Vega; fossils in limestone on trail from Tabera to Canon of Rio Yaque del Norte. D. D. Condit, collector. April 18, 1919. 8713 (D. C. 42). Province of Santiago, El Lim6n; trail from Altamira to Santiago; specimens from limestone ledge above valley to southwest. D. D. Condit, collector. April 23, 1919. 8672 (D. C. 27). Province of Santiago, Baitoa, on Rio Yaque del Norte; fossils from conglomerate. D. D. Condit, collector. April 18, 1919. 8557 (C. 63). Province of Santiago, bluff on right bank of Rio Yaque del Norte below Baitoa; fossils from gray conglomerate and sandstone, steeply tilted, in lower part of bluff. C. W.€ooke, coUector. May 14, 1919. 8719 (D. C. 47 A). Province of Santiago, Yaroa village, about 17 kilometers north of Pena. D. D. Condit, collector. April 26, 1919. 8673 (D. C. 30). Province of Santiago, on Rio Yaque del Norte from Baitoa down to mouth of Rio Bao; from blue shales. D. D. Condit, collector. April 19, 1919. 8740 (D. C. 49). Province of Santiago, Los Cacaos, north of Pena, near head Rio Licey. D. D. Condit, collector. April 26, 1919. 8741. Province of Santiago, near Tabera, exact locality unknown; probably from Oligocene limestone on Rio Yaque del Norte. D. D. Condit, collector. 1919. 8704 (D. C. 34). Province of Santiago, from shale below principal limestone series on Las Lavas Creek above Las Lagunas on Altamira trail. D. D. Condit, collector. April 21, 1919. Faunal lid. stations. Species . Prov. La Vega. Prov. Santiago. 8669 8671 8557 8719 8740 8741 Foraminifera: X X Nummulites sp. cf, N. panamensis Cushman.... ■^ X X Lepidocyclina sp. cf. L. schlumbergeri Lemoine and R. X X Lepidocyclina sp. cf . L. canellei Lemoine and JR. Douvill^.. X X X X X X X " 108 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN BEPUBLIC. Faunal list — Continued. Stations, Speoiea. Prov. La Vega. Prov. Santiago, Rio Yaque del Norte. 8669 8713 8672 8557 8673 8741 8704 Corals: Pocillopora n. sp „.- X X X Stylophora n. sp. (cf. an unpublished species Stylophora n. sp X X X X X X X X X X X T 7 X X X X X X Psammoeora sp _ Astreopora sp. (near species in Antigua and the X X X X X X X X X 8557 8672 MoUusca: Gastropoda; Conus sp.. Echtracheliza ? sp... Echtracheliza 7 sp... Strombus sp... Ceritbium sp. (large species).. Cerithium sp... Fotamides (7) ormei Maiiry... Peleoypoda; Ostrea sp. indt _.... _ Chama sp... Pecten (Aequipecten) sp. indt.. Pecten (Plagioctenium? ) sp X X X X X X X X X X List of stations on south side. 8565 (D. C. 77 B). Province of Azua, left bank of Kio San Juan, about 1.7 kilometers west of Los Bancos, fossils from a point about 100 meters higher stratigraphicaUy than those at station 8564 (D. C. 77A). D. D. Condit, collector. May 21, 1919. 8564 (D. C. 77A). Same locality as 8565, but about 100 meters lower stratigraphicaUy. D. D. Condit, collector. May 22, 1919. STBATIGRAPHIC PALEONTOLOGY. 109 8567 (D. C. 80). Province of Azua, from limestone along right bank of Rio de las Cuevas, about 2.5 kilometers west of Ttibano. D. D. Condit, collector. May 22, 1919. 8617 (R. 41). Province of Azua, Las Cuevas, on Rio San Juan, north of San Juan. C. P. Ross, collector. May 19, 1919. 8618 (R. 42). Province cf Azua, from limestone hill at Majagual, on Rio San Juan north of San Juan. C. P. Ross, collector. May 19, 1919. 8619 (R. 43). Province of Azua, from station 5 of traverse of May 22, on Rio Yaque del Sur near Los Bancos. C. P. Ross, collector. May 22, 1919. Faunal list. Species. Stations. Rio Yaque del Sur. 8619 Prov. Azua. Rio de las Cuevaa. 8567 Rio San Juan. 8617 8618 Corals; Stylophora sp.... Antiguastrea oellulosa (Duncan).. Cyathomorpha tenuis (Duncan).. Cyathomorpba antiguensia (Duncan)?.. Cyathomorpha 7 sp... Astreopora sp. cf. A. antiguensia Vaughan.. Astreopora sp X X X X X Prov. Azua. 8565 8619 Mollusca: Gastropoda: Bullaria sp _ "Mangilia" sp , Fusus sp. indt Xancua ? sp _ Phos ? sp. indt Echtracheliza ? sp Natica sp Neretina sp Scaphopoda: Cadulus n. sp Pelecypoda: Limopsia n. sp. a... Glyoymeris 7 sp Ostrea sp Pecten (Pseudamusium) sp. Dreissena ? sp Venericardia sp Plants: Sophora cookei Berry X X X X X X X X X X X X X ..Station 8564 110 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. UPPER 0LI60CENE. List of stations on north side. 8598 (C-8). Province of La Vega, east side of Arroyo Blanco (?), east of Loma de los Pales, on road from CotuI to Cevicos. C. W. Cooke and C. P. Ross, collectors. April 21, 1919. 8600 (C-10). Province of La Vega, east of Cevicos, on northeast side of Arroyo Barranca, on road to ViUa Rivas. C. W. Cocke and C. P. Ross, collectors. April 22, 1919. 8601 (C-11). Province of La Vega, Arroyo Jerguen; road from Cevicos to Villa Rivas. C. W. Cooke and C. P. Ross, collectors. Apiil 22, 1919. 8602 (C-12). Province of La Vega, northeast side of Arroyo Jerguen, about 4.5 meters below top of hill. C. W. Cooke and C. P. Ross, collectors. April 22, 1919. 8603 (C-13) . Province of La Vega, at second C?) crossing of Arroyo Barranca on trail from Cevicos to Villa Rivas. C. W. Cooke, collector. April 22, 1919. 8604 (C-14) . Province of La Vega, at second (?) crossing of Arroyo Barranca on trail from Cevicos to Villa Rivas, 9-12 meters above 8603 (C-13). C. W. Cooke, collector. April 22, 1919. Faunal list. Species. Stations. Prov. La Vega. 8598 8600 8603 8604 Foraminifera: Biloculina 7 ep... Orbitolites (Sorites) duplex Carpenter... X 7 Orbitolites sp. of. species at station 8600... Heterosteginoides 7 sp Corals: Orbicella sp. or Cyatbomorpha sp Ecbinii; Clypeaster concavus Cotteau... X X Brissopsis antillaruiu Cotteau... X X Mollusca; Gastropoda: Bullaria sp.. 8598 8601 8602 8603 Orthaulax aquadillensis Mauiy... Turritella sp Natica 7 sp. indt Pelecypoda: Ostrea sp. indt... X X Pecten (Aequipecten) sp. cf. P. vaun Cooke... Pecten (Aequipecten) sp Cardium ? sp... Cardium (Tracbycardium) sp..., Cardium (Trigonicardia) sp Cardium (Laevicardium?) sp Protooardia 7 sp Pitaria 7 sp... X X X Chione (Liropbora) sp... Cephalopoda: Aturia ? sp X X STRATIGEAPHIC PALEONTOLOGY. Ill PROBABLY OLIGOCENE. hist 0/ stations cm north side. 8606 (C-16). Province of Samand, nesr top of Sierra Prieta, a hill on road to Matan- zas, about 17 kilometers northwest of SAnchez; coral limestone. C. W. Cooke, collector. AprU 25, 1919. 8675 (C-1). Province of Puerto Plata, north slope of Monte Isabel de Torres, above Puerto Plata; loose lumps of coral picked up on surface 300 meters above sea level. D. D. Condit and C. W. Cooke, collectors. March 30, 1919. 8605 (C-15). Province of La Vega, coral reef, first high hill on road from Cevicos to Villa Rivas. C. P. Ross, collector. April 22, 1919. 8703 (D. C. 33). Province of Santiago, Las Lavas Creek near first exposure above Las Lagunas on Altamiia trail; fossils in conglomerate. D. D. Condit, collector. April 21> 1919. 8775 (R. 26). Province of Monte Cristi, on seashore 5 kilometeis northeast of Rodriquez house, which is about 25 kilometers northeast of Monte Cristi. C. P. Ross, collector. May 4, 1919. Faunal list. Stations. Speciea. Prov. Sa- mand. Prov. Puerto Plata. Prov. La Vega. Prov. San- tiago. Prov. Monte Cristi. 8606 8675 8605 8703 8775 Foraminifera: Carpenteria sp. X X X Amphistegina sp. , Corals: Stylophora sp. , . X X Orbicella sp. aff, O. canalis Vaughan X X X Orbicella sp X Orbicella ? sp X Maeandra sp. aff. M. labso-intliiformis (Linn.) X X Siderastrea sp. aff. S. conferta (Duncan) Siderastrea sp. , X X Fsammocora 7 sp .-. X X Astreopora sp. aff. A. antiguenais Vaughan X X X Goniopora sp. aff. a massive large-oaliced species X X X X Goniopora ap. aff, G. decaturensis Vaughan. Goniopora sp. aff. G. microscopica (Duncan) X Station on south side. 8569 (D. C. 82). Province of Azua, station 12 of traverse on right bank of Rio Yaque del Sur, about 1.6 kilometers northwest oi La Trinchera, opposite Bastia. D. D. Condit, collector. May 23, 1919. 112 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Faunal list. Species. Station. 8569 Foraminifera: - Globigerina sp... Amphistegina ? sp HeteroBtegina ? sp. or Operculina 7 sp.-. Gypsina globulus Reuss, small form X X X X APPARENTLY UPPER OLIGOCENE. List of stations on south side. 8691 (D. C. 12). Province of Santo Domingo, foothills of Monte Calabaza, 3.5 kilometers north of San Cristobal. C. W. Cooke and D. D. Condit, collectors. Apri 7, 1919. 8692 (D. C. 13). Province of Santo Domingo, foot of Monte Calabaza, about 3.5 kilometers north of San Cristobal. C. W. Cooke and D. D. Condit, collectors. April 7, 1919. 8693 (D. C. 14) . Province of Santo Domingo, slope of Monte Calabaza. C. W. Cooke and D. D. Condit, collectors. April 7, 1919. 8674. Province of Santo Domingo, 24 kilometers from Santo Domingo City en load to San Cristobal; altitude about 60 meters above sea level. T. W. Vaughan, collector. April 6, 1919. Faunal list. Species. Prov. Santo Domingo. 86910 8692 8693 8674 Corals: X X Orbicella imperatoria Vaughan X Agprip-ift, prnhnhly 9. Hppcip» X X Fsammocora sp. (seems to be the same species as at station 8741) X Molluaca: Gastropoda: Turris ? sp. a X X X X X X Turris? sp. b „ "Drillia"? sp Strombus sp. indt Pelecypoda: Pecten sp X X a The limestone at this locality consists principally of calcareous algae. STEATIGRAPHIC PALEONTOLOGY. 113 MIOCENE. YAQtJB GROUP, NORTH SIDE. Baitoa Formation. Idst of stations. 8668 (D. C. 29). Province of Santiago, Baitoa, bluff of yellow sandstone along Rio Yaque del Norte. D. D. Condit, collector. April 19, 1919. 8558 (C-64). Province of Santiago, fossils fallen from upper part of bluff on right bank of Rio Yaque del Norte below Baitoa. C. W. Cooke, collector. May 14, 1919. 8559 (C-65). Province of Santiago, roadside at top of Mil leading down to Baitoa on road from Santiago. C. W. Cooke, collector. May 15, 1919. Faunal list. Speciea. Bio Yaque del Norte. 8668 8558 8559 Corals: Stylophora sp.... Madracis sp. (with only 8 principal septa) Antillia' 7 sp Orbicella sp., cf. species from lower Miocene of Trinidad.. Psammocora ? sp., cf. species from lower Miocene of Trinidad.. Goniopora sp., cf. species 'from Chipola marl of Florida Bryozoa; Cupularia denticulata DefranCe Mollusca: Gastropoda; Ringicula n. ap. a, cf. R. domlnicenais Maury Terebra (Strioterebra) gatunensis Toula- Terebra (Strioterebra) sp. indt... Conua williamgabbi Maury Conus n. ap. b Conus n. sp. e Conus n. sp. p... Surcula (Fleurofuaia) n. sp. b, u. subsp. a'.. Turris (Plcuroliria) haitensis (Sowerby)?. "Drillia" henekeni (Sowerby) n. subsp. a'... "Drillia" consors (Sowerby) n. subsp. a' "Drillia" n. sp. x "Drillia" sp. indt Mierodrillia n. sp. a. Cancellaria n. sp. a Oliva n. sp. b Marginella n. sp. j.. Mitra (Cancilla) u. sp. a, cf. M. henekeni Sowerby... Mitra (Cancilla) n. sp. b, cf. M. longa Gabb Mitra (Cancilla) sp. indt.. Vaaum tuberculatum Gabb Melongena consors (Sowerby).., Fasciolaria kempi Maury Xancus validus (Sowerby) Phos semicodtatua Gabb Phos costatus Gabb Alectrion sp... Strombina ap. cf. S. cyphonotua Pilsbry and Johnaon.. Cymia henekeni Maury Distortio simillima (Sowerby)? Ortbaulax inornatus Gabb Cerithium (Vulgocerithium) ap Potamides sp _ Clava n. sp. c X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 114 GEOLOGICAL KECONNAISSANCE OF THE DOMINICAN REPUBLIC. Faunal list — Continued. Species. Mollusca — Continued : Gastropoda — Continued : Turritella praecellens Pilsbry and Brown Turritella n. ap. b a, cf. T. gatimensis Conrad.. Natica sp. indt... Neverita nereidis Maury... Pyramidellidae Scapliopoda: Cadulus phenax Pilsbry and Sharp... Cadulus sp. indt Pelecypoda: Nucula tenuiflculpta Gabb, Leda sp.. . subsp. &'. Area (Scapliarca) hispaniolensis Maury Area (Seapharra) arthurpennelli Maury n. subsp b'. Area (Argina) n. sp. b, cf. A. tolepia Dall Glyeymeris aeutieostatua (Sowerby)? Ostrea folium Linnaeus... Ostrea insularis Pilsbry and Brown ?... Chama sp. indt.. Phacoides fParvilucina) n. sp. a. ef. P. yaguensis (Gabb).. Piiaeoides (Parvilucina) n. sp. b Divaricella sp. indt... Alveinus n. sp ef. A. rotundus Dall... Cbione sp. indt Ervilia n. sp. Corbula dominicensia Gabb... Corbula sp. indt Rto YaQue del Norte. 866S 8558 X X X 2spp. X X X X X X X X X X X X X X X X X X X X X X Cercado Formation. lAst of stations. (See Plates IX and XI for maps of Rio Mao and Rio Gurabo.) 7786. Province of Santiago, Rio Mao, "Bluff 3, 5 miles above Cercado de Mao." C. J. Maury, collector. May 1916. (Same as station 8525 of Vaughan and Cooke.) Province of Santiago, Rio Mao, "Bluff 2, 4 miles above Cercado de Mao." C. J. Maury, collector. May 1916. (Same locality as station 8526 of Vaughan and Cooke.) 7781. Province of Monte Cristi, "Rio Cana, zone H, at Caimito." C. J. Maury, collector. May 1916. (This is the same locality as station 8534 of Vaughan and Cooke.) Province of Monte Cristi, Rio Cana, above Caimito, zone I. C. J. Maury' collector May 1916. 8729 (D. C. 65). Province of Santiago, Rio Albano near San Jos6 de las Matas. D. D. Condit, collector. May 2, 1919. 8529 (C-35). Province of Santiago, fossils from near top of bluff on right side of Rio Mao about 1.0 kilometer by trail N. 40° E. of Bulla and about 1.7 kilometers above the ford El Paso de los Perros. T. W. Vaughan, C. W. Cooke, and D. D. Condit, collectors. May 5, 1919. 8525 (C-31). Province of Santiago, long bluff on left bank of Rio Mao opposite Hato Viejo, about 5 kilometers above the ford (Paso Bajito) at Cercado de Mao. T. W. Vaughan, C. W. Cooke, and D. D. Condit, collectors. May 5, 1919. 8526 (C-32). Province of Santiago, second bluff on left side of Rio Mao about 3.5 kilometers by trail above the ford (Paso Bajito) at Cercado de Mao. T. W. Vaughan and C. W. Cooke, collectors. May 6, 1919. 8521 (C-27). Province of Santiago, bluff on right bank of Rio Mao about 1.7 kilo- meters above Paso Bajito at Cercado de Mao, fossils from basal 4.5 meters of section. T. W. Vaughan and C. W. Cooke, collectors. May 4, 1919. STRATIGRAPHIC PALEONTOLOGY. 115 8737 (D. C. 64). Province of Monte Ciisti, Rio Gurabo, about 5 miles above Gurabo Adentro; base of coralliferous limestone and above conglomerate. D. D. Condit col- lector. May 9, 1919. 8738 (D. C. 64 A). Province of Monte Cristi, Rio Gurabo about 8.5 kilometers above Gurabo Adentro; beds near base of coralliferous limestone and above conglomerate. D. D. Condit, collector. May 9, 1919. 8534 (C-40). Province of Monte Cristi, -bank of Rio Cana at Caimito, road from Las Caobas to Sabaneta. T. W. Vaughan and C. W. Cooke, collectors. May 10, 1919. Faunal list. Species. Bluffs Kio Mao (= 7786) Bluff 2 Rio Mao (= 8526) ZoneH RioCaua (= 8534) Zone I Rio Cana Foraminifera: Bulimina ovata d'Orbigny... Globigerina bulloides d'Orbigny Globigerina inffata d'Orbigny Globigerina conglobata H. B. Brady... Orbulina univeraa d'Orbigny... X X X Diacorbis orbicularis (Terquem) , Truncatulina lobatula (Walker and Jacob).., Truncatulina haidingerii (d'Orbigny) Gypsina inbaerens (Schultze) Gypsina globulus (Reusa).. X X Asterigerina carinata d'O.rbigny...., Asterigerina angulata Cushman.. X X Asterigerina tuberculata Cushman.. Amphistegina lessonii d'Orbigny, evolute var Nonionina grateloupi d'Orbigny Nonionina sloani d'Orbigny Polyatomella sagra (d'Orbigny) Polyatomella lanieri d'Orbigny.. X X X X X X X X X X Polyatomella atriatopunctata (Fichtel and Moll) Quinqueloculina agglutinans d'Orbigny Quinqueloculina sp. cf. Q. kerimbatica (Heron-Allen and Earland). X X X X X X X X X X X Quinqueloculina cuvieriana d'Orbigny Quinqueloculina auberiana d'Orbigny Quinqueloculina pulchella d'Orbigny Quinqueloculina gaulteriana d'Orbigny... Triloculina fichteliana d'Orbigny Vertebralina cassis d'Orbigny Biloculina ap... X X ? X X X X X X X X X X Peneroplis pertusua Forakal var. discoideus Flint... Peneroplia pertusus Forskal var Orbiculina adunca (Fichtel and Moll) Orbitolitea aomplanata (Lamarck) var X X X X X Species. Rio Mao. Rio Gurabo. Rio Cana. 8525 8526 8521 8737 8738 8534 7781 Corals: Placocyathus variablia Duncan X X X X Placocyathua n. sp. a, var X X X ^ X X Antillia bilobata Duncan X X X X X Orbicella sp Solenastrea bournoni M. Edw. and H X X "^ Thysanus corbicula Duncan X X X X X Maeandra sp. aff. M. labyrinthiformis (Linn.)— ■ Syzygophyllia gregorii (Vaughan) X Agaricia n. sp. d X X X Siderastrea siderea (Ell. and Sol.) X X X Poritea sp X X 116 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN BEPUBLIC. Faunal list — Continued. Species. i II 1 o s CO 1 ■3 g s CO s 1 00 00 d 1 1 1 O 3 S Bryozoa: X X X X X X Acanthodesia aavarti (Savigny-Audouin) forma monilifera X X X X X X i Thalamoporella biperforata Canu and Baasler Y X X X X X X X . Rmitt'Tin, ' hrpviq rinn^i j\j\t\ Ttpjulnr- X X Adaona poroBa Canu and Bassler X X X X X Species. Kio Albano. Bio Mao. Rio Gurabo. Rio Cana. 8729 8529 8525 8526 8621 8737 8738 8534 MoUusca: Gastropoda: X X X Cavolina sp Antfinn rinmni^TisiR Mn^iry X Acteon torhatilis Gabb not Lin- naeus X X X X Acteocina recta Maury not d'Orbigny X X X Acteocina canaliculata Maury not Say Acteocina n. sp. a X X Eetusa sulcata Gabb not d'Or- X X Cylichnella trictum-tritonis Maury X Cylichnella n. sp. a X X X X X X X X X X X Bullaria paupercula (Sowerby) n. Atys n. sp. a X 7 STEATIGBAPHIC PALEONTOLOGY. Faunal list — Continued. 117 Species. Rio Albano. Rio Mao. Rio Gurabo. Rio Cana. 8729 8529 8525 8526 8521 8737 8738 8534 Mollusca — Continued : Gastropoda — Continued : Atya n. sp. b X X X X X X X X Atys (AUcula) yaquenais (Maury) X X X X Atys (Alicula) n. ap. b Atya (Roxania) doliola Maury Terebra (Strioterebra) eambiarsoi Maury Terebra (Strioterebra) eambiarsoi X " Terebra (Strioterebra) oambiaraoi X Terebra (Strioterebra) cambiaraoi X Terebra (Strioterebra) cambiaraoi X Terebra (Strioterebra) cirra Dall X X X Terebra (Strioterebra) oligomitra X X Terebra (Strioterebra) spirifera X Terebra (Strioterebra) berlinerae X Terebra (Strioterebra) gatunenais X X X X X X X X X X Terebra (Strioterebra) laevifas- X X Terebra (Strioterebra) n. sp. b Terebra (Strioterebra) n. sp. b, n. X Terebra (Strioterebra) n. sp. b, n. X X X X X X X Terebra (new section A) n. sp. a, X Terebra (new section A) n. sp. a, X X X X X X X X X X X X Conus recognitus Maury not X Conus gracilisaimua Guppy n. X X X X X X X ' 118 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN BEPUBLIC. Faunal list — Continued. Rio Albano. Rio Mao. Rio Gurabo. Rio Cana. 8729 8529 8525 8526 8521 8737 8738 8534 MolluBca — Continued : Gastropoda — Continued : X Conus n. sp. e X Conus n. sp. f ...X X Surcula (Pleurofusia) n. sp. a X X X Surcula (Pleurofusia) sp Surcula (Cochlespira) n. sp. a Turris (Pleuroliria) haitensis (Sowerby) X Turris (Pleuroliria) n. sp. a X X X "Drillia" maoisriparum Maury X ? X X "Drillia" henekeni Sowerby X X ^ X "Drillia" n. sp. b "Drillia" n. sp. c X X X ■ "Drillia" n. sp. e "DriUia" n. sp. f X X X X X X X X "Drillia" n. sp. j "Drillia" n. sp. 1 "Drillia" n. sp. m Mangilia maoica Maury X X X X X "Mangilia" laloni s Maury „ X "Mangilia" n. sp. a X "Mangilia" n. sp. c X X X "Mangilia" n. sp. e X X X X X X X X X "Cythara" n. sp. a "Cythara" n. sp. c "Cythara" n. sp. e X X X X X X Glyphostoma n. sp. b Glyphostoma n, sp. c Cancellaria barretti Maury not X X Cancellaria (Bivetia) epistomifera Guppy X Cancellaria (Bivetia) harrisi X Cancellaria (Aphera) ialacolonis X X X X X Oliva brevispira Gabb X X X X Oliva gradata Gabb X Oliva sp X X Olivella n. sp. a X X 1 ' STEATIGEAPHIC PALEONTOLOGY. FaundL list — Continued. 119 Species. Rio Albano. Rio Mao. Rio Gurabo. Rio Cana. 8729 8529 8525 8526 8521 8737 8738 8534 Mollusca — Continued : Gastropoda — Continued: Olivella (Lamprodroma) indivisa X X X X X X Olivella (Lamprodroma) muti- X X Olivella (Lamprodroma) n. sp. a.... X Olivella (Lamprodroma) n. sp. b — X X X X X X X Marginella n. sp. b Marginella (Gibberula) cercaden- X X Mitra (Cancilla) henekeni Sowerby X Mitra (Cancilla) longa Gabb? X X X X X X X Mitra (Uromitra) n. ap. d Mitra (Uromitra) n. sp. e X Xancus praeovoideua Maury X X X Melongena consors (Sowerby) Fusus henekeni Sowerby .. X X ? X X Phos gabbi Dall _ X X Phos sp X X X X X X 7 Aleetrion (Tritia?) golfoyaquensis X X Columbella (Meta?) islahis- paniolae Maury X X Columbella (Meta?) perplexabilis Columbella (Meta?) n. sp. a X X X Atilia (Columbellopsis) exilis (Gabb) X X X X X X Atilia (Columbellopsis) n. sp. b Strombina nannebellae Maury. X X X Murex messorius Maury not Sowerby X X X X X X Murex (Phyllonotus) cornurectus Guppy ~ X Cnrftlli^ipbila, n, (?p a X Simpulum antillarum (d'Orbigny) subsp. cercadicum Maury X X X Cassis sulcifera (Sowerby) X X X Cassis (Semicassis) reclusa Guppy.- ? Cassis (Semicassis) reclusa Guppy n. subsp. X 120 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Faunal list — Continued. Species. Rio Albano. Rio Mao. Rio Gurabo. Rio Cana. 8729 8529 8525 8526 8521 8737 8738 8534 MolIuBca-^Continued : Gastropoda — Continued : X X X X X Cypraea ap X X X X Trivia islahispaniolensis Maury— Erato maugeriae Gray subsp. X Ovula (Radius) wisewoodae X X Strombus proxi mus Sowerby X X Cerithium sp X X X Fotamides (Cerithidea) n. ap X X X X X X X X X X X Bittium n. ap. b ~ Bittium n. sp. d X Bittiolum n. sp. a X X Cerithropsis n. ap. b X Trifnrifl nnlypqoTiifl M^nry X X X X X X X X X X X X Triforis n. ap X X Alabina n. sp. b Epitonium (Spiniscala) gabbi (de Boury) X X Epitonium (Striataacala) cerca- Epitoniujn (Striatascala) n. sp. a.... X • Epitonium (Clathrus) n. ap. .. . X Epitonium (Fuscoscala) riparum X X X X X X Petaloconchua domingenais X X X X X Vermicularia apirata (Philippi) n. Architectonica quadriaeriata X X Ar chitectonica stonemanae X X X d'Orbigny _. X STEATIGRAPHIC PALEONTOLOGY. Faunal list — Continued. 121 Species. Rio Albano. Eio Mao. Eio Gurabo. Rio Cana. 8729 8529 8525 8526 8521 8737 8738 8534 Mollusca — Continued : Gastropoda — Continued : Riasoina crasallabris (Gabb) X X X X X X X X Rissoina n. sp. a Crucibulum n. sp. a X Amalthea n. sp. a — X X X Natica canrena Linnaeus n. subsp. X X X Natica canrena Linnaeus n. subsp. b' X X X Nfttinp, CUppiftTiR Tnulfl Natica youngi Maury X X X Natica (Stigmaulax) sulcata Born.. X X X X X X X X Natica (Cryptonatica) n. sp. a X X X X X X X X X X X X X ? X X Sinum gatunense Maury not X X CoUonia n. sp. b X X X X X X Solariorbis n. sp. a X Teinostoma n. sp. a X X Discopsis derbyi Maury „ X X X X Turbo dominicensis Gabb subsp. X X Turbo dominicensia Gabb u.. Turbo crenulatoides Maury X Astralium sublongispinum X X X X Phasianella (Eucosomia) punc- tata (Gabb) X X X X X X X Calliostoma n. sp. b ~ X X Calliostoma n. sp. d X X X ? X X Neretina (Puperita) fulgopicta X Neretina (Smaragdia) viridi- X X X X X X X X X X X Fissuridea alternata Maury not Say Melanella tethyos Maury Melanella n. sp. b X X 122 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Faunal list — Continued. Species. Rio Albano. Rio Mao. Rio Gurabo. Rio Cana. 8729 8529 8525 8526 8621 8737 8738 8531 MoUusea — Continued: GaBtropoda — Continued : Melanella n. sp. c X X X X Melanella n. sp. d. _ X Strombiformis n. sp. a X X X X X Sabinella n. sp. a X X X Niso n. sp „ X Pyramidellidae 2 sp. 45 sp. X Isp. X 7sp. X X X X Isp. Isp. 5sp. Scaphopoda: Dentalium diasimile Guppy subsp. ponderosum Gabb X X X X Dentalium pyrum Pilabry and X X X X Dentalium praeoursor Pilsbry and Sliarp X X Cadulus phenax Pilsbry and Sharp X X X X X X Cadulus elegantissimus Pilsbry X X Cadulus colobus Pilsbry and X Pelecypoda: X X X X X X X X Leda peltella Maury not Dall X X X X Area (Calloarca) n. sp. a ~. X X X Area (Scapharca) cibaoica Maury.. X X X , 7 X X X ? X Area (Seapharca) henekeni Maury Area (Scapharea) coreupidonis X X X X X Area (Scapharca) arthurpennelli X X Area (Scapharea) arthurpennelli Area (Scapharca) willardausteni X X Area (Scapharca) riooanensis X Glycymeris acuticostata (Sower- by) X X Glycymeris acuticostata (Sower- X X X X X X X Ostrea folium Linnaeus X X X X X Pecten (Aequipecten) thetidis Maury not Sowerby ™. X STRATIGRAPHIC PALEONTOLOGY. 123 Faunal list — Continued. Species. Rio Albano. Rio Mao. Rio Gurabo. Rio Cana. 8729 8529 8525 8526 8621 8737 8738 8534 MoUuBoa — Continued : Pelecypoda — Continued : Pecten (Aequipeoten) oxygonum Sowerby X X Pecten (Aequipecten) n. sp. a X X X 1 X Pecten (Aequipecten) n. sp. o X Pecten (Plagioctenium) excen- tricus Gabb X X X X X X X X X X X ? X Pecten (Plagioctenium) thomp- X Pecten (Plagioctenium) n. ap Pecten (Plagioctenium) ap Pecten (Amusium) papyraoeus Gabb X Pecten (Paeudamusium) n. sp X Spondylus sp. indt Anomia simplex d'Orbigny X Crenella divaricata Maury not d'Orbigny X X X X X X Pandora inconspicua Gabb X Cuapidaria (Cardiomya) isla- hispaniolae Maury. Crasainella guppyi Maury not Dall X X X X Venerioardia scabricostata Maury X X X X X Myrtaea lomasdesamba Maury X X X Lucina n. ap. a X X X X X X X X Phacoides (Lucinisca) hlapani- Phacoides (Parvilucina) yaquensia (Gabb ) X X X X X Phacoides (Miltha) smithwood- wardi Maury Phacoides (Miltha) sp X X Divaricella prevaricata Maury X X X X X X X Diplodonta (Phlyctiderma) punc- X X X X X X X Montacuta maoica Maury Montacuta 7 n. sp. a X Cardium (Trachycardium) tin- tinnabularum Maiury Cardium (Trachycardium) do- minicanum Dall ~ X X Cardium (Trachycardium) sp.indt X X X X Cardium (Trigoniocardia) hai- X X 124 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Faunal list — Continued. Species. Rio Albano. Rio Mao. Rio Gurabo. Rio Cana. 8729 8529 8525 8526 8621 8737 8738 8531 MoUuaoa — Continued : Pelecypoda — Continued : Cardium (Trigoniocardia) hai- tense Sowerby subsp. cercadi- cum Maury X X X X Cardium (Laevicardium) venus- X X - Trn.nHRnnplla n, pp, b X X X X X Callocardia n. ap. a X Gafrarium (Gouldia) n. sp. a X ? X Fitaria (LameUiconcha) plani- X X X Fitaria (LameUiconcha) cercadica Maury Fitaria (LameUiconcha) circinata (Born) Fitaria (LameUiconcha) acutico- 8tata(Gabb) X X X X Chione n. ap. a X X X X Cliione n. sp. b Chione (Lirophora) hendersoni DaU X TeUina (EuryteUina) maoioa Maury. X TelUna (EuryteUina) riocanensis Maury 7 X TelUna (EuryteUina) cibaoioa Maury X TeUina (EuryteUina) n. sp. a X TeUina (MoereUa) n. ap. a X X X X X X TeUina (Meriaca?) ialahispaniolae Maury TelUna (Merisca) crystalUna Maury not Chemnitz TeUina (Scissula) cercadica TeUina (Scissula) soitula DaU X X X X TeUina (Scissula) n. ap. a TeUina sp. indt X •X X StrigiUa pisiformis (Linnaeus) — X X X X Macoma n. sp. a X Macoma (Paammacoma) yaquen- ais Maury X X X X X X Semele claytoni Maury ... X Donax aegualia Gabb..... . . X X X Donax n. sp. a Fsammosolen sanctidominici Maury X ? X ? ErviUa n. ap. b X X Corbula cercadica Maury X X X X X X X X X Corbula (Aloidis) vieta Guppy X X X X Corbula (Brothrooorbula) vi- minea Guppy ., X X X X X ClavigeUaap ' ' 1 - STRATIGRAPHIC PALEONTOLOGY. 125 According to Dr. Maury's faunal lists the following additional species of MoUusca were collected by the Maury expedition from the Cercado forma- tion. Faunal list. Kio Mao. Rio Cana. Bluffs. Bluff 2. Zone H. Zone I. Mollusca: Gastropoda: Bullaria granosa fSowerby) X X Conus baytensis Sowerby X Conus molis Brown and Pilsbry X X "Drillia" ialalindae Maury X X "Cythara" caimitica Maury X Glyphostoma golfoyaquensis Maury .. .. X Oliva cristobalcoloni Maury X X Lyria pulchella (Sowerby) X Latirus fusiformis Gabb X X X X X X X Bursa amphitrites Maury Pyrula pilsbryi Smith X X X Cypraea spurca Linnaeus X + X X X Turritella planigyrata Guppy .. . .... X Aclia acuminatoides Maury , + + Melanella jaculum Maury Pelecjrpoda: ^ ^ Area umbonata Lamarck . , X X X Area (Seapharca) golfoyaquenais Maury X X X Peeten caimitica Maury X Pecteu nodosus Linnaeus ... . X X X Botula hiapaniolae Maury „ . . . . . X X X X X X X X X MytJInpflifl Hnmingensis 'Rpn.liis; Ghama caimitica Maury Chama eongregatoides Maury ' Fhaeoides domingensis Dall X Fhacoidea (Lucinisca) cercadica Maury X PhROnidfis (Milt-hq.) rio«HTi**T»fliq MailTy . X X PhnrtniHpfl (Ttnllnrtinf^) Ar^finiiff Tlnll X Cardium (Traehyeardiuni) linguatigris Maury X X X X Petn^o'a "Hinr'ti'^a Mfviiry 126 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Fauna! list — Continued. 8729, Rio Mao. Rio Mao, Bluffs (=7786) 8526 (addi- tional spp.) Rio Mao, Bluff 2 ( = 8526) Molluaca — Continued: Peleoypoda— Continued : Tellina (Merisca) sanctidominici Maury X X Macoma sp. cf . M. constricta Bruguiere . . X Macoma (Cymatoica) hiapaniolae Maury X X X X X Siligua subaegualia Gabb X X X Mactrella ap. cf. M. alata Spengler X X X Corbula dominicensis Gabb.. Martesia aanctidominici Maury X Decapod Crustacea: X X X Eryonidae gen. and ap. indt. X X Faguridae gen. and ap. indt. X X X X X Calappa ffammea (Herbst) X Cycloea bairdii Stimpaon .. Persephona prepunctata Rathbun X Scvlla cofitata Rathhiin X X X X X X Portunua tenuis Rathbun . .. PortnTiiiH np indt, X X X X X X X Parthenope ap. indt Mesorhoae mauryae Rathbun X Nephropa aequus Rathbun_ X Modified Cercado Fauna. lAst of stations. Province of Monte Cristi, Rio Gurabo, Zone G, 2 miles above Los Quemados. C. J. Maury, collector. May, 1916. 8522 (C-28). Province of Santiago, bluff on right bank of Rio Mao, about 3 to 3.5 kilometers above Cercado de Mao; fossils from 4.5 to 9 meters above water. T. W. Vaughan and C. W. Cooke, collectors. May 4, 1919. 8739 (D. C. 65). Province of Monte Cristi, about 9.5 kilometers up Rio Gurabo from Gurabo Adentro; fossils from below conglomerate. D. D. Condit, collector. May 9, 1919. Faunal list. F raminifera: Asterigerina rotundata Cushman.. ..Zone G, Rio Gurabo. OrbicuUna adunca (Fichtel & Moll). STRATIGEAPHIC PALEONTOLOGY. Faunal list. 127 Rio Mao 8522 Rio Gurabo 8739 Corals: Flacocyathas n. sp. a.. Flacocyathus variabilis Duncan.. AntilUa bilobata Duncan Thysanus corbicula Duncan Teleiophylla n. sp. a... Syzygophyllia dentata (Duncan),., Bryozoa: Cupularia denticulata Defrance... Metrarabdotos colligatum Canu & Bassler... Mollusca: Gastropoda; Acteon riomaensis Maury... Ringicula dominicensis Maury , Acteocina recta Maury not d'Orbigny... Acteocina n. sp. a Acteocina n. sp. b Retusa sp. indt.. Volvula cylindrica Gabb Bullaria paupercula (Sowerby).., Atys n. sp. c... Atys (Alicula) yaquensis Maury... Atys (Alicula) n. sp. a... Terebra (Strioterebra) eambiarsoi Maury n. subsp. a'-. Terebra (Strioterebra) cirra Dall n. subsp Terebra (Strioterebra) spirifera Maiuy not Dall Terebra (Strioterebra) n. sp. g. Terebra (new section A) n. sp. a, n. subsp. c'... Terebra (new subgenus, Gardner Mss.) sulcifera Sowerby... Conus haytensis Sowerby... Conus multiliratus Bose subsp. gaza Brown and Pilsbry.., Conus n. sp. a Conus n. sp. b Conus n. sp. c... Conus n. sp. g Conus n. ep. b , "Clavatula" labiata Gabb... Siu'cula (Pleurofusia) n. sp. a.. Turris (Pleuroliria) haitensis (Sowerby).., "Drillia" islalindae Maury. , "Drillia" n. sp. c "Drillia" n. sp. d "Drillia" sp.... "Mangilia" n. sp. f... "Mangilia" n. sp. g... "Mangilia" n. sp. h.. "Mangilia" n. sp. i.. "Cythara" polygona (Gabb)...,, "Cythara" heptagons (Gabb).. "Cythara" n. sp. a... Cancellaria guppyi Gabb Cancellaria (Bivetia) epistomlfera Guppy... Oliva cylindrica Sowerby. , Oliva brevispira Gabb Oliva n. sp. a... OHvella n. sp. b Olivella (Lamprodroma) indiviaa Maury not Guppy.., OUvella (Lamprodroma) muticoides Gabb Olivella (Lamprodroma) n. sp. c Marginella hispaniolensis Maury. Marginella n. sp. a Marginella n. sp. c Marginella n. sp. d _ X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 128 GEOLOGICAL BECONNAISSANCE OF THE DOMINICAN REPUBLIC. Faunal list — Continued. Species. Rio Mao 8522 Rio Gurabo 8739 Mollusca — Continued; Gastropoda — Continued : Lyria pulchella (Sowerby).. XancuB praeovoideus Mauiy...., Melongena censors (Sowerby).. FusuB henekeni Sowerby— Phos gabbi Dall.. Alectrion cercadenais Maury Alectrion losquemadica Maiuy... Metulella venusta (Sowerby) — Atilia n. ap. a.. Atilia CColumbellopsia) exilis (Gabb) Strombina pseudohaitensis Maury subsp. gurabensis Maury... Murex messorius Maury not Sowerby Murex ap. indt... Diatortio simillima (Sowerby).. Caasis sulcifera (Sowerby).. Cassis (Semicassis) recluaa Guppy... Pyrula sp. indt Cypraea n. sp. a.. Strombus proximus Sowerby... Clava plebeia (Sowerby) Clava n. ap. a Bittium sp. indt.. Alabina canaliculata (Gabb) Petaloconchus domingensis Sowerby Petaloconchus laddfranklinae Maury Verraicularia spirata (Philippi) n. aubap. a'. Architectonica quadriseriata (Sowerby) Architectonica n. ap. a.. Riaaoina craasilabria (Gabb).. Riasoina sp... Crucibulum n. sp. a... Natica canrena Linnaeus n. aubap. a'. Natica youngi Mauiy... Natica (Stigmaulax) aulcata Born.. Natica (Cryptonatica) n. ap. a Amauropsia guppyi Gabb... Teinostoma aandomingense Maury Fhasianella (Eucosomia) punctata (Gabb).. Calliostoma ap. indt.. Neritina (Smaragdia) viridimaria Maury... Melanella n. sp. e Pyramidellidae Scaphopoda: Dentalium diaaimile Guppy... Dentalium sp. indt.. Cadulus elegantisaimua Pilsbry and Sharp... Pelecypoda: Leda peltella Maury not Dall Leda n. sp. a... Area (Area) yaquenaia Maury.., Area (Calloarca) n. ap. a... Area (Scapharca) cibaoica Maury Area (Scapharca) golfoyaquensis Maury... Area (Scapharca) riocanensis Maury Area (Scapharca) n. ap. a... Glycymeris acuticostata (Sowerby) Glycymeris acuticostata (Sowerby) n. sub. sp. a'.., Glycymeris jamaicensis Dall Glycymeris n. sp. a. Pteria inornata Gabb - Oatrea gilbertharrisi Maury Pecten (Aequipecten) inaequalia Sowerby... Pecten (Aequipecten) oxygonum Sowerby... X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X 6spp. X X X X X X X X STRATIGRAPHIC PALEONTOLOGY. Fauna! list — Continued. 129 Species. Bio Mao 8522 Rio Gurabo 8739 M ollusca — Continued : Peleoypoda — Continued : Pecten (Aequipecten) thetidia Maury not Sowerby... Pecten (Aequipecten) eugrammatua Dall Pecten (Amusium) papyraceum (Gabb) Spondylus bostrychites Guppy Anomia simplex d'Orbigny... Crenella divaricata Maury not d'Orbigny... Crasainella guppyi Maury not Dall Crassinella n. sp. a... Echinochama antiquata Maury not Dall... Phacoides (Callucina) n. ap. Phacoides (Parvilucina) yaquensis (Gabb) Cadrium (Trigoniocardia) haitense Sowerby Cardium (Trigoniocardia) haitense Sowerby subsp. cercadium Maury... Caidium (Laevicardium) venustum Gabb Transennella n. sp. b Tivela n. sp. a... Pitaria (Lamelliconcha) planivieta (Guppy).. Pitaria (Lamelliconcha) circinata (Born) Pitaria (Hyphantosoma) carbasea (Guppy)... Chione woodwardi (Guppy) Cbione n. sp. a... Chione (Lirophora) henderaoni E'all Tellina (Eurytellina) riocanensis Maury... Tellina (Scissula) scitula Dall Strigilla piaiformis (Linnaeus).:. Semele (Semelina) n. sp. a j Abra n. sp. a... Donax aequalie Gabb... Corbtila cercadica Maury ,j , Corbula (Aloidis) vieta Gui^i)y Corbula (Bothrocorbula) viininea Guppy... Decapod Crustacea: Petrochirua inequalia Rathbim Calappa flammea (Herbat) Portunus oblongus Rathbun Plants: Melastomites sp X X X X X X X X X X X X X X X X X 7 X X X X X X X X X X X X X X According to Dr. Maury's faunal list the following additional species of moUusks were collected from "Zone G," Rio Gurabo: Gastropoda: Conus conaobrinus Sowerby. Conus tortuostriatus Toula. Conus marginatus Sowerby. Conus bonaczyi Gabb. Cancellaria (Aphera) islacolonis Maury. FasciolaWa semistriata Sowerby. Strombina nuestrasenovae Maury. Cassis (Phalium) monilifera Guppy. DoliuOi (Malea) camura (Guppy). Cypraea henekeni Sowerby. Strottibus haitensis Sowerby. Ama'uropsis guppi Gabb subap. gurabensis Maury. 130 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Sinum gatunense (Toula). Turbo dominioensis Gabb subsp. laloi Maury. Calliostoma grabaui Maury. Scaphopoda: Dentalium dissimile Guppy subsp. ponderosum Gabb. Cadulus denticulus-tigris Maury. Pelecypoda: Area (Scapharca) inaequilateralis Guppy. Venericardia scabricostata Guppy. Protocardia gurabica Maury. Pitaria (Lamelliconcha) aouticostata Gabb. Tellina waylandvaughani Maury. Gurabo Formation. Ldst of stations. (For maps of Rio Mao and Rio Gurabo see Plates IX and XI.) Province of Santiago, Potrero, Rio Amina. C. J. Maury, collector. May 22, 1916. Province of Santiago, Rio Mao, Bluff 1, a mile above Cercado. C. J. Maury, collector. May 1919. Province of Monte Cristi, Rio Giurabo, zone A at Los Quemados. C. J. Maury, coUeotor. May 1916. Province of Monte Cristi, Rio Gurabo, zones B, D, E, and F, above Los Quemados. C. J. Maury, collector. May 1916. 7791. Province of Monte Cristi, Los Quemados, limestone. C. J. Maury, collector. May 1916. 8714 (D. C. 44). Province of Santiago, Rio Yaque del Norte, about 3.5 kilometers S. 25° W. of wireless tower at Santiago. D. D. Condit, collector. April 24, 1919. 8715 (D. C. 45). Province of Santiago, Rio Yaque del Norte, station 5 cf traverse above Santiago, above Las Charcas. D. D. Condit, collector. April 24, 1919. 8726 (D. C. 52). Province of Santiago, La Canela, south side of Rio Yaque del Norte, 15 kilometers west of Santiago. T. W. Vaughan and C. W. Cooke, collectors. May 1, 1919. 8727 (D. C. 53). Province of Santiago, 13 kilometers from Potrero on trail to San Josd de Las Matas. D. D. Condit, collector. May 2, 1919. 8728 (D. C. 54). Province of Santiago, about 14 kilometers from Potrero on trail to San Job6 de los Matas. D. D. Condit, collector. May 2, 1919. 8516 (C-22). Province of Santiago, bluff on right bank Rio Amina at ford near Potrero. T. W. Vaughan and C. W. Cooke, collectors. May 2, 1919. 8517 (C 8517 (C-23). Province of Santiago, left bank of Rio Imina about 0.5 kilo- meter upstream from crossing at Potrero. T. W. Vaughan and C. W. Cooke, collectors. May 2, 1919. 8518 (C-24). Province of Santiago, left bank Rio Amina about &.8 kilometer above crossing at Potrero; next horizon below 8516 (C-22). T. W. Vaughan and C. W. Cooke, collectors. May 2, 1919. 8523 (C-29). Province of Santiago, blufi on right bank of Rio Mao about 1.7 kilo- meters above Cercado de Mao, 33 meters above water level. C. W. Cooke, collector. May 4, 1919. 8519 (C-25). Province of Santiago, left bank of Rio Mao about 0.8 kilometer above the ford at Cercado de Mao; specimens mostly from lower part of bluff. T. W. Vaughan and C. W. Cooke, collectors. May 3, 1919. STRATIGBAPHIC PALEONTOLOGY. 131 8520 (C-26). Province of Santiago, bluflf on left bank Rio Mao about 0.8 kilometer above ford at Cercado de Mao; specimens from upper part of bluff. C. W. Cooke, collector. May 4, 1919. 8527 (C-33). Province of Santiago, along the bluff on right bank Rio Mao, opposite Cercado de Mao, first bluff below Paso Bajito. T. W. Vaughan and C. W. Cooke, collectors. May 6, 1919. 8733 (D. C. 62). Province of Santiago, bluff along west sideof Rio Mao, 1.7 kilo- meters northwest of Paso Bajito, near Cercado de Mao. D. D. Condit, collector. May 6, 1919. 8734 (D. C. 62a). Province of Santiago, bluff along west side of Rio Mao, 1.7 kilo- meters northwest of Paso Bajito near Cercado de Mao; corals from loose boulders slipped from upper part of bluff. D. D. Condit, collector. May 6, 1919. 8528 (C-34). Province of Santiago, long bluff on left side Rio Mao at head of a long eastward reach about 3.5 kilometers below Cercado de Mao, the second bluff on the left side below Paso Bajito. T. W. Vaughan and D. D. Condit, collectors. May 6, 1919. 8538 (C-44). Province of Monte Cristi, left bank Rio Gurabo about 1.6 kilometers southeast of the upper ford at Guj abo Adentro, road from Las Caobas to LosQuemados, bluff 10 of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 9, 1919. 8539 (C-46). Province of Monte Cristi, left bank Rio Gurabo about 1.3 kilometers above upper ford at Gurabo Adentro, bluff 8 of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 8, 1919. 8540 (C-47). Province of Monte Cristi, right bank Rio Gurabo about 0.4 kilometer above upper ford at Gurabo Adentro, about 180 meters downstream from station 8539 (C-46), bluff 7 of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 9, 1919. 8541 (C-48). Province of Monte Cristi, right bank Rio Gurabo, about 0.8 kilometer above upper ford at Gurabo Adentro, bluff 6 of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 9, 1919. 8542 (C-^9). Province of Monte Cristi, left bank Rio Gurabo about 660 meters above upper ford at Gurabo Adentro, bluff 5 of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 9, 1919. 8543 (C-50). Province of Monte Cristi, right bank Rio Gurabo about 240 meters above upper ford at Gurabo Adentro, bluff 4 of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 9, 1919. 8544 (C-51). Province of Monte Cristi, right bank of Rio Gurabo, about 150 meters above middle ford at Gurabo Adentro, bluff 3 of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 9, 1919. 8545 (C-52). Province of Monte Cristi, left bank of Rio Gurabo, about 60 meters downstream from middle ford at Gurabo Adentro, bluff 2 of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 8, 1919. 8546 (C-53). Province of Monte Cristi, left bank of Rio Gurabo just above lower ford afGurabo Adentro, bluff 1 of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 9, 1919. 8548 (C-54). Province of Monte Cristi, right bank of Rio Gurabo, 150 meters below lower foid at Gurabo Adentro, bluff A of traverse. T. W. Vaughan and C. W Cooke, collectors. May 8, 1919. 8549 (C-55). Province of Monte Cristi, right bank of Rio Gurabo about 0.4 kilo- meter below the lower ford at Gurabo Adentro, bluff C of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 8, 1919. 8550 (,G-56). Province of Monte Cristi, left bank of Rio Gurabo, second bluff on left side below lower ford at Gurabo Adentro, bluff D of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 8. 1919. 132 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. 8551 (C-57). Province of Monte Cristi, light bank of Rio Gurabo; third bluff on right bank below lower ford at Gurabo Adentro, bluff E of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 8, 1919. 8552 (0-5S). Province of Monte Cristi, left bank of Rio Gurabo, about 0.8 kilo- meter below lower ford at Gurabo Adentro, bluff F of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 8, 1919. 8553 (0-59). Province of Monte Cristi, right bank of Rio Gurabo," 180 meters down- stream from collection 8552 (C-58), bluff G of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 8, 1919. 8554 (C-60). Province of Monte Cristi, right bank of Rio Gurabo, about 2 kilo- meters due north of lower ford at Gurabo Adentro, bluff P of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 8, 1919. 8555 (C-61). Province of Monte Cristi, right banlc of Rio Gurabo, about 0.4 kilo- meter northwest of bluff G, station 8553 (C-59), bluff S of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 8, 1919. 8556 (C-62). Province of Monte Cristi, right bank of Rio Gurabo, about 3 kilo- meters north of the lower ford at Guiabo Adentro, bluff U of traverse. T. W. Vaughan and C. W. Cooke, collectors. May 8, 1919. 8735 (D. C. 63). Province of Monte Cristi, left bank of Rio Gurabo, about 3.4 kilometers below Gurabo Adentro, bluff W of traverse, near base of cUff. D. D. Condit, collector. May 8, 1919. 8536 (C-42). Province of Monte Cristi, road from Gurabo Adentro to LasCaobas, up slope from Rio Gurabo, between 70 to 85 meters above the river bed. T. W. Vaughan, collector. May 10, 1919. 8537 (C-43). Province of Monte Cristi, road from Gurabo Adentro to Las Caobas on slope from Rio Gurabo, 12 to 18 meters above river bed. T. W. Vaughan, collector. .May 10, 1919. 8535 (C-41). Province of Monte Cristi, road from Caimito to Gurabo Adentro, about 0.8 kilometer west of Las Caobas. T. W. Vaughan and C. W. Cooke, collectors. May 10, 1919. Faunal list. Foraminifera; Station. Orbuhna universa D'Orbigny Zone A, Rio Gurabo Amphistegina lessonii D'Orbigny, flat var Zone A, Rio Gurabo STRATIGHAPHIC PALEONTOLOGY. 133 o ^ ^ 1 6 1 a o 9ES8 . 1 |X ! ! ; I I ! 1 1 ! 1 ! 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'i X < t C 1 c 2 oi I II n 8 I il 1 1 1 'a o d g ii li \ •E 1 - si 1 S 1 c 1 ■•g c 6 \ 1 s 1 1 1 i t 1 c J 1 C 1 i si 1 j < •I > ^g 1 ^ I .5 1 g s d &^ 1 11 II 1 1 ■s 1 g X :l STRATIGRAPHIC PALEONTOLOGY. 135 : : 1 i i i i 1 1 1 i 1 i i j ■ • ; i 1 M i ; i ix ! i i i i : i i i i ; i i i i i i i : i ; ; iX jX iX i iX j iX jX i j i£ i i i iX i i i iX iX i i 1 i i 1 1 1 ;£ iX i : i i ! i ! ! i i M i i i i i i ix i 1 1 1 i i : ! 1 i i ! ! : i i i 1 ! i 1 I i i i 1 i M i : ! 1 i M i i i i i i i i i i i 1 I ; JX i i i i i i 1 i i i 1 i iX 1 i ! ! i ! i ! ! 1 ! : : i 1 ! : : 1 ! i ! i ! 1 ! i • i ■ 1 ; |X i i 1 iX i i i i • i ! i M ix :x : : i i i i i i ix i jx i -x j ix i i i i i i : i ix ! i : i i X ix i ix i ixx i i i ■ i M i ■ i i i ;X i i : :X i : i i ; i i 1 i i iX i i ! JX i ix i i i i j i i i 1 i i i |£ i i i iX i iXXXX 1 i i : i i ix ;X i ; i ! jXX i 1 i i i XX i i i i i iX i ; ! ! ! : 1 : ■'^ ! ! ! ! i ! ! : I ! i : i i i 1 i : X i i i i i i i II II IX i i i (X i II II 1 1 1 1 : 1 |X 1 1 jxxx 1 iX II 1 1 M£ 1 1 M 1 1 1 1 1 1 11 1 1 1 i X i 1 i 1 1 1 1 I 1 1 1 1 1 i M 1 I M 1 1 1 1 1 i 1 1 1 1 1 1 i i 1 i II 1 1 1 i 1 1 1 1 1 i 1 1 1 11 1: 1 : : ! ! ! 1 : : i : ! : : '1 i : ! : 1 : ::::::::: i; 1 i ::!:: ! : 1 1 1 i M |x i li 1 1 1 1 j 1 1 i 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 i i 1 1 1 1 1 1 1 X 1 1 1 1 1 1 M 1 1 I I I I 1 1 • |x 1 j 1 1 1 1 1 1 1 1 1 1 1 I i i 1 jX i |X i 1 1 1 1 1 1 1 1 1 1 1 I M 1 1 1 1 1 1 i 1 1 g 1 1 i a CI a i 1 ED ■I 1 'I t: 4 ■'i b < t. g a I T3 g a i i g < b g a I g 1 < a \ 1 1 1 \ \ g \ \ g i 'g \ t 1 $■ 1 1 Ij 11 |g II II 1^ 1 1 g 1 1 i I J m m s 1 i 1 1 g 1 a O 136 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN BEPTJBLIC. Faunal list — Continued. Species. Rio Amina. Rio Mao. Rio Giu:abo. 8516 8519 8527 8733 8734 Zone D. Bryozoa: X X Cupularia umbellata Defrance X X X Cupularia denticulata Defrance X X X X X X X Stichoporina tuberosa Canu and Baasler Species. Rio Mao. 8519 Rio Gurabo. 7791 Echinii: Cidaris melitensis Forbes.. Clypeaster caudatus Jackson n. sp.. 1 X 1 Collected loose at foot of bluff; probably from "Zone C." STHATIGRAPHIC PALEONTOLOGY. 137 98S8 I iESS SEi8 9SS8 SSS8 »S98 I SSS8 SSSS ISS8 0SS8 6*98 9*98 9*98 *f98 1*98 0*98 6898 XX XX XX XX X iX X iXX I ; I I ; I XX XX 8ZS8 o *£i8 sets 2Z9S 6T98 XX iX iX X :x ■x XXX :xx ixxx jx ix 9198 1 I XX iXXXXXXX X jXX 9Zi8 9148 *IZ8 X i XX so 13 -3 o o < o r u v I a 5 -S « 1 .. 20. s; ^ ill ils o s| S— & ill o o o ill E3 d d o o o a a a o o o fl d d a o o o o OOOO Jo 138 GEOLOGICAL KECONNAISSANCE OF THE DOMINICAN REPUBLIC. • i SESS ! : : t 1 ! ! ! ! j 1 1 ! ! ! ! ! ! t i ! i ! ; : i 1 : : ■> 1 • • ; ; i.ss8 i i i i J M i 1 i i 1 ! 1 i i 1 i i 1 M 1 i 1 1 1 i 1 i i SES8 !■■!■•;!! i i 1 X 1 1 i 1 i 1 1 1 I 1! 1 ! 1 ! 1! X 9SS8 : t : 1 : : ; :!:::_:::! i : i ! i i :: i ;: i ; : sees !!!!!!! : ! '^ i ! ! ! i ! ! ! ! ! I r ! ! ! ! -^ ! tSS8 1 i 1 ; 1 1 1 1 ; j ; 1 X ; i ; I 1 1 1 : 1 ; 1 1 1 i 1 ESS8 1 1 ! 1 1 1 1 i ; X i j j j 1 I j i 1 1 i 1 M i ! i i gSB8 i M 1 i i 1 II X X 1 1 1 1 1 1 i 1 1 i 1 i i 1 1 i T9S8 j 1 1 1 1 ! I 1 j i ^ 1 1 1 j 1 1 ; ! I ! i 1 : 1 i 1 0SS8 : i 1 i i i ■ ■ i i • ! iX XX i i i ! iX i i i i i ix j 1 6*S8 1 1 ix i i i i j i i i :x XX jx ix i i i i i i i i i I 1 8W8 i i ! ■ ■ • i 1 1 • ! 1 jX iX i i i i i i i 1 i i j 1 i ; 1 9?S8 i i i i i i i i i i i ■ 1- jxx i i i i ix i i i i 1 i i i 1 9*S8 i i i i i ix i i 1 i i jx ix i i i i i i i i 1 M i 1 i i i WB8 i i i i i i i i j i i 1 |x jxxx i i i 1 i i i i 1 i i i 1 I*S8 i i i i: i 1 i i 1 i i 1 ! ! i i ! i i 1 i i 1 ! i 1 1 1 1 i 0W8 6ES8 1 i i i i i j i i i i i i i i i i i jX i i i i i i 1 1 i 1 i 1 i 8Ee8 i i i i i i ix ; i i ! ixxx i jX i i i 1 i 1 i i 1 i i 1 i sees i i i i ix i i ixx ixx ix jxx i 1 jX i |x i jx 1 i ?EZ8 i i i i i i i i i i i : i^- Jx i i i ixx ix i i i j 1 i EEi8 1 i i i i i iXXX i i iX iX iXXXX i i i i 1 i i i 1 f^cQ i '• '• i '• i I : : i : t i \( ; ', i ; \( '. i i : '. i i t I i i '. t 6TS8 XXX i i i ix i i iX iXXX i jXXXXXXXX 1 i i i j i ID 1 Hi 9TS8 XXX i i X i 1 XXX 1 ■ XXX X X :X : 9ZZ8 M 1 ! i i i i i ! i ix ix i 1 1 1 i i i i |x i 1 1 1 1 1 ■a fiTi8 MiliiliiiJiiXiiXliiiiiiiiXJilli 1 *Ti8 1 if Til it" s a g 6 5 £ s a 1 6 c 1 < n a 6 i a % 1 I .1 s e 5 £ C ^&g P 11 s fl J 1 j i ■« ■a n ■E p 1 s i t 'a 1 p t a li PI i 1 9 1 ■c I n a 'a 1 c a c s a 1 £ e , c a p 'g a d ■* g a a i E : d STRATIGHAPHIC PALEONTOLOGY. 139 I ;!!!!!!!! ! I ! I ! I : jXXXX XXXX XX XXX XX X iX XX XX XX XX XX iX a a a a a d d c3 s8 oS •C X 'C "C s aonoo j«- a a a Pi a Oi Oi Ei d d A d ol d c3 id d "Sb'B'M'Sb'Eb c3 d d d cS a "a a Si d d ( ^ a S S ■TS (-1 1-1 1-1 §•3 die -.3 d ^ Ml O dO .?§ 133 IS •s-a OC5 b 13 ^ 2 .2 & S 5 ^ e3 CO 2 i * 5S aa.s|go o o o d A P< d ^ 'C 'E "C •a .a >» o P£l d'g ■eg" JJrr" 'cS'aj'o'Qj £ u .5.3^.2.5.1.5 .a d d'«'oT3'«'3i'5J*3i'3) U K C3 V V W tw sad a a a a S3 ■ "a « « § ai •«d.sJ d d a ft ft io'3' o3H c9ddc9c0c8§§ 'v'o (u'o'o'aJOO a rt fl fl pi fl '-'^ Qi'u'Si'Qi'Si'S) g S oldd6533555assssssssssa;§ss 140 GEOLOGICAL BECONNAISSANCB OF THE DOMINICAN EEPTJBLIC. eES8 AgS8 I 9838 I f998 E5S8 ZS98 TSS8 0SS8 6*S8 8f'S8 OTS8 9f9S »fS8 O^'SS- 68S8 I 8SS8 XX 8ZS8 fSlS E£i8 /ZS8 6TS8 XX XX XX XX 9158 1 ^ XX XX S ai 9Z18 BIi8 »Ti8 .ii ■ S rt- J J « ^ & § s-§t o fl O JH So - .. ^^^--.=S CQ CD ts ja to i"l11.§||i.s| ~-''-'^-'" ft o. a • B 3 .■S III S ft t-i > t 1 ° ■^4 'ai.i. a ■°.3 I 'a 'a 3 C3 c3 g g ss M Sff- fe|i,fL,(i,(i,PL,PLi(i,:5 a 1 \ EM _; C Q 1 < 1^ 1 i i e •1 1 < 1 a 1 % < ■5 1 J I u < 1 5 e \ 1 CE j 1 a < s J i 1 1 J 1 1! 'rt'o is ,sa ,1 i 1 « i > 5 J S c E c c IB F a ■[ % 5 1 Q 1 c 1 J c i c 1 C E i 'l > ! < J ■« p • E E J i •= t c a ,5 1 (2 1 \ •I < 1 4 c 1 \ 1 < 1 *5 % c c a 1 1 ■1 1 ■ c 1 1 1 a 1 X iX X jX X iXX XXX X iX xxxxx XXX iX STRATIGRAPHIC PALEONTOLOGY. J ' 145 X iX XX XX xxxx •X ■ II X X iX ■ xxx^ XX •Sio|gS«|fe I a P-s;g;g:g;g;g X i X I X jXX I- S* p. •a |.S2J||i •fiJ gs5 ~ S n « o S &iPl(!»S>3< S 3 -C 8! o S 2 I CQ C3 n a-s-3 ill 146 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN BEPUBLIC. According to Doctor Maury's faunal lists the following additional species of MoUusca were collected from the Gurabo formation by the Maury ex- pedition. Rio Amina. Rio Mao. Eio Gurabo. Species. Potrero. Bluff 1. Zone A. Zone B. Zone D. Zone E. Zone F MoUuBca: Gastropoda: Terebra inaequalis Sowerby X X Terebra petiti Maury. X Conus haytensis Sowerby subsp. gura- X ConuB tortuostriatua Toula X X X "Drillia" loaquemadica Maiiiy X X X X "Drillia" hispaniolae Maury ' Cancellaria barretti Guppy X Cancellaria (Narona) losquemadica X Olivella sanctidominici Maury X X Mitra quemadica Maury Mitra berlinerae Maury X Mitra (Strigatella?) pertubatrix Maury.. X X X X Turricula (Costellaria) bullen-newtoni Maury Fasciolaria carminimaria Maury X Vaaum haitenae (Sowerby) X X X X Phoa moorei Guppy. X X NitideUa cibaoica Maury X Typhis eercadicua Maury X Coralliophila miocenica (Guppy) X Cypraea patrespatriae Maury X - Triforia calypsonia Maury. X Xenophora conchyliophora Born X X Turbo crenulatoides Maury X Pelecypoda: Limopais hatoviejonis Maury X Area (Barbatia) sp. cf. A. bonacyzi Gabb X Area (Scapharca) henekeni Maury X Oatrea virginica Gmelin X Pecten excentricua Gabb X Pecten hatoviejonia Maury X Venericardia islahiapaniolae Maury X Protocardia ialahiapaniolae Maury X According to Dr. Maury's faunal lists the following additional species of MoUusca were collected by the Maury expedition from yellow clays pre- sumably belonging to the Gurabo formation at an altitude of 540 feet near the foot of the Samba Hills between Las Caobas and Rompino: Area lomasdesamba Maury. Cardium CTrigoniocardia) sambaicum Maury. STKATIGEAPHIC PALEONTOLOGY. 147 The following additional species of MoUusca in the collections of the U. S. National Museum were collected at Potrero, on Rio Amina, by Bland and Rowell. Some of the the species were described by Dall in 1895.^ Acteon riomaensis Maury. Ringicula n. sp. ct. R. tridentata Guppy. Retusa sulcata Gabb not d'Orbigny. Cyclichnella trictumtritonis (Maiwy) n. subsp. Terebra gabbi Dall. Terebra (Stiioterebra) cirra Dall. Terebra (new subgenus Gardner MS.) sulcifer Sowerby subsp. haitensis Dall. Terebra (Fusoterebra 7) emitra DaU. "Mangilia" dominicensis (Gabb). "Cythara" polygona (Gabb). Cancellaria rowelli Dall. Marginella amina Dall. Marginella dominguensis DaU. Marginella latissima Dall. Phos guppyi Gabb. Phos semicostatus Gabb. (Probably not from same horizon.) Phos costatus Gabb. (Probably not from same horizon.) Phos fasciolatus Dall. Cymia n. sp. cf. C. henekeni Maury. Strombina cyphonotus PUsbry and Johnson. StrombineUa acuformis Dall. Muiex (Phyllonotus) compactus Gabb. Trophon dominicensis Gabb. Cadulus phenax Pilsbry and Sharp. Faunal list — Continued. Species. 8727 Rio Amina. Decapod Crustacea: Fetrochirus inequalis Kathbun.. Podophthalmus domingensis Rathbun.. Deeper- Water Fades of Gurabo Formation. Station. 8702 (D. C. 32). Province of Santiago, bluff on south bank of Rio Yaque del Norte, 8.6 kilometers west of Santiago, D. D. Condit, collector. April 20, 1919. Faunal list. Corals: Placocyathus variabilis Duncan. Placocyathus barretti Duncan, var. Placocyathus n. sp. a. Placocyathus n. sp. d. Deltocyathus italicus (Mich't). Stylophora granulata Duncan ? var. Asterosmilia sp. Teleiophyllia n. sp. a. Syzygophyllia dentata (Duncan). Agaricia dominicensis Vaughan ? Agaricia n. sp. f. Porites sp. 'DaU, W. p., U. S. Nat. Mub. Proc, vol. 18, pp. 21-46, 1895. 148 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Mollusca: Gastropoda: Kingicula tridentata Guppy ? Acteocina recta Maury not d'Orbigny. Acteocina sp. Cylichna n. sp. a. Cylichnella trictum-tritonis (Maury). Volvula cylindrica Gabb. Bullaria paupercula (Sowerby). Terebra (Strioterebra) cirra Maury not Dall ? Terebia (Strioterebra) n. sp. f. Terebra (Strioterebra) n. sp. n. Terebra (Strioterebra) n. sp. o. Terebra (Strioterebra) sp. Terebia (new subgenus Gardner MS.) sulcifera Sowerby. Terebra (Fusoterebra) n. sp. a. Conus f in voides Gabb. Conus gracilissimus Guppy n. subsp. d'. Conus n. sp. q. Conus n. sp. r. Conus sp. Surcula humerosa (Gabb). Surcula longicaudata (Gabb). Surcula n. sp. a. Surcula n. sp. b. Surcula (Pleurofusia) parkeri (Gabb). Surcula (Leucosyrinx) n. sp. a. Turris n. sp. a. Turris (Pleuroliria) n. sp. a. "Drillia" venusta (Sowerby). "DrUlia" riogurabonica Maury. "Drillia"' n. sp. n. "DriUia'' n. sp. cc. "DrilUa" n. sp. dd. "Drillia" n. sp. ee. "Drillia" n. sp. £f. "Drillia" n. sp. gg. "Drillia" n. sp. hh. "Drillia" n. sp. ii. "Drillia" sp. "Mangilia" n. sp. c. "Mangilia" n. sp. o. "Mangilia" n. sp. p. "Mangilia" sp. "Cythara" elongata (Gabb). "Cythara" n. sp. g. "Cythara" n. sp. h. "Cythara" n. sp. i. Pleurotomella sp. Glyphostoma n. sp. f. OUva brevispira Gabb. Ohva cylindrica Sowerby ? Olivella n. sp. b. Olivella (Lamprodroma) muticoides (Gabb). Olivella (Lamprodroma) indivisa Maury not Guppy. STEATIGBAPHIC PALEONTOLOGY. 149 MoUusca — Continued : Gastropoda — Continued : Olivella (Lamprodroma) sp. Marginella coniformis Sowerby. Marginella hispaniolensis Maury. Marginella n. sp. c. Marginella n. sp. i ? Marginella n. sp. j. Marginella n. sp. k. Marginella n. sp. 1. Marginella (Closia) n. sp. a. Mitra (Uromitra) n. sp. g ? Mitra (Uromitra) n. sp. i. Mitra (Fusimitra) n. sp. b. Mitra (Fusimitra) n. sp. c. Lyria pulchella (Sowerby). Caricella striata (Gabb). Fusus henekeni Sowerby. Phos gabbi DaU. Phos elegans Guppy. Phos sp. Aleotrion losquemadica Maviry. Alectrion n. sp. a. Nassarina n. sp. c. Metulella venusta (Sowerby). Metulella wilUamgabbi Maury. Metulella sp. Atilia n. sp. a. AtUia (Columbellopsis) exilis (Gabb). Atilia (Columbellopsis) n. sp. c. Mitrella n. sp. a. StrombJna nuestrasenorae Maury. Strombina bassi Maury. Murex domingensis Sowerby. Cassis sulcifera Sowerby. Sconsia laevigata (SoWerby). Sconsia n. sp. a. Morum domingense (Sowerby). DoUum (Malea) camura Guppy ? Strombus haitensis Sowerby ? Clava plebeia (Sowerby). Bittium n. sp. i. Bittium sp. Cerithiopsis sp. Triforis sp. Alabina canaliculata (Gabb). Modulus n. sp. a. Modulus n. sp. b. Alaba n. sp. a. Alaba sp. Serpuloibis papulosa (Guppy) Serpulorbis sp. Petaloconchus domingensis Sowerby. Petaloconchus laddfranldinae Maury. Turritella tornata Maury not Guppy. TmTitella planigyrata Maury not Guppy. Fossarus 7 (Gottoina?) n. sp. a. 150 GEOLOGICAL BECONNAISSANCE OF THE DOMINICAN KEPUBLIC. Mollusca — Continued : Gastropoda — Continued : Architectonica n. sp. b. Rissoina crassilabris (Gabb). Risscina sagraiana Mauiy not d'Orbigny. Rissoina n. sp. b ? Rissoina n. sp. c. Amalthea n. sp. a. Natica canrena Linnaeus n. subsp. b'. Natica (Stigmaxilax) sulcata Born. Natica CCryptonatica) n. sp. a. Polyniees subclausa (Soweiby). Amauropsis guppyi Gabb ? Cyclostrema striata Gabb. Cyclostrema ? n. sp. a. Adeorbis pentagona (Gabb). Teinostoma n. sp. a. Turbo dominicensis Gabb 7 Astralium sublongispinum Maury. Phasianella fEucosomia) pvmctata (Gabb). Calliostoma sp. indt. Neretina (Smaragdia) viridimaris Maury. Fissuridea sp. indt. Melanella n. sp. f . Melanella sp. Strombiformis sp. Niso sp. Pyramidellidae 3 spp. Scaphopoda: Dentalium dissimile Guppy. Dentalium praecursor Pilsbry & Sharp. Dentalium glaucoterrarum Maury. Dentalium n. sp. d. Dentalium sp. Cadulus n. sp. b. Pelecypoda: Nucula tenuisculpta Gabb. Leda n. sp. c. Area (Fossularca) adamsi Dall. Area (Scapharca) cibaoica Maury. Area (Scapharca) golfoyaquensis Maury. Area (Scapharca) losquemadica Maury. Area (Scapharca) sp. Glycymeris acuticostata (Sowerby). Pteria inornata Gabb. Ostrea sp. indt. Pecten (Pecten) soror Gabb. Pecten (Aequipecten) thetidis Sowerby. Pecten (Amusium) sp. indt. Spondylus bostrychites Guppy ? Julia n. sp. a. VerticordJa (Trigonulina) n. sp. a. Venericardia scabricostata Guppy ? STEATIGRAPHIC PALEONTOLOGY. 151 MoUusca — Continued : Pelecypoda — Continued : Chama sp. Myrtaea lomasdesamba Maury. Phacoides (Parvilucina) yaquensis Gabb. Cardium (Trachycardium) linguatigris Maury. Cardium (Trigoniocardia) haitense Sowerby Cardium (Laevicardium) sp. indt. Antigona (Ventricola) blandiana (Guppy). Chione sp. indt. Chione (Lirophora) sp. indt. Corbula cercadica Maury. Corbula (Aloidis) vieta Guppy. Gastrochaena sp. According to Dr. Maury's faunal lists the following species of MoUusca which were not collected by the 1919 expedition, were collected by the Maury expedition on the Rio Cana below Caimito, from a horizon in or above the Gurabo formation. Gastropoda: Bursa crassa DUlwyn. Polynices stanislas-meunieri Maury. Pelecypoda: Area (Scapharca) margaratae Maury. Area (Seapharea) guayubinica Maury. Area (Scapharca) patricia Sowerby. Area (Scapharca) ohiriquensis Gabb. Placunanomia lithobleta Dall. Mao Adentro Limestone. List of stations. 8716 (D. C. 46). Province of Santiago, 6 kilometers southeast of Santiago fort, on road to Baitoa. D. D. Condit, collector. April 24, 1919. 8717 (D. C. 46 A). Province of Santiago, hills on Baitoa road, 4.3 kilometers south- east of Santiago fort. D. D. Condit, collector. April 24, 1919. 8723 (D. C. 50 A). Province of Santiago, Gurabo HiUs, about 3.4 kilometers north- east of Santiago. 0.4 kilometer northeast of station 8722 (D. C. 50). T. W. Vaughan and D. D. Condit, collectors. April 28, 1919. 8724 (D. C. 50). Province of Santiago, Gurabo Hills, about 3.4 kilometers northeast of Santiago, near roek-erushing site for road metal. T. W. Vaughan and D. D. Condit, collectors. April 28, 1919. 8663 (D. C. 43, 49). Province of Santiago, Arroyo las Lavas, crossing of road from Santiago to Monte Cristi. T. W. Vaughan and C. W. Cooke, collectors. April 23, 29, 1919. 8531 (C-37). Province of Santiago, right bank of Rio Mao, about 4.3 kilometers above mouth of irrigation ditch at Valverde (Mao), first bluff on right bank above Valverde. C. W. Cooke and D. D. Condit, collectors. May 7, 1919. 8532 (C-38). Province of Santiago, bluff on right bank of Rio Mao, opposite Mao Adentro, from the eoralliferous beds 4 to 24 meters above the bottom of the exposure. T. W. Vaughan, collector. May 7, 1919. 8533 (C-39). Province of Santiago, bluff on right side of Rio Mao, opposite Mao Adentro, from lower part of the exposure. T. W. Vaughan, collector. May 7, 1919. 8731 (D. C. 61). Province of Santiago, Cereado de Mao, top of hogback, 2.5 kilo- meters southwest of village, altitude 330 meters above sea level. D. D. Condit, collector. May 6, 1919. 152 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. 8736 (D. C. 63 A). Province of Monte Cristi, left bank of Rio Gurabo about 3.4 kilo- meters below Gurabo Adentro, loose material from limestone up the hiU. D. D. Condit, collector. May 8, 1919. Faunal list. Stations. Speoies. 87ie 8717 872S 8724 AiToyc Las Lavas 8663 8531 Rio Mao. 8532 8533 8731 Rio Gurabo. 8736 Corals: Placooyathus sp. a£f. P. variabilis Dun- can X X X X X X X X 1 Placocyathus n. sp. g . . „ X X X X X Stylophora n. sp. a Stylophora sp. X X X X X X X X X X X ........ Stephanocoenia intersepta (Esper) X X Meandrina sp. cf. M. maeandrites (Linn.) X X X X X 3spp. X X X X X X X X X X X X X Orbicella cavernosa (Linn.). X X X X Orbicella sp._ X X Teleiophyllia magnifica Vaughan, ms. X X Teleiophyllia sp. X X Maeandra sp. aff. M. labyrinthiformis X X X X X Maeandra sp. aff. M. areolata (Linn.).... Maeandra sp. afif. M. strigosa (Dana).... X X Maeandra sp Manicina sp. a£F. M. gyrosa (Ell. and Sol.) X X Mussa sp Sspp. X Muasoid coral, probably Myoetophyllia X X X X X X X Agaricia n. sp. c X X X X X Agaricia n. sp. d X X Agaricia n, sp. h X X Siderastrea siderea (Ell. and Sol.) X X X Siderastrea ap. aff. S. radians (Pallas).... X Goniopora jacobiana Vaughan X Porites sp. aff. P. furcata Linn X X Porites sp. aff. P. baracoaensis Vaughan.. X X 2spp. X STRATIGHAPHIC PALEONTOLOGY. Faunal list — Continued. 153 Stations. Species. 8724 8663 8531 8532 Mollusca; Gastropoda — Coralliophila sp. indt. X X Strombus sp. indt „ X X X X X X X X X Conocerithium gurabense (Maury) . . Conocerithium n. sp. a Pelecypoda — Area (Scapharea) sp. indt. . . ... Ostrea gilbertharrisi Maury . . . , X X X X X X X X Phacoides (Miltha?) sp Gafrarium (Gouldia) sp X Metis sp. X X Mao Clay. A collection of fossils was made from this formation at only one locality, as follows: 8530 (C-36). Province of Santiago, bluff on left side of Rio Mao, about 3.4 kilometers above intake of irrigation ditch at Valverde (Mao), first bluff above the town. C. W. Cooke, D. D. Condit, collectors. May 7, 1919. Faunal list. Corals: Stylophora sp. MoUusca: Gastropoda: Conus haytensis Sowerby. Conus sp. Turns (Pleuroliria) haitensis (Sowerby)?. CanceUaria (Bivetia) epistomifera Guppy. Murex donaingensis Sowerby. Cassis (Semicassis) sp. indt. Crepitacella capula Guppy. Pelecypoda. Leda n. sp. b. Pecten (Aequipecten 7) sp. indt. MIOCENE OR OLDER. List of stations. 8772 (R. 20). Province of Monte Cristi, El Morro, southern side, altitude 45 meters above sea level. C. P. Ross, collector. May 2, 1919. 8773 (R. 21). Province of Monte Cristi, El Morro, southern side, altitude 63 meters above sea level. C. P. Ross, collector. May 2, 1919. 154 GEOLOGICAL BECONNAISSANCE OF THE DOMINICAN EEPUBLIC. Faunal list. Corals: Station. Placocyathus ? sp 8772 Leptoiia sp 8773 8782 (R 22). above sea level. 8783 (R 23). above sea level. 8774 (R 24). above sea level. 8777 (R 30) Yaque Group, Province of Monte Cristi. List oj stations. Province of Monte Cristi, El Morro, southern side, altitude 105 meters C. P. Ross, collector. May 2, 1919. Province of Monte Cristi, El Morro, southern side, altitude 153 meters C. P. Ross, collector. May 2, 1919. Province of Monte Cristi, El Mcrro, southern side, altitude 155 meters C. P. Ross, collector. May 2, 1919. Province of Monte Cristi, La Subida de la Sahna, a hill about 12 kil- ometers southeast of house of Senor Rodriguez, which is about 25 kilometers noitheast of Monte Cristi, altitude 165 meters above sea level. C. P. Ross, collector. May 4, 1919. 8778 (R. 31?). Province of Monte Cristi, on trail between Sabana Cruz and Santana, at La Plata, 27 kilometers from Monte Cristi on Santiago road. C. P. Ross, collector. May 6, 1919. 8780 (R. 39). Province of Monte Cristi, on road from Daiab6n to Monte Cristi, 2.5 kilometers from La Baica. C. P. Ross, collector. May 7, 1919. 8779 (R. 37). Province of Monte Ciisti, hill 10 kilometers north of Dajab6n, near Copey on road between Daiab6n and Copey, altitude 12 meters above sea level. C. P. Ross, ccUectcr. May 7, 1919. Faunal list. Stations. Species. 8782 8783 8774 8777 8778 8780 8779 Corals: X X X X Antillia ? sp. X X X X X X Siderastrea siderea (Ell. and Sol.) X Mollusca: Gastropoda: Cavolina sp X X X X X X X X X ? Pelecypoda: X X Area (Scapbarca) ap X X X X X X Pecten sp _ Fhacoides sp X STRATIGRAPHIC PALEONTOLOGY. 155 Yaque Group, South Side. List 0/ stations. 8687. Province of Maccrls, "Balketa," about 600 meters below mouth of Rio Magua, blanch of Rio Macoris, altitude as follows: 8687a (D. C. 6a). 6-9 meters. 86876 (D. C. 6b). 15-18 meters. 86S7c (D. C. 6c). 21-27 meters. C. W. Cooke, D. D. Condit, and C. P. Ross, collectors. April 3, 1919. 8689 (D. C. 8). Province of Macoris, 12 kilometers from San Pedro de Macoris, Camino Real to Platanitos, altitude 45.5 meters. T. W. Vaughan, collector. April 3, 1919. 8580. Province of Santo Domingo, Arroyo Santa Cruz, road from Yaguate to San Cristobal. D. D. Condit, collector. June 10, 1919. 8696 (D. C. 17). Province of Santo Domingo, near Los Alcarrizos on the Duarte Highway, about 10.75 kilometers from Santo Domingo. T. W. Vaughan and others, collectors. April 6, 1919. 8699 (D. C. 20). Province of Santo Domingo, Duarte Highway near Los Alcarrizos, 15+ kilometers from Santo Domingo. T. W. Vaughan, collector. April 6, 1919. 8700 (D. C. 21). Province of Santo Domingo, quarry north of Duarte Highway, 14 kilometers from Santo Domingo. T. W. Vaughan, collector. April 6, 1919. 8609 (C-86). Province of Azua, ledge of coralliferous limestone on Rio Via, about 1.7 kilometers above Azua. C. W. Cooke, collector. May 27, 1919. 8664. Piovince of Azua. pebble in Rio Via about 1.7 kilometers above Azua. C. W. Cocke, collector. May 29, 1919. 8645. Province of Azua, loose rubble from Higuerito, Azua oil field. D. D. Condit, collector. May, 1919. 8608 (C-84). Province of Azua, rubble on road side, north of Arroyo Salado near Higuero Largo on road from Tdbano to Las Yayas, altitude 496 meters above sea level. C. W. Cooke, collector. May 26, 1919. 8610 (C-89). Province of Azua, coralliferous hmestone interbedded with shale in arroyo on road between Higuero Largo and Las Yayas. C. W. Cooke, collector. May 26, 1919. 8579 (D. C. 83-A). Province of Azua, from limestone bluff near Trinchera on east side of Azua-San Juan road at station 27 of traverse. D. D. Condit, collector. May 25, 1919. 8760. Province of Azua, on Azua-Cabral trail, about 10 kilometers west of crossing of Rio Tdbara. N. H. Darton, collector. January, 1920. 8568 (D. C. 81). Province of Azua, from limestone on right bank of Rio de las Cuevas, about 4.2 kilometers west ol Tdbano. D. D. Condit, collector. May 22, 1919. 8566 (D. C. 78). Province of Azua, left bank of Rio Yaque del Sur about 0.8 kil- ometer below mouth of Rio de las Cuevas. D. D. Condit, collector. May 22, 1919. 8563 (D. C. 77). Province of Azua, along left bank of Rio Yaque del Sur 0.4 kilometer east of crossing of Azua-San Juan road. D. D. Condit, collector. May 22, 1919. 8571 (D. C. 86). Province of Azua, sandy beds on a nameless arroyo emptying into Rio Yaque del Sui' from west side a little below Boca Mula. D. D. Condit, collector. May 25, 1919. 8621 (R. 45). Province of Azua, Rio Yaque del Sur opposite Boca Mula, station "A" of traverse of Rio Yaque del Sur. C. P. Ross, collector. May 25, 1919. 8622 (R. 46). Piovince of Azua, Rio Yaque del Sur opposite Boca Mula, between 156 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Stations "B" and "C" of traverse of Rio Yaque del Sur. C. P. Ross, collector. May 25, 1919. 8570 (D. C. 84). Province of Azua, channel of Rio Yaque del Sur about 5 kilometers down stream from Boca Mula, beds in contact with Quartemary series. D. D. Condit, C. P. Ross, collectors. May 24, 1919. 8572 (D. C. 87). Province of Azua, left bank of Rio Yaque del Sur at upper edge of village of Los Giiiros. D. D. Condit, collector. May 26, 1919. 8590 (D. C. 88). Province of Azua, west bank of Rio Yaque del Sur opposite Palo Copado, D. D. Condit, collector. May 27, 1919. Fauna! list. Foraminifera: Station. Amphistegina ? sp 8568 Alveolina ? sp 8568 06S8 Z19S ZZ9S 1298 \19S £998 99&8 8998 aiS8 0198 8098 Sf98 f998 STBATIGBAPHIC PALEONTOLOGY. X I IX i I I !X i i M i ! !X 1 !XX '■ '■ 157 X jxx XX ix X X ! X X X iXXX XX ■X XXX ■ O M S S"a o 00Z8 6698 6898 01S9S I qi898 Bi898 3 o •S I . " O ft 0SX» S S S d £<& S-S 2 2 2 2 d gl O O O O o o ft ft ft ft 3 j'5'E'^'E' ■IB ea d "a O O M jl O O O O o O ii M S S ^ >H hi •M ' o o I ft ft u u o u P^P^P ' ^ "^ a o, a 1:3 (S a is ^ 9 d ^ d OS a d 9 d"-sQ O.S ID S3 I- .9 a OS '3 'fl K OS n * m BJ M I is S &.S. S S a n Q A & ^ s* & »H ba M M 0000 158 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. 3 a p g I i o fl.a u a ff Q 06S8 Z2,S8 I ZS98 TE98 TZSS I S9S8 I 99S8 I 8958 I 6M8 0198 8098 I SW8 »998 I 6098 I OOiS 6898 "1991 I X qZ898 I «i898 I P o ■aw CD 2 0) ■ a 5 a iXX jx XXX Si gp.. ix il iH iH iH Co -^ .^ 09 ffi •! •i^ XX XX w. dt~ « aad&gggrtgg SS^-?-^ ..a w - w r "" n p< P. I ■Sa||lllil M WS^ o o o a o h o o h o Hi a STHATIGEAPHIC PALEONTOLOGY. 159 0698 I X jXX i I !X I 1 i 1 ix i ! M ix ! ix ! i i ixxx ZZ,S8 I 0ZS8 I ZE98 liSS e9S8 09Z8 I 0T98 6098 I 08S8 aZ898 qi898 «i898 c o O x- X XX o o-g WW o ^^ ^ (d « b 3-3 CO- g S a XX X X IX i O 03 « n.S S oa r +^ w w ** aaasz^uu Ci Qi di X XXX go 93 3 3 Smmn c3 C3 S.s e o, II ft dSo OO d V ■-"«« = *& flaaaaoaa oooooooo OODOOOOO ^3 ■s-c QQ OO «3 13 OO 5^^J 13 3 fl*5i'Ei*S)'Si 2 £ S M li h tl SSggSSgSS Jo 160 GEOLOGICAL BECONNAISSANCE OF THE DOMINICAN REPUBLIC. I 0658 0ZS8 ge98 IS98 lies £9S8 1 I iX iXXX XXX 99S8 09i8 0198 6098 iXX X |x I i i jxxx jx XX xxxxxx X I i jx IXXX ell a 0898 o o !>i898 I qi898 Bi898 s a o I .11 sSS l^gm J" ^.5 >>o '■S'3 d, :§ ». So S a &fe S-? g s a s SSs & s & & & o,|S g_o i1 no IB „ o o g ^ 1 a SSI S S 'C 'C nmOO S uoc m fl n 0< SS-S ell SS'-S ••s I g a I o a X I ! ! ix STRATIGRAPHIC PALEONTOLOGY. 161 ! i i ix ! I i I !X i MX I I I i i I i i I jx i i i ! i ixx X£ X XXXX X XX X XX iXX XX i iX X XXX X X ^ 2.S : m g "^ . 3 O eS rt - ■ ' "S .S 'S 0) giT B ^ b ^3 49 ^ 49 *tf 49 a o>)>iS-S43oooo»o d .^H 'S . d A a " S- ^ d-^ "S o o a 9< cd ,.S d d d d ,i S Tj H d « S C o o J3 u u A •S-sl :.s a " "■S a a s 111 i'^a-s.s §^^l 5 S s s-a-o S S 01 K c c 1-! O O O O O ►:) hJ A, O O O 162 GEOLOGICAL BECONNAISSANCE OF THE DOMINICAN HEPTTBLIC. Pi OS I s ^ 0658 BZS8 ozes es98 IZB8 S9S8 99S8 09i8 0198 6098 X iX 08S8 6898 °Z,898 ai898 Bi898 XX Is o § s B ^ Qg. Illfil-S'Sill ll ..'■3 61 ■§1 9U STEATIGRAPHIC PALEONTOLOGY. 163 Cenos de Sal Formation. List of stations. 8574 (D. C. 95). Province of Barahona, ravine on north side of Cerros de Sal about 4.2 kilometers west of Las Salinas; stations 0-8 of traverse; foothills on north side of mountain. D. D. Condit, collector. May 30, 1919. 8742 (D. C. 95 A). Province of Barahona; ravine on north side of Cerros de Sal about 4.2. kilometers west of Las Salinas; stations 8-11 of traverse. D. D. Condit, collector. May 30, 1919. 8591 (D. C. 90). Province of Barahona, sandy beds along road from Cabral to Neiba, about 3.5 kilometers northwest of Las Salinas; altitude about 24 meters. D. D. Condit, collector. May 27, 1919. 8761. Province of Barahona, Angostura, west of Las Salinas. N. H. Darton, collector. January, 1920. Faunal list. Species. Prov. Barahona. 8574 8742 8591 Corals: Paracyathus 7 sp. a Paracyathus 7 ep. b Stylopbora sp. a — Stylophora sp. b Stylopbora sp Dichoooenia sp., aff. D. stokesi M. Edw. and H. Solenastrea boumoni M. Edw. and H Trachypbyllia n. sp Oulopbyllia n. sp - Agaricia n. sp. e Siderastrea sp Forites sp X X X X X X X X X Species. Prov. Barahona. 8574 8742 8591 8761 MoUusca: Gastropoda: Terebra (Strioterebra) sp. indt.. Conus sp... "Drillia" venusta (Sowerby) Olivella (Lamprodroma) sp., cf. O. indivisa Guppy... Marginella sp.. Melongena consors (Sowerby)? Fusus sp., cf. F. benekeni Sowerby Alectrion n. sp. b, cf. A. losquemadica Maury... Atilia (Columbellopsis) sp. indt Strombina n. sp. a, cf. S. bassi Maury Murex sp.. Urosalpinx n. sp. b Tritonium (Lampusia) sp _ Strombus pugiloides Guppy n. subsp. &\ Strombus n. sp. b Strombus sp... Cerithium (Vulgocerithium) sp. indt.. X X X X X X X X X X X 164 GEOLOGICAL BECONNAISSANCE OP THE DOMINICAN REPUBLIC. Faurud list — Continued. Speciea. Prov. Barahona. 8574 8742 8591 8761 Mollufica — Continued: Gastropoda — Continued : Potamides (Prazisinus 7} n. sp. a... Bittiolum n. sp. b Seila sp... Triforia ap Modulus 7 sp.. Acrilla 7 ap.. Serpulorbis n. sp. a» cf. S. papulosa (Guppy)..... Siliquaria n. sp. a, cf. S. squamata (Blainville)... Turritella n. sp. c, cf. T. guppyi Cossmann Natica ap Rissoina sp Crepidula ap.... X X X Neretina (Puperita) figulopicta Maury... Fisauridea sp _ Pyramidellidae Scaphopoda: Dentalium sp Pelecypoda; Area (Area) occidentalis Philippi. Area (Area) ap. indt.. Area (Calloarca) Candida Gmelin.. Area (Calloarca) sp. indt Area (Granoarea) n. sp. a... Area (Scapharca) cibaoica Maury Area (Scapharca) auriculata Lamarck, n. subsp. a'... Area (Scapharca) n. sp. g, cf. A. (S.) halidonata Dall.. Area (Scapharca) n. sp.? h, cf. young of A. (S.) corcupidonis Maury.. Area (Scapharca) patrieia Sowerby.... Area (Cunearca) n. sp. a. X X Glycymeris n. sp. g, cf. G. peetinata (Gmelin).. Pinna sp.- Melina sp Ostrea sp.. Pecten (Euvola) sp. indt Pecten (Aequipeeten) thetidis Maury not Sowerby ?.. Pecten (Aequipeeten) sp Pecten (Chlamys) sp.. X X Pecten (Plagioctenium) n. sp. a... Spondylus sp. indt , Plieatula n. sp. b Lithophaga sp.. Crassinella n. ap. c... Chama n. sp. a, ef. C. involuta Guppy... Lucina sp... Phacoides (Phaeoides) n. ap. a-. Cardium (Fragum) medium Linnaeus... Cardium (Trigoniocardia) n. sp. a Cliione sp... Chione (Clausinella) n. sp. »... Anomalocardia sp Cytherea 7 sp.. Psammoaolen sp. indt... Corbula cercadica Maury... Corbula n. sp. a Corbula n. sp. b Corbula sp X X X X X X X X X X X X X X X X X X 1 sp. X X X X X X X X X X X X X X X X X X X X X X X X x" X X STRATIGRAPHIC PALEONTOLOGY. 165 MIOCEITE OR PLIOCENE, PROVINCE OF SAMAnA. last of stations. 8607 (C-21). Province of Sanamd, bluff on north coast of Samand Bay, about 2.5 kilometers east of Sdnchez. G. W. Cooke, collector, April 26, 1919. 8764. (R. 3). Province of Samand, north shore of Samand Bay, 1.7 kilometers east of pier at Sdnchez. C. P. Ross, collector. June 27, 1919. 8684 (D. C. 4). Province of Samand., eastward-dipping clay beds in cut near pier at Sdnchez. C. W. Cooke and D. D. Condit, collectors. April 1, 1919. 8685 (D. C. 5). Province of Samand, beach on Samand Bay, 90 meters east of station 8684, near pier at Sdnchez. C. W. Cooke and D. D. Condit, collectors. April 1, 1919. Faunal list. Species. 8607 8764 8684 8685 Mollusca: X X X X X Ampullaria ? sp X X Plants: Poacites sp X X X Piaonia conditi Berry, X Pithecolobium samanenais Berry. X X X Bucida aanchezensis Berry X X X X Mfi]afit.nmitRH HnTningpnain Rprry Guettardia cookei Berry_ PLIOCENE OR PLEISTOCENE, PROVINCE OF MONTE CRISTI. Ldst of stations. 8560. Province of Monte Cristi, between Copey and Dajabon, at north edge of flat, on north side of Dajabon. T. W. Vaughan, collector. April 26, 1919. 8633 (R. 38). Province of Monte Cristi, on main road from Monte Cristi to Dajabon, at north edge of town of Copey. C. P. Ross, collector. May 7, 1919. Faunal list. Species. 8560 8633 Corals: Stephanocoenia intersepta (Esper)... Orbicella cavernosa (Linn.)... Maeandra labyrinthiformis (Linn.).. Siderastrea sidera (Ell. and Sol.) Forites astreoides Lam X X X X X 166 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN EEPUBLIC. PLEISTOCENE OR YOUNGER. Station on north side. 8776 (R. 27). Province of Monte Cristi, from sea-beach at Rodriguez house, about 25 kilometers northeast of Monte Cristi; altitude, 7.5 meters above sea-level. C. P. Ross, collector. May 4, 1919. Mollusea: Station. Strombus gigas Linnaeus ? 8776 Codakia orbicularis (Linnaeus) 8776 List of stations on south side. 8688 (D. C. 7). Province of Maoorls, 1.4 kilometers from San Pedro de Macorls, on Camino Real to Platanitos; altitude, 9 meters above sea-level. T. W. Vaughan, collector. April 3, 1919. 8690 CD. C. 11). Province of Macorls, from limestone underlying San Pedro de Macoris. D. D. Condit, collector. April 3, 1919. 8695 (D. C. 16). Province of Santo Domingo, road from Santo Domingo to San Cristobal, 24.5+ kilometers from Santo Domingo; altitude, 80 meters above sea-level. T. W. Vaughan and others, collectors. April 6, 1919. 8674. Province of Santo Domingo, road from Santo Domingo to San Crist6bal, about 24 kilometers from Santo Domingo ; altitude, 57 meters above sea-level. T. W. Vaughan and others, collectors. April 6, 1919. 8697 (D. C. 18). Province of Santo Domingo, road from Santo Domingo to San Crist6bal, 23+ kilometers west of Santo Domingo; altitude, 36 meters above sea-level. T. W. Vaughan and other, collectors. April 6, 1919. 8698 (D. C. 19) . Province of Santo Domingo, west side of Rio Jaina, north of west end of bridge on road from Santo Domingo to San Cristobal. T. W. Vaughan and others, collectors. April 6, 1919. 8573 (D. C. 89). Province of Barahona, from "coast Umestone'' at Cabral. D. D. Condit, collector. May 28, 1919. 8593 (D. C. 92). Province of Barahona, "coast limestone" fossils from village of Barbacoa, altitude ranging from 33 meters below sea-level to about sea-level along the shore of Lake Enriquillo. D. D. Condit, collector. May 27, 1919. 8629 (R. 63). Province of Barahona, from coral Umestone along the road from San JosiS to Lake Enriquillo. C. P. Ross, collector. June 4, 1919. 8625 (R. 52). Province of Barahona on road from Duverg6 to Palma Dulce. C. P. Ross, collector. June 1, 1919. 8630 (R. 64). Province- of Barahona, from sand in road west of Duvergfi, a short distance beyond the place where the road reaches the shore of Lake Eittiquillo, in entrance of pass into hills. C. P. Ross, collector. June 4, 1919. STRATIGEAPHIC PALEONTOLOGY. Faunal list. 167 Species. Prov. Macoris. Prov. Santo Domingo. Prov. Barahona. 8688 8690 8695 8674 8697 8698 8573 8593 8629 8625 Corals: Onnlinfl. vn.lAnnipnnARi IVT, R<1w. Rrd TT X X X Madracis decactis (Lyman) . . . Stephanocoenia intersepta (Esper) Eusmilia fastigiata (Pallas) X X X X Y X X X X X X X X X Meandrina maeandrites (Linn.) X X OrWni^lla Hni>^]]arij^ (Kll. and Rol.) var. Orbicella annularis (Ell. and Sol.) columniform var. , X X X X Orbicella cavernosa (Linn.) var X Orbicella sp., aff. O. limbata (Duncan) X X X Maeandra areolata (Linn.) X X X Maeandra strigosa (Dana) X X Maeandra sp X Manicina gyrosa (Ell. and Sol.) X X X X X X Agaricia n. sp. e 7^ X X X X X X X X X X X Siderastrea siderea (Ell. and Sol.) var. domini- X X X X X X X Porites porites (Pallas) X X X X X X X Hydrocorallinae : X V Species: Prov. Macoris. Prov. Barahona 8690 8573 8593 8629 8625 8630 MoUusca: Gastropoda: X X X X X X X Oliva literata Lamarck X X X X X X X X X X Alectrion consena (Ravenel) ... „ X pitTnTnhnH piignlis TiinnflAim X X Cerithium (Vulgocerithium) atantoni Dall X Cerithium (Vulgocerithium) sp. aff. C. stantoni Dall X ' This species probably does not occur with the others listed from Station 8573. 168 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN REPUBLIC. Faunal list — Continued. Species. Prov. Macorit?". Prov. Barahona. 8690 8573 8593 8629 8625 8630 Mollusca — Continued : Gastropoda — Continued: Cerithium (Vulgocerithium) variable Adams X ? ^ X X X X X X X x X X X X X X X X X X X X Natica (Cryptonatica) pusilla Say. Fissuridea alternata Say Pelecypoda: Area (Area) umbonata Lamarck X Area (Calloarca) Candida Gmelin X X X X X X Pteria sp X Atrina liateri (d'Orbigny)? X Ostrea sp X X X X X Spondylua americanua Lamarck X X Craaainella guadalupensis (d'Orbigny) X X X X X X Lucina chrysostoma Philippi X 7 X X X Cardium (Trachycardium) muricatum Linnaeus.. X X Cardium (Fragum) medium Linnaeus X X X X X X X Macrocallista (Chionella) maculata (Linnaeua)".... X X X Cytherea listeri (Gray) X X Anomalocardia flexuosa (Born) X X Tellina (Angulus) pauperata d'Orbigi^'". X X X X Corbula aequivalvia Philippi ? CHAPTER VII. GEOLOGY AND WATER RESOURCES OF THE VICINITY OF MONTE CRISTI. By Clyde P. Ross. CHARACTER AND PURPOSE OF THE WORK DONE. The town of Monte Cristi, the metropolis of the western part of the Cibao Valley, is on the north side of the mouth of Rio Yaque del Norte, near the seacoast, in the northwestern part of the Province of Monte Cristi. The area here considered, which includes most of the irrigated country under cultivation around Monte Cristi, extends about 30 kilometers east of the town and is bounded on the north by the Monte Cristi Range and on the south by the Cordillera Central. (See map, PI. XIV.) Reconnaissance trips were made not only in the valley but through neighboring parts of the Monte Cristi Range and in the foothills of the Cordillera Central near Dajabon. The object of this investigation was to gain a general knowledge of the geology of the region and to ascertain the probability of obtaining supplies of groundwater, particularly artesian flows. Supplies of stored water are greatly needed in this region for, according to the most reliable information obtainable, the rainfall here amounts to only about 31 centi- meters a year.i The success of the principal local industries, farming by irrigation and stock raising, is therefore dependent upon water derived from sources other than direct rainfall. The present principal source of water is Rio Yaque. The few wells in the region are shallow, and the water in many of them is salty. The water obtained from these wells is used for cattle and, if not too salty, for domestic purposes. The examinations on which this report is based were necessarily hurried. More detailed investigations, aided by the driUing of test wells, would be necessary to warrant any but the most general conclusions as to the possi- bility of obtaining a sufficient supply of groundwater.. TOPOGRAPHY. The dominant topographic features of this region are the broad valley of Rio Yaque and the two mountain ranges that bound it — on the north the Monte Cristi Range; on the south the Cordillera Central and its outliers, the Cerros de Jacuba. Rio Yaque del Norte, the "largest stream in the Republic, is nearly 240 kilometers long and is about 100 meters wide near its mouth. In the lower part of its valley the river has built an extensive delta, across which run 1 Oral communioation from Mr. D. C. Terry, of Moxtte Cristi. 169 170 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. a number of ramifying channels. The river formerly emptied into Man- zanillo Bay, but it now enters the ocean at the southwest end of Monte Cristi Bay, about 3 kilometers from the town of Monte Cristi and 15 kilo- meters north of its former mouth. Its course is said to have been diverted several years ago by the construction of a dam near Las Canas, about 13 kilometers upstream from the present mouth of the river. The dam has apparently concentrated all the water in the present channel, which probably was formerly one of many channels that extended across the delta. The gradient of the river is about one meter to the kilometer, but the valley is in general a nearly level seaward-sloping plain. In the main valley the eminences that project above the plain are few and incon- spicuous. The surface of the plain rises gradually to the foothiUs of the Monte Cristi Range on the north and to the Cerros de J4cuba and other outliers of the Cordillera Central on the south. The site of the town of Monte Cristi is bordered on its landward side by a low semicircular ridge and on its seaward side by salt marshes, which are protected from the sea by a low sand bar. The custom house and wharf are at one end of this sand bar. Almost 5 kilometers north of the town is a wedge-shaped butte about 225 meters high, called El Morro. (See PL II, B.) The butte is accessible by land only from the sand bar, for the sea washes its north and west sides and salt marshes stand on its other sides. The Monte Cristi Range is composed of irregularly arranged hills and small mountains. Although some of the hills are steep, and even rough, none of them rise to a great altitude. The range was crossed on the trail from Monte Cristi through Isabel de los Torres to the sea at the finca of Senor Rodriguez, about 25 kilometers northeast of Monte Cristi town, where there is an old rope-fiber factory. Along this trail the range con- sists of isolated hills, 100 meters or more high, which rise abruptly from a roUing terrane that stands probably not much more than 10 meters above sea level. These hills, though rocky, are rounded rather than serrate. The hills southeast of the house of Senor Rodriguez are higher and the coun- try there is not so open. The trail from this house to Sabana Cruz, after passing Arroyo Guanito, climbs nearly 70 meters up a steep slope called La Subida de la Salina. At the top of this slope is a plain, which stands about 170 meters above sea level, and scattered hills rise abruptly 70 to 100 meters higher. This plain extends eastward, though it becomes rolling and more dissected in that direction until it merges into the open valley of Rio Yaque near La Plata. The rugged mountains of the Cordillera Central, which bound the valley of Rio Yaque on the south, rise abruptly from the savannas that occupy the area between the main mountain mass and its outliers. Hummocks of gravel are scattered over the savannas. The Cerros de J4cuba, one of the Memoibs, Vol. r, Pl. XIV GEOLOGY AND WATER RESOURCES NEAR MONTE CRISTI. 171 outliers about 6 kilometers distant from the main mountains, are a series of rather low hills that trend parallel to the main mountains. The hills south of Copey, which are the northwestern extension of the Cerros de J&cuba, are rounded and less elongate. GEOLOGY. The following geologic subdivisions have been recognized in the area: Recent alluvium. Pleistocene (?) beach deposits. Pliocene f?) gravel. Miocene sedimentary rocks. Oligocene tuffs. Oligocene (7) limestone and sandstone. Quartz diorite. QUARTZ DIORITE. During a trip from Sabaneta to Re6tauraci6n' by D. D. Condit and the writer quartz diorite was observed at one locality in the foothills of the Cordillera Central. A hill about 60 meters high, called Juan Calvo, which stands about 5 kilometers south of Dajab6n, is composed of gray, rather coarsely crystalline biotite-hornblende-quartz diorite, which is cut by small dikes of an aplitic rock and numerous small quartz veins. On the north side of the hill the quartz diorite is sheared along a narrow zone 3 to 6 meters wide. This shear zone strikes N. 40° E. and dips 45° SE. Along the shear zone micaceous minerals are more abundant than in the unsheared parts of the rock. Similar rock probably forms the main mass of the northern part of the Cordillera Central in this area. The age of the rock is not known. OLIGOCENE (7) LIMESTONE AND SANDSTONE. Hard, compact limestone, probably of upper Ohgocene age, was seen in the Monte Cristi Range and in the region immediately north of Dajabon. A low hill about 25 kilometers northeast of Monte Cristi and immediately east of the rope-fiber factory, on the seacoast, is composed of hard, mas- sive cream-colored limestone. The Foraminifera Amphistegina sp.-, Globigerina sp., and Heterosteginoides ? sp., probably of upper Oligocene age, were collected at this locality (station 8853) . Less than 3.5 kilometers east of this hill similar limestone shows distinct bedding planes that strike east and dip 60° N. Similar limestone was observed at another locality in the Monte Cristi Range on the trail 5.5 to 7 kilometers northeast of the settlement called Isabel de los Torres. The limestone at this place is hard, fine-grained, gray to cream-colored and distinctly bedded. The strike is east and the dip is 60° N. Apparently the limestone has been metamorphosed by the intrusion of small dikes of a hard black aphanitio rock. < See p. 52 of this report. 172 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Several hills north of Dajab6n show exposures of hard, gray massive limestone similar in lithology to the rock in the Monte Cristi Range, which contains Foraminifera, probably of upper Oligocene age. Immediately north of these hills, on Sabana Canongo along the trail from La Loma to Dajab6n, is an outcrop of hard sandstone, which grades into conglomerate. This sandstone contains numerous fragments of the shells of marine mollusks. Although the bedding is indistinct the strike is apparently east and the dip is rather gentle to the north. This sand- stone is considered older than the Miocene sediments because of its greater induration. Hard, calcareous sandstone, overlain by conglomerate interbedded with sun-cracked sandstone, was also observed in the Monte Cristi Range east of the rope-fiber factory on the seacoast about 25 kilometers northeast of Monte Cristi. The beds strike N. 65° W. and dip 55° NE. OLIGOCENE TUFFS. Tuffs were' observed at two locaUties in the Monte Cristi Range. Green weathered tuff outcrops along the coast at an altitude of about 45 meters above sea-level in an arroyo approximately 5 kilometers southeast of the rope-fiber factory. The tuff is not bedded, but a short distance upstream it is interbedded with coarse-grained sandstone, which strikes north and dips eastward. Corals that are apparently of Oligocene age and that are listed on page 111 (station 8775) were collected from thin calcareous beds intercalated in the sandstone. Green jointed rock, which is apparently a fine-grained tuff, is exposed at an altitude of about 75 meters above sea level in Arroyo Guanito on the trail to Barranca Blanca, 9 or 10 kilometers from the rope-fiber factory. At this locality the tuff grades upward into a conglomerate composed of pebbles that have a maximum diameter of 15 centimeters. The con- glomerate is overlain by hard, buff-colored, indistinctly bedded limestone. The beds strike N. 60° W. and dip about 70° SW. Pebbles of green chloritized tuff and lava are of widespread occurrence in this region and similar tuff and lava were found in place in the Cordillera Central south of Sabaneta.' MIOCENE SEDIMENTARY ROCKS. Limestone, sandstone, and shale and less consolidated sand and clay of Miocene age are widely spread in the vicinity of Monte Cristi. Obviously the Miocene series includes several formations, but their relations were not definitely ascertained. The exposures on the slopes of El Morro, near Monte Cristi, indicate that Miocene sedimentary rocks form a large part of the western Monte Cristi Range. Rocks of the same age or shghtly younger underlie the entire lower part of the Yaque Valley. See p, 52 of this report. GEOLOGY AND WATER RESOURCES NEAR MONTE CRISTI. 173 The following section was measured on the steep, bare slopes of El Morro. A barometer was used to determine altitudes. The fossils are listed on page 154. Section at El Morro. Meters. 8. Sandy porotis limestone containing a few fossils Cstation 8774, at an altitude of 155 m.) 63 7. Thin beds of limestone alternating with fossiUferous clay (stat'on 8783) 1.5 Unexposed 1 4 6. Soft sandy clay 9 5. Soft clay and impure limestone 25 4. Thin-bedded layers of sandstone, clay, and .'mpure L'mestone, containing a few fossils fstation 8782, at an altitude of 105 m.).. 40 3. Buff to reddish fossiliferous calcareous sandstone (station 8773).. 12 2. Hard, porous, buff-colored fossiliferous limestone, weathering gray (station 8772) 18 Unexposed 45 1. Buff limestone conglomerate 1 218.5 The beds that form El Morro strike N. 80° E. and dip 5° NW. The basal member of the above section is exposed at sea level about 600 meters south of El Morro. Members 4 and 5 are not actually exposed, but the hthology was determined from an examination of the surface ddbris. Although the collection of corals from member 3 (station 8773) is too small to warrant a definite determination of age, the other collections indicate that the beds exposed on El Morro are of the same age as the Yaque group of the middle part of the Yaque Valley. Sconsia laevigata (Sowerby), which is confined to the Gurabo formation in the middle Yaque Valley, was collected from member 7 (station 8783). Dr. Maury ^ collected the same species at this locality. Cross-bedded argillaceous sandstone and sandy clay are exposed on a hill immediately west of Isabel de los Torres, in the Monte Cristi Range, about 9 kilometers northeast of Monte Cristi. The beds strike N. 60° E. and dip gently northward . No fossils were observed , but the beds resemble those exposed on El Morro, both in lithology and in structural relations. Similar sedimentary rocks were observed at two locahties on Rio Yaque. Thin-bedded sandstone and limestone, which strike N. 45° E. and dip 20° SE., crop out a short distance downstream from -the manager's house on Manzanillo Plantation. Thin-bedded sandy limestone, which strikes N. 60° E. and dips 20° SE., is exposed on the south bank of Rio Yaqueat La Barca immediately upstream from the ferry landing. Thin beds of clay, sandstone, and impure limestone are exposed in many cuts along the automobile road from Monte Cristi to Santiago. The gen- > Maury, C. J., Bull. Am. Paleontology, vol. 5, p. 450, 1917. 174 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. eral strike of the beds is northeast and the dip is southeast at an angle less than 25°. These rocks are exposed from Monte Cristi to a place 23.75 kilometers east of Monte Cristi, where younger unconsolidated sand and gravel are encountered. In the vicinity of Barranca Blanca, in the Monte Cristi Range, sand- stone, sandy calcareous clays and soft white limestone are exposed in the arroyos. The beds are more disturbed here than in other areas of Miocene rocks, although the sediments are less consolidated. The strike shifts from north to east and the dip ranges from 15° to 60°. In addition to the beds described in the above paragraph the Miocene series includes a younger group of less consohdated sand and gravel. Such beds are exposed along the road from Monte Cristi to Santiago east of a place 23.75 kilometers from Monte Cristi. Although local dips as high as 10° were observed the beds are almost horizontal. The road to Guayubin and Sabaneta branches off the main road 24 kilometers from Monte Cristi. At La Plata, 27 kilometers from Monte Cristi, the fossil marine moUusks listed on page 154 (station 8778) were found partly embedded in the yellow soil that covers the plain. As the shells are numerous and widely spread they seem to be in place. They indicate a horizon high in the Miocene, probably higher than any of the horizons in the Yaque group of the middle Yaque Valley. Fossils of the same species were collected at La Subida de la Salina, on the trail through the Monte Cristi Range (station 8777, p. 154) . Soft, friable reddish-brown sandstone, which contains the fossils, is exposed along a steep slope almost 60 meters high. The beds strike N. 35° W. and dip 30° SE. At the top of the slope is a level plain, above which rise a few rounded hills. On the iiank of one of the hills, west of the trail, there is a shallow syncline in reddish-brown sandstone. Several low hills near La Barca, on the south side of Rio Yaque, are com- posed of undisturbed coralliferous limestone and sand. The corals (see list on p. 154, station 8780) represent a horizon high in the Miocene, per- haps equivalent to the horizon of the Mao Adentro limestone of the upper Yaque Valley. The town of Copey, which stands between Monte Cristi and Dajabdn, is built on rather soft, indistinctly bedded coralliferous light-gray sand and clay, which are well exposed immediately south of the town along the road to Dajab6n (station 8779, p. 154). These deposits are apparently of Miocene age but may be younger. Farther north, on the south side of Rio Yaque between La Barca and Cano de Botijuela, several hummocks that rise above the plain are com- posed of horizontal beds of coralliferous limestone and subordinate amounts of detritus from the limestone. The patches of limestone clearly are coral reefs, which are probably of the same age as the coralliferous deposits at GEOLOGY AND WATER RESOURCES NEAR MONTE CRISTI. 175 Copey, but the geologic age of the coralliferous rock at several localities has not yet been definitely determined. The rock at some places — for instance, just south of I^a Barca — is definitely Miocene, but at others it may be Pleistocene or even younger. Poorly consoUdated reddish-brown argillaceous sandstone unconformably overlies the Miocene sediments in the lower Yaque Valley. The uncon- formity is visible on the south bank of Rio Yaque at La Barca, immediately upstream from the- ferry landing. The consolidated Miocene beds strike N. 60° E. and dip 20° SE., but the overlying soft sandstone strikes N. 25° W. and dips 3° NE. The soft sandstone is probably of Miocene age. PLIOCENE (?) GRAVEL. The gravels that form the hummocks on the savannas along the foot of the Cordillera Central near Dajabon may be of Pliocene age. Appar- ently the gravel was originally spread over the entire plain and the hum- mocks are mere remnants. The most common rocks in the gravel are quartz diorite, finely crystalUne black igneous rock, and quartz. At one locality the gravels lie on the truncated surface of northward dipping- thin-bedded sandstone and clay, probably of Miocene age. PLEISTOCENE (?) BEACH DEPOSITS. Horizontal beds of beach sand and gravel form a cUff 7 meters high on the coast just east of the rope-fiber factory, about 25 kilometers northeast of Monte Cristi. The recent species of moUusks listed on page 166 (sta- tion 8776) were collected from beds in the upper part of the cliff. These beds are not older than Pleistocene but may be younger. RECENT ALLUVIUM. The lower Yaque Valley is covered with a thin sheet of alluvium that forms a yellow to brown clayey soil. The alluvium is similar to the silt that is building the delta at the present time. Although the soil is fine-grained it absorbs water rather readily. The thickness of this deposit is highly important to any one attempting to obtain a supply of ground water. The deposit forms the banks of Rio Yaque in its lower course, but at no place are the banks more than 3 to 6 meters high. Not far above the mouth of the river Miocene bedrock crops out in the channel of the river at places where the alluvium is not more than 6 meters thick. The wells, all of which are shallow, show that the alluvium is at least 6 meters thick. River deposits more than 15 meters thick will probably not be found in the part of the valley that includes the largest farms, but the thickness of the deposits can be definitely determined only by sinking test wells. 176 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN EEPUBLIC. STRUCTURE. The structure of the rocks under the lower part of the Yaque Valley- has an important bearing on possible supplies of underground water. The structure of the beds in this region is not a result of deformation during a single period but was developed progressively ; each one of the sedimentary formations described above was deformed before the next younger forma- tion was deposited. There has been both folding and faulting, but the deformation was not so intense as to produce great dynamic metamor- phism. The older formations are somewhat metamorphosed, but the younger ones have been very slightly affected. On the south side of the valley are the foothills of the Cordillera Central, which are evidently fault blocks. The quartz diorite appears abruptly in one of the foothills in Juan Calvo Hills near Dajab6n, and there is a distinct shear zone. The topography of other outlying hills, Cerros de Jicuba, suggests faulting, and the correctness of this view is supported by the pres- ence in them of limestone apparently of Oligocene age. On the north side of the valley, along the southern foot of the Monte Cristi Range, no indications of faults of great magnitude were observed, but in some places there has been folding sufficient to produce dips as high as 70°. The rocks that underlie the valley were seen also in the Monte Cristi Range, where they are more disturbed than in the valley, and at Barranca Blanca Miocene strata have been faulted. The strike of the struc- . tural lines is prevailingly east and west. A study of El Morro de Monte Cristi (see section on p. 173) shows the presence there of strata equivalent to the Gurabo formation between altitudes of 153 and 155 meters above sea level, and the hill is 57 meters higher. Near La Barca, on the south side of Rio Yaque opposite the town of Monte Cristi (station 8780, p. 154), fossils representing either the upper part of the Gurabo formation or the Mao Adentro limestone were collected about 5 meters above sea level. The bed at this station represents a horizon stratigraphically as high as 01* higher than the horizon of the bed exposed in El Morro de Monte Cristi at an altitude 150 meters or more higher topographically. The dip on the Morro is 5° N., but the beds at station 8780 are almost undisturbed. T>hese relations imply considerable deformation and perhaps a fault along or near the south side of the Morro, with downthrow to the south and upthrow to the north. The observations here recorded invaUdate the opinion of Gabb and Heneken, quoted by Maury, that the limestone cap- ping the Morro is "a continuation of that capping the Samba Hills, the intervening part having been removed by denudation." ^ The floor of the lower part of the Yaque Valley is formed of strata of Miocene age, which are either exposed or he under a thin cover of younger deposits. These strata are sUghtly inclined, crossed by gently undulatory 1 Maury, Carlotta J., Bull. Am. Paleontology, vol. 5, p. 450, 1917. GEOLOGY AND WATEB RESOUECBS NEAR MONTE CRISTI. 177 folds, and in places dislocated by small faults. The prevalent strike is transverse to the axis of the valley and the dips are more commonly west- ward than eastward. In places the same bed can be traced for considerable distances by continuous outcrop, although the valley floor slopes westward. If therefore seems probable that the strata have a general westward dip, which is varied by small transverse folds. One fold noted was a dome be- tween La Barca and the town of Monte Cristi, and probably there are others. Although the dips are usually low and westward, they are in some places fairly high and southeastward. Along the road from Monte Cristi to Santiago, for instance, there are southeastward dips at angles as steep as 20°. The general structural featm-es of the part of the Yaque Valley near Monte Cristi appear to be favorable to the occurrence of artesian water, but this opinion is only preliminary and should be verified by more detailed examination. WATER RESOURCES. SURFACE WATER SUPPLY. There is no permanent stream in the part of the Monte Cristi Range considered in this report, and the water in the streams that emerge from the Cordillera Central is available only in their immediate vicinity. Rio Yaque is the sol& present source of water for irrigating the farms in the lower valley and iS the principal source of water for domestic use, for which it is packed on burros for distances of 30 kilometers or more from the river. Unfortunately neither discharge records nor analyses of the water of this river are available. No springs are known in the area. After rains water is retained for long periods in pools in the channels of intermittent streams in the Monte Cristi Range, but most of these pools become dry during long droughts. UNDERGROUND WATER SUPPLY. POSSIBILITY OF OBTAINING GROUND WATER. Only a few shallow wells, none of which have been carried more than a meter below the water table, have been dug in the area under considera- tion. All have been dug by hand and none are more than 10 meters deep. Some of these wells are merely holes in the channels of intermittent streams, have not penetrated the permanent zone of saturation, and are dependent on precipitation for their supply of water. Many of the wells are not reliable at all seasons and would have to be sunk deeper in order to obtain a permanent supply of ground water. The fact that water is found in wells 6 to 10 meters deep shows that the water table stands relatively close to the surface. The presence of salt water in all the wells has discoxu-aged further develop- ment of the underground supply, but the amount of salt in several of the older wells is said to have decreased so much that their water is potable. 178 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. The salt in the ground immediately adjoining these weUs appears to have been washed out, and if the wells had been energetically pumped the salt might have been removed much more quickly. Though the wells are shallow and inadequate, enough of them have been sunk to show that ground water can be obtained in the lower part of the valley of Rio Yaque. The porous beds in the underlying rocks form a large reservoir for the storage of ground water. The drainage from the well- watered region about Santiago and from the Cordillera Central furnishes an ample supply of water to fill this reservoir. Wells sunk almost anywhere in the lower part of the Yaque Valley would probably strike water, and a permanent supply might be obtained by pumping wells that penetrate the permanent water table. The quantity of water obtainable would be ample for domestic use and it might be sufficient for irrigation. Definite statements concerning the mineral content of the water from such wells are unwarranted. The water obtained in shallow wells that have been dug is at first invariably salty, but several of the older wells now yield potable water. Most of these wells have been sunk in the alluvium, but several were dug in Miocene rocks. Evidently salt is present a short distance below the surface in both the alluvium and in the older rocks. In some places the salt appears in salt fiats on the surface. The presence of potable water in some of the old wells shows that the salt in the soil or in the rocks near these walls is rapidly removed. If modern pumping methods were appKed the salt might be removed even more rapidly and effectively. As many of the Miocene rocks are calcareous the water in some of the deep wells may be too hard for use in the laundry. Water obtained from the crystalline rocks near Dajabon would have a much lower mineral content. POSSIBILITY OF OBTAINING ARTESIAN WATER. The well-watered region of the middle part of the Yaque Valley and the part of the Cordillera Central that bounds the area on the south would evidently furnish an adequate supply of ground water, and as these areas are considerably higher than the lower Yaque Valley the water would be under adequate pressure, yet the information obtained does not warrant definite conclusions as to the possibility of obtaining artesian water in the valley. As older Miocene rocks dip from the south northward under younger rocks in the upper and middle parts of the Yaque Valley and pass below the rocks exposed around Monte Cristi, and as the valley floor slopes toward the mouth of the river, underground water from the middle parts of the valley might drain into the Miocene beds that underlie its lower parts. However, as the Miocene strata of the lower valley are faulted against the foothills of the Cordillera Central, the quantity of water that enters the Miocene strata may not be so great as might enter if the strata were upturned along the mountain front. GEOLOGY AND WATER RESOURCES NEAR MONTE CRISTI. 179 Although the beds are thin and many of them discontinuous, some of the Miocene rocks are sufficiently porous to contain considerable quantities of water; and although no continuous thick beds of shale or other impervious rocks are known in the Miocene series, shaly beds are known that would be adequate retaining agents if advantageously placed with respect to a water- bearing stratum. In the area under consideration the water table lies close to the surface, so that the downward pressure of the water itself might take the place of a retaining agent and produce weak artesian condi- tions, but the flow under such conditions would not be very strong. It seems probable that artesian conditions may exist at some places near Monte Cristi, but whether adequate flows of suitable water could be ob- tained at moderate depths at such places can not be predicted from the data available. Artesian wells would have to be drilled to a greater depth than wells from which the water is obtained by pumping. CONCLUSIONS AND RECOMMENDATIONS. Ground water can be obtained at no great depth in the lower part of the valley of Rio Yaque, and pumped wells may yield it in considerable quantity. Although the upper ground water is more or less salty, water of good quality for both domestic use and irrigation can probably be ob- tained, and as such water is far less contaminated than the river water it will be preferable to the river water for domestic use. A much larger area might be irrigated by water from wells than by water drawn from Rio Yaque by present methods if the water should be suitable for irrigation, and as the water table is at many places only a little farther below the sur- face of the ground than the water in Rio Yaque is below the tops of the river banks, the cost of pumping from wells would be hardly greater than the cost of pumping from the river. If only water for domestic use is desired, wells equipped with windmills would furnish an adequate supply at a very low cost. Adequate supplies for watering stock could probably also be obtained in this manner, but sufficient water for irrigation on only a very small scale could be obtained with windmills. Definite information concerning the amount and quahty of water and the depth at which it would be encountered can be obtained only by drilling test wells. Water will be encountered at a shallow depth, but the drill must be sunk considerably deeper to obtain it in large quantity. As the rocks that underlie the valley are thin bedded and are of various types their water-bearing capacity will vary considerably both laterally and in depth. The quality of the water wiU also vary, and the first water encountered will probably be more saline than the deeper water. Test wells might be sunk on government property — ^for instance, at the agricultural experiment farm — ^but the well should be drilled to a depth of 100 meters unless an adequate supply of water of satisfactory quality is 180 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. obtained at less depth. For such a test a pipe 15-centimeters in diameter will be sufficient, and a strainer will be necessary if the water-bearing beds are composed of fine sand. An accurate record of the strata pene- trated and of the quantity and quality of water encountered at each water-bearing stratum should be kept in order to obtain data for drilling other wells. Samples of the water from each water-bearing stratum should be collected in clean bottles that are stoppered with unused corks. Sam- ples of the rocks that are penetrated should also be collected. A well of this size, though large enough to furnish a test, will not be large enough to supply water for irrigation. If the results of the test well are satisfactory a well with a 30-centimeter casing should be drilled on high ground in the vicinity of the test well. Although it is possible that a well 100 meters deep may obtain an artesian flow, an adequate test for artesian water wiU require a much deeper well, for failure to get water under pressvu-e in a well at such a depth will not prove that artesian flows can not be found in this region. To make an adequate test for artesian water a well should be drilled to a depth of 500 to 700 meters unless a satisfactory supply is found at less depth or unless the stratified rocks are passed through and hard crystaUine or metamor- phic rocks are penetrated. A site farther upstream than the experimental farm — one near Guayubin, for example — ^would be more favorable for an artesian test well. Favorable artesian structure in this neighborhood is suggested by the fact that the Miocene sedimentary strata in the hills south of Guayubin dip gently northward, toward the valley. The ground water near Guayubin is nearer its source and is therefore probably less mineralized than that farther downstream. If favorable results are ob- tained from a test well sunk at this locality other deep test wells, both up and downstream, would be warranted. No single well will furnish con- clusive proof as to the ground water conditions throughout the region around Monte Cristi, but one well properly drilled and tested will add to the knowledge of the ground water conditions and will furnish data that will afford more intelligent direction to further prospecting. CHAPTER VIII. GEOLOGY OF THE PROVINCE OF SAMANA. By Clyde P. Ross. The conclusions here recorded concerning the geology of the Province of SamanS, are based on observations made by the writer during a two weeks' reconnaissance between Sinchez and Santa B§,rbara de Samana, on the north shore, and during a trip by motor boat along the south coast of Samana Bay, as well as on observations made by Wythe Cooke at the west end of Samani Peninsula and on observations made by T. W. Vaughan, D. D. Condit, Wythe Cooke, and the writer during a day spent at San- chez while en route to Santo Domingo City. TOPOGRAPHY. SAMANA PENINSULA. Relatively low, rugged mountains cover almost the entire area of SamanS, Peninsula. The mountains at the west end of the peninsula are seperated from the Cordillera Septentrional by a flat, swampy area called El Gran Estero, which was in relatively recent time beneath the sea, when SamanS, Peninsula was an island. Recent species of corals and oysters were found in the soil along the road between Sinchez and Matan- zas, at the west end of the mountains, at an altitude of less than 15 meters above sea level. As the peninsula is shown as an island on some of the earlier maps the sea probably continued to occupy this area even within early historic time. The mountains of the peninsula consist of three parallel ranges. The southernmost range has a maximum altitude of about 300 meters above sea level, but the central range rises to at least 480 meters. The central range is drained northward. All the streams that enter SamanS. Bay drain only the southernmost range and the narrow coastal plain. In the area between Sanchez and Los Cocos the streams originate in springs at the base of the southernmost range. The east end of the peninsula is a more or less flat limestone plateau, which rises to an altitude of probably 100 meters above the sea and merges westward into the mountains. The streams on this plateau disappear in sink holes and flow underground to the sea, where some of them are said to emerge as springs along the beach. A narrow strip of low, rolhng country, which probably includes the dis- sected remnants of a series of sea terraces, fringes the mountains along the south coast of the peninsula between S&,nchez and Los Cocos. (See PI. Ill, C.) The highest parts of this roUing terrane stand about 30 meters 181 182 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN KEPUBLIC. above sea level. The altitude at S&.nchez is 15 to 20 meters; immediately- east of Sfi,nchez it is 10 to 15 meters. The change from the subdued topography of the rolling terrane to the rugged topography of the moun- tains is extremely abrupt. The mouths of all the smaller streams in this area are blocked by sand bars. Between Los Cocos and Samani the mountains descend directly to the sea. (See PI. Ill, B.) Hills 150 and 180 meters in altitude rise almost sheer from the water. At Saman§, a narrow valley interrupts the mountains and off the coast there are several small rocky islands. East of Samanfi, the hills again reach the coast. SOUTH SHORE OF SAMANA BAY. Dm-ing a trip by motor boat along the south shore of SamanS, Bay land- ings were made at a cove a short distance west of Punta de Boca del Infierno, at Sabana de la Mar, and at Las Canitas. The outline of the shore is shown on the United States Hydrographic Office chart No. 917. West of Sabana de la Mar the hills rise abruptly from the water and a number of small islands lie off the coast. On both the mainland and the islands sea cliffs that rise 3 to 12 meters above the water have been cut in the limestone. Sea caves and horizontal channels, some of which are 3 meters above high tide, lead back from the cliffs. The skyUne along this part of the coast is remarkably even. As viewed from the bay the hills seem to form a plateau which has an altitude of about 180 meters above sea level. Near Sabana de la Mar the hills probably reach an alti- tude of 200 meters above sea level. East of Sabana de la Mar the topography is decidedly diEferent. The hills are higher, are distinctly serrate, and apparently form several ranges. Except at a few places, the hills descend directly to the shore, but much less steeply than those to the west. GEOLOGY. The following geologic subdivisions were recognized along the north shore of Saman&, Bay. Recent deposits. Pleistocene or Recent terraces and coral reefs. Miocene or Pliocene clay, sand and conglomerate. Oligocene or Miocene limestone. Early Tertiary limestone conglomerate. Basal complex. BASAL COMPLEX. The rocks of the basal complex form the[mountains of SamanS, Peninsula and are therefore widely distributed. Metamorphic rocks were found in place and pebbles of pegmatites, f elsites,Jand other igneous rocks in younger conglomerates indicate that such rocks are probably intruded into the metamorphic rocks. Micaceous schist and schistose limestone are exposed GEOLOGY OP THE PROVINCE OF SAMAnA. 183 in the mountains. On the south slope of the mountains hard, moderately schistose gray limestone is the most common rock of the basal complex. The strike of the schistosity is in general parallel to the direction of the trend of the peninsula, but no bedding planes or fossils were observed in any of the metamorphic rocks. The age of these rocks is not known, but they probably are of the same age (Upper Cretaceous or older) as some of the rocks of the basal complex in the Cordillera Central. Evidences of normal faulting were observed along the southern base of the mountains. On the south shore of the bay the mountains east of Sabana de la Mar appear to be composed largely of sedimentary schists cut by basic dikes. At Las Canitas the schists are highly metamorphosed sandstone, sandy shale, and conglomerate. The bedding strikes N. 60°-80° E. and dips 15°-40° SE., but the schistosity strikes N. 40° W. and dips 70° SW. The schists are cut by dikes of finely crystalline greenish lamprophyre that contains bunches of epidpte. The dikes are vertical, are 30 to 60 centi- meters wide, and strike northeast. Banding that strikes N. 10° W. and dips 60° NE. was observed in one of the dikes. EARLY TERTIARY LIMESTONE CONGLOMERATE. A heavy, rudely bedded conglomerate is exposed in stream valleys and on some of the mountain spurs on the south slope of the peninsula west of Saman^. The pebbles, which are oval and usually flat, consist almost ex- clusively of the schistose limestone of the basal complex. They average 15 to 18 centimeters long, 8 centimeters wide, and 4 centimeters thick. The matrix is a yellowish calcareous cement. The conglomerate has been folded, but, though thoroughly consolidated, it has not been greatly metamorphosed. Its age is probably early Ter- tiary, for it rests unconformably on the basal complex and is overlain unconformably by deposits of supposedly late Tertiary age. OLIGOCENE OR MIOCENE LIMESTONE. Hard yellow limestone crops out in the upper part of Sierra Prieta, a small hill 45 to 60 meters above sea level at the foot of Loma Jackson, about 18 kilometers northwest of Sinchez. At the base of the hills lie loose blocks of hard conglomerate composed of Hmestone pebbles like those that form the conglomerate already described. The corals collected from the limestone (station 8606, p. Ill) are of late Oligocene or early Miocene age. Yellow foraminiferal limestone was found in talus at the foot of Loma Jackson. Similar rock, which has been brought from Arenosa, a station on the Ferrocarril de Santiago y SamanS,, in the Province of Pacificador, about 30 kilometers west of Sanchez, is used in a retaining wall near the railroad station at Sanchez. This rock is probably of Miocene age. Limestone also occurs in the plateau at the east end of the peninsula. The interior of the peninsula was not examined, but the flat and even sky 184 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN KEPUBLIC. line of some parts of the mountains suggests the presence of undisturbed sedimentary rocks that are younger than the rocks of the basal complex. The flat-topped hills west of Sabana de la Mar, south of the western part of the bay, are principally or entirely underlain by massive pink to white limestone, which is apparently almost horizontal. Although the limestone is fossiliferous no determinable fossils were found in it during the recon- naissance. As has already been suggested (p. 64), this limestone may be an eastward extension of the limestone that overlies the Cevicos limestone, but additional studies are needed to determine the geologic age and rela- tions of these limestones. MIOCENE OR PLIOCENE CLAY, SAND, AND CONGLOMERATE. Barely consolidated sands and clays underlie the low, rolling country that borders the mountains between S&nchez and Rancho Espanol. Some of the clays contain so much organic matter that they resemble lignite. A[bed of lignitic clay 2.5 meters thick was examined near Punta de Santa Paula. A bed 35 centimeters thick, which contains a higher percentage of organic matter, is exposed near the warehouse at Sanchez. None of the beds of lignitic clay examined, however, have any value as fuel. The sands, which are interbedded with the clays, are for the most part fine- grained but locally contain pebbles. Although these beds are only sUghtly disturbed they are folded and faulted at some places, where the dips may be as steep as 45°. Many small folds and a few normal faults of slight displacement are exposed along the shore between S&nchez and Punta de Santa Paula. The beds strike generally N. 50°-60° W. and except in the disturbed areas dip gently toward the southwest. The terrace flats described on page 181 bevel the deformed strata of this formation. The fossil coastal plants and brackish water mollusks that were col- lected from clays of this deposit near S&nchez (see lists on p. 165, stations 8607, 8764, 8684, and 8685) are probably of Miocene or Pliocene age. The heavy coarse conglomerate that forms the .islands and much of the steep parts of the shore near SamanS. is probably of the same age. The pebbles composing this conglomerate comprise metamorphosed limestone, limestone conglomerate, and different kinds of igneous rocks, embedded in a soft calcareous matrix. The marly coralliferous limestone in the vicinity of Los Rosales and Rancho Espanol and the oyster-bearing limestone bed near Punta Gorda may also be of the same age. PLEISTOCENE OR RECENT TERRACES AND CORAL REEFS. The presence of terrace flats whose surfaces bevel the plant-bearing clays and sands at and near S&nchez has already been mentioned (p. 184). The terraces are probably of Pleistocene age. GEOLOGY OP THE PROVINCE OF SAMANA. 185 Impure coral limestone, which lies nearly or quite horizontal, is exposed along the entire north shore of Saman&, Bay at alti udes of less than 3 to 6 meters above sea level. The limestone closely resembles modern coral reef limestone and probably represents reefs that have recently emerged from the sea. Punta de los Corozos, Cabeza de Toros, Punta de Santa Paula, Punta Gorda, and almost all the other points along the coast between Punta de los Corozos and Sanchez are composed largely of this limestone. RECENT DEPOSITS. Rio Yuna is bringing a large volume of sediment to the head of SamanS, Bay and depositing it there while coral debris and beach sands are being deposited along the coast. The deposits in the streams are boulders, cobbles, and gravel, which the water has not sufficient power to carry beyond the steeper slopes. The deposits of finer sediments are mostly in the western part of Samana Bay, so that the water of the bay elsewhere is mostly clean and affords conditions suitable for the growth of corals, especially those that thrive best in rather quiet but pure water. Off the mouth of the harbor at Santa Barbara de SamanS, fine colonies of the staghorn coral and the closely re- lated pabnate coral (Acropora muricata and A. palmata ) were seen. The general conditions under which the coral patches and the coral reefs in SamanS, Bay are living accord with what is known regarding similar coral formations in other parts of the West Indies, indicating that the bay is due to submergence in geologically very late if not Recent time. ECONOMIC GEOLOGY. The country bordering Samani Bay was examined with special reference to water supply and material for highway construction or other engineering enterprises. Analyses of waters are given on pages 249-254, and the results of tests of rock and clay-sand are given on pages 247-248. CHAPTER IX. GEOLOGY OF THE PROVINCES OF BARAHONA AND AZUA. By D. Dale Condit and Clyde P. Ross. AREA EXAMINED. A brief reconnaissance was made late in May and early in June, 1919, in the Provinces of Barahona and Azua (see PI. XV), which were then geolo- gically unknown, for the purpose of outlining the geology and of determining whether the mineral resources offer sufficient promise to warrant a more detailed investigation. Seepages of oil, beds of rock salt, and indications of metalliferous deposits of various kinds have been known in these prov- inces for many years, but aside from drilling for oil near Azua and the quarrying of rock salt in Enriquillo Basin practically no systematic search has been made in them for mineral deposits. Both provinces are remote from the ordinary lines of travel and are so inaccessible that most of their natural resoiirces have been unexplored. The recormaissance included a journey from Banica, near the Haitian border, eastward through Las Matas and San Juan to Rio Yaque del Sur. A rough traverse of this river was made from the vicinity of Tdbano to Cabral and side trips were made to points of interest along the route. One day was spent in the vicinity of Neiba, on the north shore of Lake Enri- quillo, and about a week was spent on the south side of the Enriquillo Basin, between Cabral and Duverg^. A short trip was made southward from Barahona and several trips were made in different directions from Azua. Most of the work in the vicinity of Azua was done by Wythe Cooke, who also furnished notes on the region from Constanza southward through Tiibano to Azua, and on the country east of Azua. All other parts of the area were covered by the authors. We are indebted to officials of the Barahona Company for an excellent map of the lower part of Rio Yaque del Sur and the neighboring country to the west and for material assistance in other ways during the course of the work. Our thanks are due also to Captain Hoenes of the Guardia Nacional, who assisted us in many ways, and to Mr. Richard D. Upham of the Interocean Oil Co., who placed at our disposal maps and geologic reports on the Azua district. GEOGRAPHY. The Provinces of Barahona and Azua are in the southwestern part of the Dominican RepubHc, along the Haitian frontier. (See PI. I.) The posi- tion of the international boundary line is so uncertain that the exact areas of the provinces are unknown:, but they comprise about one-third of the entire Republic, the total area of which is roughly 28,872 square kilometers. In longitude they range from about 70° 30' to 71° 50' W., and in latitude from 17° 30' to 19° 15' N. 186 GEOLOGY OF THE PROVINCES OF BAEAHONA AND AZUA. 187 LAND FORMS. PROVINCE OF BARAHONA. The surface of the Province of Barahona consists mostly of numerous hogback ridges whose trend ranges from east to southeast. Most of the rock of these ridges is hard white hmestone, in beds that are generally in- clined northward more or less steeply. The parallel ridges are probably in large part the result of step faulting, a tjrpe of structure known to prevail in this part of the island. The mountain tops as seen from a distance are generally of even profile, but here and there isolated peaks extend above the general summit. Some of the peaks visited consist of volcanic rock. The highest mountain ridges are generally 1,000 to 1,500 meters above sea level, and probably no peaks are as high as 2,000 meters. Between the mountains are more or less extensive valleys that include local savannas. Most of those in the interior have less rainfall than the coastal region and some are said to be poorly watered and either treeless or covered with low shrubbery of the mesquite and cactus type. The most striking topographic feature in the Province is Enriquillo Basin, a valley 12 kilometers broad, extending from the Bay of Neiba northwestward across the Haitian border to the sea at Port-au-Prince. A part of the interior is depressed and is occupied by Lake Enriquillo, a body of salt water whose surface lies (in June, 1919) about 44 meters below sea level. To the west, in the Repubhc of Haiti, is the smaller Etang Saum^tre, a lake said to be less salty than Enriquillo. Extending around Lake Enriquillo is a terrace of limestone having an altitude of about 35 meters above sea level and 79 meters above the lake. The upper part of this terrace is a mass of corals underlain by marly limestone consisting largely of shells. The Quaternary age of the fossils denotes an uplift of the valley from beneath the sea in comparatively recent time. The barrier to the east against the slowly flowing waters of Rio Yaque del Sur is so shght that they are used by the inhabitants for irrigating parts of the intervening area. In times of flood the river actually overflows the country and temporarily drains into Lake Enriquillo, and the Barahona Company proposes to irrigate some 160 square kilometers of this land by water diverted from the river through a tunnel to be cut through a low hill near the village of Alpargatal. The general aspect of the lower valley of the Yaque suggests that its delta deposits may have separated Lake Enriquillo from the Bay of Neiba, the lake having been in comparatively recent geologic time an arm of the sea. The actual separation probably took place during the regional eleva- tion that formed one of the latest diastrophic movements. The east end of Lake Enriquillo is bordered by a broad mud flat that rises very gently eastward to a barren waste of sandy "saladas," which 188 GEOLOGICAL HECONNAISSANCE OF THE DOMINICAN REPUBLIC. are too salty to support plant growth for a distance of several kilometers froln the lake but which gradually merge into dense thickets of mesquite and cacti. As the rainfall in all parts of the basin is more than 50 centimeters a year the somewhat desolate aspect of the region is due not to deficient rainfall alone but rather to the fact that most of the rain falls in torrents in one short rainy season and is thus of minimum benefit. Most of the bare low- lands are "saladas" caused by conditions other than scant rainfall. It is said that the ground-water level throughout the lowlands is within a meter or two of the suiface and that the water is in most places more or less saline. The irrigation of such land will certainly raise the water table and where the ground water is saline it will render the land unfit for culti- vation, but such loss may be temporary, for prolonged flooding may flush the salt water out of the ground. The success of this process will be aided by digging deep drainage ditches at rather short distances apart to carry the salt water toward Lake Enriquillo. By such means an area much larger than that included in the present project of the Barahona Company might ultimately be reclaimed. The great fertility of the soil and its prospective value for raising sugar-cane and long staple cotton seem to warrant the expenditure of a large sum of money on the project. The methods used should be similar to those employed by the United States Reclamation Service in certain parts of Arizona. PROVINCE OP AZUA. The Province of Azua is somewhat more mountainous than the Province of Barahona, especially in its northern part, which includes many high peaks of the Cordillera Central. The most prominent peaks are Lomas Tina, Rucillo, and Gallo, probably the highest in the islands. It is said that Loma Tina stands 3,100 meters above sea level, but it is doubtful whether the peak has ever been accurately measured or even ascended. Spurs extend southward from the principal mountains to the great central valley of San Juan, which, like Enriquillo Valley, to the south, trends a little north of west, reaching westward into the Republic of Haiti. The Neiba Mountains, which lie south of the San Juan Valley, are 1,000 to 1,500 meters high and differ from the jagged Cordillera Central in that they consist largely of limestone and other sedimentary rocks that form hogback ridges of fairly even profile. (See PI. XVI.) The central valley of San Juan ranges in width from 15 to 20 kilometers and the part of it that lies within the Dominican Republic extends from east to west for about 80 kilometers. Within the valley are low hills and rolling country as well as large tracts of nearly level savannas. The most extensive savannas are near the town of San Juan and consist of fiat, treeless stretches that lie only a few meters above the level of the river and slope gently southward. GEOLOGY OF THE PROVINCES OF BAHAHONA AND AZUA. 189 DRAINAGE. RIVERS. The Provinces of Barahona and Azua are rather plentifully supplied with streams, several of which are large. Many of the smaller ones, especially the "arroyos," are not through-flowing streams at all seasons. Some flow only after rainfall; others are perennial in their upper courses only. Rio Yaque del Sur is the largest river in the region and, with the excep- tion of Rio Guayajayuco, much the longest, its length being roughly 120 kilometers. Near its mouth it is about 50 meters wide and 3 or 4 meters deep and flows between banks of soft alluvium at a velocity of approxi- mately 4 kilometers an hour. It maintains the same general character throughout the area covered by its delta deposits, which extend from the vicinity of Alpargatal to the Bay of Neiba. At Palo Alto, in the delta area, the Barahona Company has maintained a self-recording stream gage for over a year. The gaging indicates that the low-water period in the river is from January to April. The minimum recorded flow is 18 cubic meters per second. Above the delta the river flows in several braided channels, 35 to 75 meters wide, over a gravel-strewn bed that ranges in width from several hundred meters to a kilometer or more. The current here is much swifter than it is farther downstream, but the channel is at many points not too deep to be easily fordable except in times of flood. Above Los Bancos the bed of the stream is more gorge-like. The water flows swiftly through channels strewn with coarse boulders or over bed- rock. Occasional floods are reported to raise the stream level 6 meters in the gorges. The Yaque has numerous tributaries, most of which are small streams that are dry during the greater part of the year. The longest tributaries are Rio San Juan (80 kilometers), Rio de las Cuevas (55 kilometers), and Rio del Medio (55 kilometers). Rio San Juan is itself a stream about 35 meters wide at its mouth. Its longer tributaries are Rio Vallejuelo (30 kilometers), Rio Maguana (25 kilometers) and Rio Mijo (55 kilometers). Rio Guayajayuco, which drains the region adjacent to the Haitian frontier, is a large stream 230 kilometers long. About 180 kilometers of its course lie wholly in the Republic of Haiti and most of the remainder forms a natural boundary between the Republic of Haiti and the Dominican Republic. The headwaters of the stream are in Monte Cristi Province, Dominican Republic. The Great Valley of San Juan is drained principally by the westward flowing Rio Macasla, 80 kilometers in length, a branch of Rio Guaya- jayuco. The longest tributaries of Rio Macasla are Rio Cana (80 kilome- ters) , and Rio Ceiba (40 kilometers) . The east end of this large structural valley is drained by Rio San Juan and its tributaries. 190 GEOLOGICAL HECONNAISSANCE OF THE DOMINICAN REPUBLIC. Much of the gently rolling plain that stretches eastward from Rio Yaque to Azua is a waterless wilderness. Rio Tabara drains the country that extends southward from Las Yayas almost to Puerto Viejo. It is nearly 50 kilometers long, but as a large part of the country it crosses has a somewhat scanty rainfall the stream is ephemeral except in its upper part, where there is probably some flow at all seasons. Rio Jura is a similar stream somewhat shorter than the Tabara. It drains the country just east of that served by Rio Tibara. When seen in June, 1919, near Azua it contained a small quantity of water and may not completely dry up at any season. The eastern part of the Province of Azua is drained by Rio Ocoa and its tributaries and by the headwaters of Rio Nizao. Rio Ocoa is about 65 kilometers long. It flows in a rock gorge above Arenoso, but below Arenoso it widens and flows in braided channels in a gravel bed. Rio Nizao is 80 kilometers long, about 35 kilometers of which are in the Prov- ince of Azua. Throughout its course it is a swift stream and flows over many rapids. A number of short streams flow into Lake Enriquillo from both the north and the south. Rio de las Damas, which passes through Duverg6, was the only one examined during this investigation except the very short streams fed by springs near the lake. Rio de las Damas is about 15 kilome- ters long. It is about 8 to 10 meters wide and nearly 2 meters deep at Puerto Escondido, and only about 3 meters wide and 1 meter deep above Duverg^. Part of the loss between these places is caused by irrigation in Escondido Valley, but part is probably due to seepage into the cavernous limestone which here forms the country rock. On this stream between Puerto Escondido and Duverg6 there are said to be two waterfalls that may furnish water power. Several fair-sized streams about 30 kilometers in length flow into the sea along the coast south of Barahona, among them Rio Bahoruco, Rio de los Patos, and Rio Cito. LAKES. Lake Enriquillo is by far the largest inland body of water in the island. As abeady stated, it occupies a depression which in Pleistocene time was probably an arm of the sea and which was probably separated from it by delta deposits of Rio Yaque together with a regional elevation of about 35 meters. Although the lake receives more or less water from Rio Yaque in times of flood and a considerable volume from springs and streams, it appears to be progressively shrinking through evaporation. Its surface now stands about 44 meters below sea level. The map of Enriquillo Basin made by James W. Wells ' in 1893 gives the altitude of Lake Enriquillo 1 Wells, J. W., A survey journey in Santo Domingo ; West Indies: Roy. Geographic Soo. Supplementary Papers, vol. 3, 1893. GEOLOGY OF THE PROVINCES OF BAEAHONA AND AZTJA. 191 at that time as 2 feet (61 centimeters) above sea level. Although his esti- mates of altitude were made with a barometer and are therefore only approximately accurate it would seem that there has been very considerable evaporation since his map was prepared. According to Tippenhauer^ the surface of the water was 34 meters below sea level in 1900. The water is nearly 50 per cent more saUne than sea water. The accom- panying analyses show that its composition is in general similar but that the ratio between calcium and magnesium is reversed. Although Lake Enriquillo was undoubtedly at one time an arm of the sea its water has since then been considerably concentrated by evaporation, which is high in this region, for it has no outlet. The drainage from the surrounding lime- stone mountains has caused an increase in the percentage of calcium. Mineral analysis and classification of water from Lake Enriquillo near Barhacoa, Province of Barahona. [Sample collected by C. P. Ross, May 29, 1919. Analyst, Addie T. GeigerJ Milligrama per liter. Calcium (Ca) 1 , 649 Magnesium (Mg) , 378 Sodium (Na) 15,973 Potassium (K) "503 Carbonate radicle (CO3) . Bicarbonate radicle (HCO3) 512 Sulphate radicle (SOi) 3,833 Chloride radicle (Cl)._ 25,547 Foaming constituents (computed) 44,000 AlkaU coefficient (inches) (computed) . 1 Organic matter 270 Total dissolved solids at 180° C 48,902 o Equivalent to 0.0006 per cent potash (K2O} in liquid brine or 1.23 per cent K2O in total solids. Comparison of the composition of ocean water with that of Lake Enriquillo. [Percentage of dissolved solids.] Lake Enriquillo." Average ocean water.S CL... Na.... SO.... Cai... GO".. K Mg... Br.... Total- Salinity 52.2 55.29 32.7 30.59 7.8 7.79 3.3 1.20 1.0 0.21 1.0 1.11 0.8 3.73 0.20 98.8 100.00 4.8902 3.301-3.800 a Analysis made in water resources laboratory of U. S. Geol. Survey. S Clarke, F. W., Data of geochemistry: V. S. Geol. Survey Bull. 616, p. 123, 1916. ' Tippenhauer, L, G., Beitrage zur Geologie Haitis, V: Petermann's Mitteilungen, Band 47, VII, p. 169, 1901. 192 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Lake Rinc6n is a much smaller lake near the east end of Enriquillo Basin. It differs from Lake Enriquillo in being only slightly brackish and in lying nearly 5 meters above sea level. A channel at Cabral connects it with Rio Yaque, through which the river water flows in times of flood. The lake abounds in fish, affording a means of livelihood for the people of neighboring villages. Lake Enriquillo, on the other hand, is reported to contain no fish at all. Alhgators are reported to live in both lakes, and flamingoes and cranes of several species may be seen in large flocks along the low, muddy shores. Lake Lim6n, which lies south of and only a few kilometers away from Lake Enriquillo, is reported to contain fresh water. It is separated from Enriquillo Basin by hills and occupies an independent depression that has no outlet. Laguna de las Marias, shown on the map by Wells mentioned above and on the de Moya map, is reported to be no longer in existence. Wells^ describes it as a lagoon thickly studded with palm groves near a short range of bare hills called Sierra de los Remedies. The altitude of the lake shown on his map is 160 feet (49 meters) above sea level. This may be too high, as the altitudes given on this part of his map do not appear quite consist- ent. The map shows the area of overflow of Lake Enriquillo during the rainy season. An altitude of 32 feet (9.7 meters) is given at a point in this area near its eastern edge. If this is correct there was a rise of over 9 meters in the level of the lake during the rainy season, which is consider- ably more than seems probable. SPRINGS. In the area covered by this report springs are rather numerous and many of them are large. In some areas, notably in Enriquillo Basin, they are used for irrigation. A few, such as those at El Puerto, near Las Matas de Farfan, are reputed to have medicinal value, principally for the cure of skin diseases and rheumatism. Sulphur springs are known at El Puerto, which is on Rio Macasfa near Las Matas, as well as at several places along Rio Yaque between Villar- pando and Boca Mula and near the head of Arroyo Quita Coraza, where there is a spring known as Agua Montilla. There are springs at many places on both sides of Enriquillo Basin. Many of them emit a strong odor of hydrogen sulphide, which is probably a constituent of the water in all these springs. Other sulphur springs are reported in many parts of the area. There are springs that discharge strongly saline water in Arroyo Quita Coraza near the settlement of that name and there are others on the sea coast about 4 kilometers south of Barahona. Salt springs are also reported at Guanarate, at Fondo Negro, near Azua, between Barahona and Cabral, and at other localities. •Wells, J. W., op. cit., p. 603. GEOLOGY OF THE PROVINCES OF BAEAHONA AND AZUA. 193 Springs of pure water appear to be exceptional in this region. Most of those near Lake Enriquillo are sufficiently free from sulphur to be potable. Curiously enough there is a fresh-water spring less than 20 meters from th'e strong salt spring on the beach a short distance south of Barahona. Springs of pure water are reported near Rio del Medio on the trail between Constanza and Tiibano, at Las Yayas, and there are doubtless others. The springs near Lake Enriquillo are unusual in several respects and deserve study. They border the basin on both the north and south sides, emerging from the lower edge of the bench of coral limestone which fringes the mountains. This uniformity in position is probably not due to any fundamental structure and has no bearing on the origin of the springs. The springs have their origin in the older limestone that forms the moun- tains against which the coral limestone has been deposited. The coral rock is of recent age and is very porous. It probably merely conceals the source of the water, which doubtless flows out of the ro^k on which it lies, percolates through it, and emerges at its outer edge. The springs probably antedate the coral rock and may be of diverse origin, an assumption borne out by the marked differences in the sulphur content of springs that are close together. Hydrogen sulphide is so generally a constituent of the spring waters in this region that its presence in most of the springs does not imply a common origin. Although the coral limestone conceals the source of these springs, many of them are probably tubular solution cavities in the limestone of the mountain, like those at El Puerto near Las Matas and at other places in the region where the source of the water is more evident. A number of these springs are large, forming brooks of con- siderable size. The sulphide in the water does not appear to be harmful in irrigation, for which the water is extensively used. Chemical Compositioii of Spring Water. Mineral analysis and classification of spring water (dug ditch) from Campo el Puerto, Province of Azua. [Samples collected by C. P. Ross, May 18, 1919; analyzed by Addie T. Geiger.] Constituents. Parts per million. SUica (SiO)2 18 Iron (Fe) .29 Calcium (Ca) 92 Magnesium (Mg) 18 Sodium and potassium (Na K) (calculated) 12 Carbonate radicle (COa) . Bicarbonate radicle (HCOs) 282 Sulphate radicle (SO*) 27 Chloride radicle (CI) 49 Nitrate radicle (NO,) Tr. Organic matter 5.2 Total dissolved soUds (180° C.) 350 194 GEOLOGICAL RECONNAISSANCE OF THE DOMIN CAN REPUBLIC. Classification. Parts per million. ^, .„„ CaCOs Character t? • o Quality for domestic ase *air Quality for boiler use Poor. Quality for irrigation Good. Mineral content Moderate. a Satisfactory for drinklDg. Partial mineral analysis and classification of spring water from Arroyo Quita Corazo, Province of Azita. (Samples collected by C. P. Rose, May 27, 1919; analyzed by Addle T. Geiger.] Constituents. Parts per million. Calcium (Ca) 820 Sodium (Na) 2149 Potassium (K) 12 Chloride radicle (CI) 4786 Organic matter 4.0 Total dissolved soUds at 180° C 8234 ClaBBification.a Chemical character.- NaCl Quality for domestic use „ Unfit.' QuaUty for boiler use Unfit. Mineral content Very high. Based upon relatively few determinations but sufficient to establish the classification, ft Unfit for drinking except possibly in small quantities by the passing traveller. Mineral analysis and classification of spring water from S kilometers south of Barahona, Province of Barahona. [Samples collected by C. P. Ross, June 5, 1919; analysed by Addie T. Geiger.] Constltuenta. Farts per million. Calcium (Ca) 180 Sodium (Na) 1951 Potassium (K)" 75 Carbonate radicle (COs) Bicarbonate radicle (HCO3) 349 Chloride radicle (CI) 3484 Organic matter 86 Total dissolved solids 6594 Classifieatlon.ft Character NaCl Quality for domestic use Unfit. Quality for boiler use.... Unfit. Quality for irrigation Bad. Mineral content Very high. o Equivalent to 0.00009 per cent potash (KsO) in liquid brine or 1.36 per cent KjO in total solids. b Based upon relatively few determinations but sufficient in number to establish classification. TOWNS AND VILLAGES. No reliable figures to show the population of the Provinces of Barahona and Azua are available. Most of the people live in towns and villages along the principal rivers or near springs, much of the interior being without a water supply and therefore uninhabited. Many of the place names on the map are applied to agricultural communities spread over several square GEOLOGY OP THE PROVINCES OP BARAHONA AND AZUA. 195 kilometers of fertile land in river bottoms or near springs that are used for irrigation. Some contain no more than two or three huts; others are vil- lages of several hundred households. Some of the best farming land is on mountain slopes where the rainfall is generally sufficient for cultivation without irrigation. Azua, the center of a large sugar industry, is the principal town in the region and by far the most progressive. It has a population of about 3,000 people and is surrounded by thickly settled country. The town is built on a broad plain that extends from Loma El Niimero on the east to the Yaque watershed on the west. Azua itself stands about 80 meters above sea level and a little more than 5 kilometers from the coast. About 15 kilometers southwest of Azua is Puerto Viejo, near which are the ruins of the old town of Azua, which is said to have been destroyed by an earth- quake about 200 years ago. South of Azua are the Azuano and Ansonia sugar estates, which are connected with the port, to the east, by narrow- gage railroads. San Juan, a town of about 2,000 inhabitants, is in the central part of the fertile San Juan Valley, about 75 kilometers northwest of Azua. Beans, rice, tobacco, and other products of the country are marketed here in exchange for goods from the outside world. Las Matas and Comendador, smaller towns that stand farther west, are also in the great San Juan Valley, which will be highly productive when communication with the coast is facilitated by good roads. Barahona, the capital of the Province of that name, is little more than a village. It is on the west side of Neiba Bay. A wharf is accessible to small ocean-going steamships, but the only boats that call regularly are sailing craft, which carry away large quantities of coffee as well as lignum vitae, mahogany, and other hard woods. Extensive improvements will be necessary to make the port fit for use by large steamships. Along Rio Yaque north of Barahona there is a large agricultural popu- lation. Cabral, Penon, Hatico, and Alpargatal are the principal villages. The people, by irrigation in a primitive manner, have brought under culti- vation much of the valley bottom. In this same region is the site of the large irrigation project of the Barahona Company, which plans to establish one of the largest sugar plantations in the world. The basin that includes Lake Enriquillo, although semi-arid and of saline soil, is bordered by mountains along whose bases emerge large springs that are used for irrigation and that form the centers of a number of agri- cultural communities. The principal villages are Neiba, which has 600 or 700 inhabitants, and Duverg^, which has nearly 1,500. There are also other villages that contain several hundred people. Several villages are scattered through the valleys of Sierra Bahoruco. Puerto Escondido, for example, is a prosperous farming community of over 500 people. 196 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Practically all the people lead an exceedingly primitive life. Their labor is almost entirely agricultural and is carried on intermittently in a haphazard manner. They have little idea of modern implements or their use, but they are intelligent and readily learn where attempts are made to teach them. The assurance of a stable government has been a great stimulus to increased effort, as is shown in the enlargement of areas under cultivation and the increase in cattle raising. Under the old state of affairs there was little encouragement to industry, for the farmer was at the mercy of roving bandits and revolutionists. Although showing the effects of intermingling with the black people across the Haitian border, the features of a large percentage of the popu- lation of the Provinces of Azua and Barahona suggest Indian ancestry with a mixture of Spanish. Some of the influential people of the larger towns are of direct Spanish origin. These border provinces have borne a reputation of lawlessness and unfriendliness to strangers that made travel difficult if not dangerous, yet our party had no experience whatever that would indicate unfriend- liness and was invariably treated courteously and nearly everywhere hospitably. ROUTES OF TRAVEL. The total length of regularly constructed highways in the two districts is about 30 kilometers, all of which are near Azua. An excellent gravel road leads northwestward from Azua for 22 kilometers. At a distance of 15 kilometers the road to San Juan branches to the left from this road. In dry weather, when Rio Yaque is low, light automobiles are used for travel from Azua to San Juan, a distance of about 75 kilometers, and also to Las Matas, about 12 kilometers farther. They also traverse the road from Azua eastward to the capital city when conditions are favorable, but during the rainy months this road can be traveled only with difficulty even by saddle horses. Wheeled vehicles can go from Barahona north to Cabral, thence west through Las Salinas to Neiba and Barbacoa, on the north shore of Lake Enriquillo, and to Duverg6, on the south shore. The distance from Bara- hona to Neiba is about 55 kilometers and that to Duverg6 a little less. From Cabral a cart route has also been cleared northward to the vicinity of Jobo and thence westward. In Barahona cars can be hired to travel all these roads in dry weather. Although the natural conditions favor the easy construction of excellent highways, few of those now existing are worthy of the name, being merely trails littered with rocks and bristling with stumps. Travelers go by land from Barahona to Azua by saddle, generally up Rio Yaque to Quita Coraza, thence northeastward up an arroyo and across a low divide to the Azua-San Juan road at a point about 10 kilometers GEOLOGY OP THE PHOVINCES OF BARAHONA AND AZUA. 197 from Azua. A trail leads southward from Barahona along the rocky, precipitous coast to Paradise and Enriquillo. Another leads from Duverg6 southward through Puerto Escondido to Pedernales, and another from Neiba northward to San Juan. Both the north and south shores of Lake Enriquillo are followed by trails that lead to the Haitian border, the one on the south shore being most frequently used. From Azua Province northward across the Cordilleras there are only two practicable routes — one through Tdbano and Constanza, the other from Las Matas to Banica and thence over a rugged country on the east side of Rio Guaya- jayuco to Restauraci6n. A much easier route from BS,nica north can, however, be taken by crossing the river and passing across the eastern tip of the Republic of Haiti. CLIMATE AND VEGETATION. The general impression gained from the accounts of travelers is that much of the Provinces of Barahona and Azua consists of desert wastes that are almost devoid of rainfall. This is far from true, for no part of this region deserves that rating. The rainfall is so great in all parts of the provinces that the ground is covered with a dense growth of mesquite, guayacan, and other small trees. Tree cacti are only locally abundant. In areas where the surface bears little vegetation — as for instance, in the vicinity of Lake Enriquillo — ^its bUrrenness is caused by salinity of the soil rather than by scant rainfall. Within 3 kilometers to the north of Azua excellent gardens are grown without the aid of irrigation. Figures showing the rainfall for a long period are not available, but reli- able observations made for several years at a number of places along and near the lower Yaque Valley by the Barahona Company show at each point a rainfall of more than 50 centimeters a year. The least rainfall recorded was at Las Salinas, where the average during the past two years was 53 centimeters. At Palo Alto the average for four years was 94 centi- meters, and at Barahona it was about 106 centimeters. Most of the pre- cipitation at Barahona comes within two rainy seasons, one from April to the middle of June and the other from late in September nearly through October. The precipitation near Azua is variable, but is about 76 centi- meters at the base of the mountains and is a little less in the adjacent plain. The somewhat arid appearance of much of the country seems to be due to the fact that most of the rain falls in torrents during a short rainy season, so rapidly that it does not soak into the ground. A fall of as much as 20 centimeters within a few hours has been recorded at Palo Alto. The mountain slopes nearly everywhere appear to receive considerably more rainfall than the adjacent plains and are accordingly clothed with a 198 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN EEPUBLIC. ranker growth of forest. The change is noticeable in an ascent of only a few hundred meters. Different exposures of the same mountain may not be similarly favored, however, for the clouds generally come from the northeast and lose much of their moisture on the northeastern slopes. The vegetation of the coastal plain and low hills of the interior in the more arid part of the two provinces consists largely of a variety of mesquite (cambr6n) and of logwood, together with lignum vitae (guayacin). (See PI. XVII, A .) The cacti include large, branching trees of the Cereus type (cayuca) and the prickly pear type (taina) ; and a low, branching exceed- ingly troublesome cactus (guazabara) covers most of the ground and pro- tects the scattered clumps of grass from hungry cattle. In the moist river bottoms there are many other trees, some of which grow very large, especially the ceiba. There are also the amacigo, mora, and other trees that are more or less valuable for export. Mahogany (caoba) is one of the most common woods and is used for lumber and fire wood. It generally grows in limy soil in the hills. Many of the higher mountains are timbered with pine, generally of telegraph pole size but here and there 60 to 80 centimeters in diameter. It makes an inferior lumber, rich in in resin and so heavy that it hardly floats. When placed in the river for rafting, the logs are said to absorb water and to sink after a short time. PRODUCTS. Coffee of excellent grade is grown in considerable quantity in the uplands near Barahona. The rice grown on the mountain slopes is nearly suflBcient to supply the needs of the two provinces. Tobacco is a standard crop and is shipped in large quantities. Beans are grown in the mountain valleys north of Lake Enriquillo and as much as 1,000,000 pounds is said to have been marketed from that district alone in one year. Bananas, plantains, yams, and yuca, the food of the poor people, are plentiful in every com- munity. The settled poUtical conditions of the last few years have en- couraged cattle raising. The Province of Azua is famous throughout the Repubhc for its excellent mules, and though these are small as compared with those raised in the United States, few of them being much over 14 hands high, they are as hardy and on the whole better tempered. There is no wild game, the largest animal native to the island being no larger than the woodchuck of the United States. Pigs and goats abound in every settlement, and wild pigs that have escaped from domestic stock roam in the mountains. Many of the people are engaged in getting out mahogany, lignum- vitae, mora, dye woods, and other valuable timber for exportation, but their efforts are confined largely to small timber of inferior grade, for there are almost no roads over which the lumber can be carried to the sea for ship- ment. > ^. -•■•■■/■'■' J,- *-'%l^ '( ' 'V-^Vs* '.-■'■■"J -,' ;'"' ■ < o g^ ■ '^ H « O 1^ p=i O |x,0 fe M rt Bj O H g CQ S CO H O O K d f^ Eh V H g rH O O PS o pg W P ^< ZS l-H Ed] SO o p GEOLOGY OF THE PROVINCES OF BARAHONA AND AZUA. 199 GEOLOGY. STRATIGRAPHY. The following table shows in a general way the character and sequence of the sedimentary rocks in the Provinces of Barahona and Azua. Generalized stratigraphic table. Age. Formations. Character. Unconformity. with conglomerate from nearby mountains. Beds lie practically flat and contain modern fossils. Reef coral terraces of Enriquillo Basin may be later than the "Coast limestone." Pliocene ? Las Matas formation Unconformity. Gravels and marly non-foasiliferous clay, slightly folded and resting unconformably on Miocene strata in San Juan Valley. Cerros de Sal formation.... Variegated clays, shale, sandstone, and limestone, all more or less fossiliferous, underlain by a thick sequence of crys- talline gypsum and Bome rock salt. Unconformity. Clay-shale and impure limestone rich in fossils. Sandstone, shale, and conglomerate. of Azua; bluish sandy shales and sandstone farther east. Greenish to bluish sandy, fossiliferous, calcareous shale. Impure shaly limestone, purplish to reddish. Gray crystalline limestone. Conglomerate and sandstone. Pre-Tertiarv Slates, schists, and gneisses, with a great variety of igneous rocks, possibly in part Tertiary. PRE-TERTIAEY ROCKS. Rocks of pre-Tertiary age are known only in the northern and eastern parts of the provinces. They consist of metamorphosed sandstone, shale, limestone and both effusive and intrusive igneous rocks. The ages and interrelations of these rocks have not been accurately determined. Some are probably Cretaceous, but others may be even older. Like most of the rocks of the basal complex they have been folded and faulted and have undergone so much contact and dynamic metamorphism that their com- plexity can not be um-avelled without long and careful work in the field and laboratory. TERTIARY SEDIMENTARY ROCKS. Eocene. Rock of Eocene age was identified at three locahties in Azua Province, as follows: Station 8562, foraminiferal limestone in gravel on the road at a place halfway between Banica and Las Matas; station 8608, rubble on the side of the road from Tiibano to Las Yayas, north of Arroyo Salado, near Higuero Largo, altitude about 500 meters; station 8644, rubble from Higuerito. Rock of the same age was identified at several places in the 200 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Province of Barahona, as follows: Station 8626, limestone pebbles near Rancho Viejo; station 8627, foraminiferal limestone, Sierra de Bahoruco, west slope of Canada de Rancho Viejo ; station 8576, foraminiferal limestone from near sea beach, south side of Rio Cana, about 9 kilometers south of Barahona; station 8595, rubble on mountain slope 2.5 kilometers north of Barbacoa. The fossils obtained at these localities are listed on page 106. Sedimients of probably Eocene age were seen at other places. The mountain ridges of dense gray Umestone in the southwestern part of the Dominican Repubhc are at least in large part composed of rocks of Eocene age. In the Republic of Haiti similar rock containing Eocene fossils forms the hmestone mountains. Vaughan collected specimens of limestone containing Eocene Foraminifera at Cape Haitien and around Plaisance. The mountains around Ennery, between Ennery and Go- naives and between Gonaives and the Cul-de-Sac are composed largely of Eocene Umestone, according to Vaughan. ^ W. F. Jones estimates that the limestones near Port-au-Prince attain a thickness of at least 8,000 feet, but he did not distinguish between Eocene and Oligocene deposits.' Oligocene. Oligocene fossils were found at five localities in the Province of Azua, as follows: Station 8617, Las Cuevas, Rio San Juan, north of San Juan; station 8618, limestone hill at Majagual, Rio San Juan, north of San Juan; station 8565, Rio San Juan, about 1.8 kilometers west of Los Bancos, upper part of exposure; station 8619, Rio Yaque del Sur, near Los Bancos; station 8567, limestone, right bank of Rio de las Cuevas, about 1.9 kilome- ters west of Tdbano. For lists of fossils from these localities see page 109. The stratigfaphic relations of the Ohgocene to the Eocene deposits were not definitely ascertained, but the exposures along Rio San Juan about 1.8 kilometers west of Los Bancos strongly suggest that the rocks belonging to the two series are separated by an unconformity. The strata at station 8565 are exposed in a bluff about 900 meters long on the south side of Rio San Juan; the dip is northeastward at an angle of 10° to 13°. The material consists of fossiliferous conglomeratic shale and argillace- ous sandstone. The fossils comprise coral fragments, oysters, and gastro- pods. At a horizon about 100 meters stratigraphically lower poorly pre- served plant remains were found in evenly bedded sandstone. Among these plants Prof. E. W. Berry has recognized a species of Sophora, a coastal member of the Leguminosae. The suggestion is that this area was land prior to the deposition of the marine Oligocene and that the Oligocene is separated by an erosion unconformity from the Eocene. Besides includ- ing conglomerate, shale, and sandstone, the Ohgocene deposits are in large part composed of limestone. ^ Unpublished information. • Jones, William F., A geologioal reconnaissance in Haiti: Jour. Geology, vol. 26, p. 733, 1918. GEOLOGY OF THE PROVINCES OF BARAHONA AND AZUA. 201 For lack of time it was not practicable to map separately the Eocene and Oligocene deposits and they were therefore considered together, but in Bubsequent work the rocks belonging to the two series should be discrimi- nated. The fossils most useful in the determination of the age of the early Tertiary beds are the Foraminifera, which appear to be equally abundant in the Umestones, the sandy beds, and even the coarse conglomerates, but they are so inconspicuous that they may readily be overlooked. Miocene. TAQUE GBOUP. The rocks of Miocene age, besides occupying the greater part of the Cibao Valley, also occupy the principal structural basins in the Provinces of Azua and Barahona. The strata exposed along Rio Yaque del Sur are at least 1,500 meters thick. Sandy conglomeratic strata predominate, but there are also shales and limestones. The deposits are almost entirely marine but include local beds of lignite and fossil plants, which denote temporary emergence. These beds belong to the Yaque group as defined by Cooke. (See pp. 65-66, and for Usts of fossils see pp. 156-162.) CEBEOS DB SAL FORMATION. Around the border of Enriquillo Basin there are Miocene strata which are obviously much younger than those found along the upper course of Rio Yaque. They comprise the gypsum and salt-bearing beds, the fossils of which indicate late Miocene age. To these strata the name Cerros de Sal is apphed, from the locality of that name, near which rock salt is obtained. Until a more detailed study is made it will not be possible to define sharply the boundary between these beds and the underlying Miocene strata. As stated above, the lowest strata of the Miocene found along the upper course of Rio Yaque are largely sandstone. It is not known whether the Yaque group occurs in the Bahoruco Mountains. A great thickness of impure limestone, probably of Miocene age, underlies the Cerros de Sal formation, but its lithologic character is so different from that of the Yaque formation that there is considerable uncertainty as to their relations. (For lists of fossils, see pp. 163-164.) Pliocene. LAS MATAS FORMATION. There is no positive evidence of the presence of Pliocene deposits in the Dominican RepybKc. In San Juan Valley and to the southeast, along and near Rio Yaque, the plicated Miocene and older strata are overlapped by thick deposits of loosely cemented gravels and clays which generally dip gently basinward or are folded to a much less extent than underlying strata. These beds are called the Las Matas formation, for they are typically exposed near the town of Las Matas. No fossils have been observed in these gravels, but it is surmised that they are of Pliocene age. 202 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. QUATERNARY SEDIMENTS. "coast limestone." Along and near the coast in the Provinces of Barahona and Azua are locally flat-lying limestone and calcareous conglomerate called by Gabb the "Coast limestone." In the vicinity of Barahona village the rocks form terraced sea cliffs, and to the south, where the mountains lie near the sea, they consist largely of firmly cemented limestone conglomerate and reef-coral material. Somewhat similar deposits extend inland along the south border of Enriquillo Basin (PI. XVII, B). (For lists of fossils see pp. 167-168.) ALLTJVIAL DEPOSITS. South of Azua the material penetrated in drilling water wells appears to be in large part unconsolidated sand and gravel. Many deposits of such material are later than the "Coast limestone," including outwash gravels along the base of the mountains and sand and gravel along modern river channels and on terraces bordering the valleys. Part of the delta deposits of Rio Yaque and other streams and of the alluvium that forms the floor of Enriquillo Basin may be of Pleistocene age, but most of it is probably Recent. IGREOnS ROCKS. As already stated, large parts of the Cordillera Central consist of crystal- line igneous rocks ranging in composition from quartz diorite to grano- diorite. Others consist of serpentine, probably altered basic igneous rock. The diversity of igneous rocks found in the gravel of ahnost any large river flowing from the Cordillera Central shows that the basal complex includes a wide variety of types. No adequate petrographic study of these rocks was made. Quartz diorite and granodiorite appear to compose the bulk of the larger bathoUthic masses. Nearly all the crystalline igneous rocks show evidence of dynamic metamorphism, and many have been changed to gneisses, but in few places has the metamorphism gone far enough to obscure the original character of the rock. Besides the coarsely crystalline igneous rocks there is a thick series of volcanic rocks in the Cordillera Central, which are in part lavas and in part fragmental rocks, including tuffs and breccias. These are characteris- tically dark purple to green in color and vary in texture from fine-grained to coarse. They are metamorphosed, chloritized, and in part altered to serpentine. The more basic types of lavas are more common than the siUcic types. In San Juan Valley and here and there in the mountains of the two provinces there are small areas of volcanic rocks of Pliocene or more recent age. Some of these are fine-grained porphyritic lavas of andesitic compo- sition but there are also basalts. In Sierra Bahoruco near the seacoast there are amygdaloidal basalts. GEOLOGY OF THE PROVINCES OF BAEAHONA AND AZTJA. 203 At a locality called Punta Caiia, between Las Matas and San Juan, there is a hill composed of lava that appears to be younger than those above men- tioned and that may be of Pleistocene age. It is a fine-grained, fresh- appearing limburgite or basalt with phenocrysts of augite. It varies from dense and massive to amygdaloidal texture. Limburgite or basalt that is regarded as of similar age occurs in nearly flat beds capping mesas and upland areas of gravel elsewhere in San Juan Valley. GEOLOGIC STRUCTURE. The rugged central axis of Santo Domingo consists largely of igneous and metamorphic rocks, probably the oldest in the island. These are over- lapped on the north and south sides by sediments of Tertiary age. Con- sidered as a whole the island is therefore structurally a great anticline in which there are many flexures and faults. The principal mountain ranges and intermontane valleys that parallel the axis of the island are either up-faulted or down-faulted blocks or are the results of folding, or they have been formed by a combination of faulting and folding. Block faulting is the principal factor in the development of broad valleys such as Enriquillo and Cibao. The Cibao, which is flanked on the north by the Cordillera Septentrional, serves as the best known illustration, the broad plain being made up of Miocene strata having a general northward dip, which abut against the upfaulted Eocene and older strata that form the mountain mass to the north. The same type of faulting has produced Emiquillo Basin and probably also San Juan Valley. Similar faulting on a minor scale is evident throughout the Provinces of Barahona and Azua and may be seen along almost any north-south valley, where repetition of beds through faulting forms successive hogback ridges. No attempt is made to show these faults on the geologic map, for though many are known, none of them was traced throughout its extent. The principal faults are mentioned in the following description of the areal geology. AREAL GEOLOGY. GENERAL FEATURES. The surface of the Provinces of Azua and Barahona, as already ex- plained, falls naturally into four principal areas: (1) The Cordillera Central, consisting largely of metamorphic and igneous rocks; (2) the extensive inland valleys, made up of weak, easily eroded rocks but chiefly of struc- tural rather than erosional origin; (3) the low mountain ranges, mostly of semicrystalline limestone, alternating with the valleys; (4) the coastal plain, made up of flat-lying, comparatively young beds of limestone and other rock that overlap the older or folded strata in the coastal region and are represented by gravel, sand, or Hmestone in the topographic depressions of the interior. The geology of parts of the Provinces of Azua and Bara- hona is shown on "Plate XV (p. 186.) 204 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN REPUBLIC. THE CORDILLERA CENTRAL. The Cordillera Central was examined along the cross mountain trails through Restauraci6n and Constanza, those being the only feasible routes of travel northward to the Cibao Valley. Only the parts south of Restau- raci6n and Constanza are described here. Plate XVI, B, shows a view in the Cordillera Central looking southwestward across the frontier of Haiti from a place on the Binica-Restauraci6n trail near La Cruz, in the Prov- ince of Monte Cristi. The high mountains north of San Juan Valley are made up of a large variety of rocks, both igneous and sedimentary, consisting in part of quartz diorite and related crystalline rocks, which have intruded and more of less extensively metamorphosed older crystalline and sedimentary rocks. The foothills are faced with white, finely crystalline limestone, which appears in bold exposures that stand out conspicuously as seen from far out in the valley. Resting on and cutting the metamorphosed sedi- mentary beds and diorite are volcanic rocks of several kinds that for con- venience are designated the "early volcanics." They include dikes, lavas, and volcanoclastics, generally of basic variety, well advanced in alteration to serpentine. There are in addition the "late volcanics," of andesitic to basaltic composition, probably of Pleistocene age. Tihese occur here and there in the valley and also cover small areas in the mountians. They are easily distinguished from the "early volcanics" by their sUght decomposi- tion and their lack of deformation. The great San Juan Valley is bordered on the north by a conspicuous ridge of gray crystalline fossiliferous limestone, which forms a facing for higher mountains opposite the town of San Juan, and thfence extends westward to B&nica as a spur from the main mountain mass, 300 to 500 meters above the surrounding plain. The limestone is finely crystalline, is greatly seamed by veinlets of calcite, and contains indeterminable Foraminifera. Back of the limestone ridge and possibly conformably underlying it is a thick series of beds of hard shaly sandstone and sandy shale, which extend northward for many kilometers and form high mountains near the border of the Republic of Haiti. The hardness of these beds is the result of regional metamorphism that appears to become increasingly pronounced toward the north. The bedding lines in th,e shale are in large part ob- scured by a slaty cleavage having a general northwest strike. In the exposures farthest north the beds of shale have been changed to phyllite and the few beds of limestone have been changed to marble. From the vicinity of Guayajayuco southward to the mouth of Rio Joca, Rio Guaya- jayuco flows through a sharp canyon cut in this rock, which is a dark phyllite intricately seamed with white veinlets that run at right angles to the schistosity. In passing this canyon the trail along the Dominican GEOLOGY OF THE PROVINCES OP BAEAHONA AND AZUA. 205 side of the river leads over a steeply sloping mountain side at an altitude of about 1,100 meters. The age of this series of sedimentary rocks is not known, as no fossils were found in it. The rocks are similar in lithology to sandy beds seen near Bani, which are probably of Eocene age. The regional alteration may have been caused by the intrusion of the large masses of quartz diorite that cover much of the region east of Restauracion. The trail from Constanza southward descends the steep side of Loma Higiiela or Chingiiela, the top of which probably reaches an altitude of 1,500 meters above sea level, and follows the narrow gorge of Rio del Medio down to Arroyo el Gorbano, where it begins to ascend Loma la Fortuna, making a steady, steep climb to an altitude of about 1,000 meters above sea level, beyond which it follows the undulating crest of the mountain to Las Canitas, a settlement scattered over the side of the mountain at an altitude of some 1,100 meters above sea level. At Las Canitas a splendid view can be had of the great bulk of Monte Culo de Maco, towering above the canyon of Rio del Medio. This moun- tain, which is said to be as high as the more famous Monte Tina, is probably one of the highest in the island. The mountain falls off steeply at its north end, but its southern or southwestern slope is even and gentle, ap- pearing, as seen from a distance, like a dip slope. From the southwest side of Loma la Fortuna one can look out across the valleys of Rio Yaque del Sur and Rio de las Cuevas. Beyond the ford of Rio del Medio at Limon the trail leads across Loma la Laguna (altitude about 950 meters above sea level) and descends gradually to Rio de las Cuevas, down the boulder-strewn bed of which it extends to Tiibano. The mountains between Constanza and Las Canitas are carved out of a great massif of serpentine. Their slopes are steep but usually not pre- cipitous, and they are easy to climb. They are clothed for the most part with an open pine forest and a thin carpet of grass. Near the foot of Loma las Canitas, at an altitude of about 925 meters and about 8 kilo- meters from the village of Las Canitas, a quartz vein that contains copper ore cuts the serpentine. The width of the vein is variable but where seen does not exceed 2 meters. Several of the common copper minerals, in- cluding chalcocite, chalcopyrite, and bornite and their oxidized products, were recognized. About 1 kilometer beyond the outcrop of this vein and about 75 meters lower a bed of hard blue limestone abuts against the mountains of serpen- tine, from which it is evidently separated by a fault. This bed is probably a mass that has been separated from the main body of limestones of the older series, chiefly of Eocene age, by block faulting, but as no fossils 206 GEOLOGICAL BECONNAISSANCE OF THE DOMINICAN EEPUBLIC. were found in it, its age remains in doubt. Fragments of limestone breccia were found beside the trail a little farther down, and at La Madre Vieja, a spring about 1 kilometer beyond the outcrop of limestone, there were rolled boulders of conglomerate. Massive red rock, weathering shaly and inclosing pebble-like lumps, forms the base of Loma la Laguna on its northern side, but higher there are large blocks of massive conglomerate, composed of many varieties of igneous rocks, and less abundant fragments of limestone. At the top of the moun- tain is massive blue limestone conglomerate containing large boulders of gray cherty limestone. The bluff of Rio de las Cuevas where the Constanza trail meets it is composed of very coarse conglomerate with calcareous cement. It con- sists chiefly of boulders of igneous rocks, especially gray andesite, but it contains also travel-rounded boulders of limestone conglomerate similar to that at the top of Loma la Laguna. There are evidently conglomerates of two ages in this region and the limestone is older than either. The con- glomerate at the river appears to dip 18° N., but its bedding is obscure. KIO YAQUE VALLEY. In its course from the high mountains to the sea Rio Yaque del Sur crosses weak Oligocene and Miocene sandstones and shales, which are exposed along the valley in cliffs on alternate sides almost continuously as far down as Alpargatal, where the river emerges from the hills and flows slowly through alluvial lands for the rest of its course. The opportunity for stratigraphic study is so excellent that a week was spent in examining the exposures from the vicinity of Tiibano on Rio de las Cuevas down to Alpargatal. A rough compass traverse was carried the entire distance, and supplemental traverses were run to nearby points of interest along the route. An attempt was made to ascertain the stratigraphic sequence of the beds and to determine the possibility of their being oil-bearing under cover. As a result it is possible to give a section that is believed to be representative of at least the south-central part of the Province of Azua. At several places the river has cut close to the base of mountainous ridges of early Tertiary limestone. It crosses a spur of the Neiba Range just below the mouth of Rio San Juan, and farther down it runs just west of Sierra Martin Garcia. A good opportunity to study the character and thickness of the strata where they are but little affected by faulting was found in the vicinity of Quita Coraza, where beds of the Yaque group dip northward from the flank of Sierra Martiu Garcia into a synclinal trough. The following section is a compilation of measurements made in that vicinity: GEOLOGY OF THE PBOVINCES OF BAHAHONA AND AZUA. 207 Geologic section in vicinity of Quita Coraza. Las Matas formation. Loosely cemented conglomerate, sand- in meters. stone, and variegated clays, with a little marly limestone; color of clays varies from faint maroon to olive green; no fossils seen. These beds rest miconformably on the marine Miocene beds of the Yaque group 150+ Yaque group: Sandstone, coarse to conglomeratic, with light olive to gray shaly beds in lower part. Large Areas and other fossils plentiful in the lower beds 600 Clay-limestone member, with branching corals and layers of limestone filled with fossils (station 8590) 200 Sandstone, conglomeratic 100 Shale, bluish with thin laminae of sandstone; no fossils seen 400 Sandstone and conglomerate, bluish sandy shale, and thin, non- persistent beds of Umestone; some of the beds containing a few fossils, chiefly fragments of branching corals and oysters 1500 (?) Oligocene and Eocene?. Shales, bluish gray, with thin beds of calcareous sandstone 700 Limestone, gray, sparingly fossiliferous; unmeasured; forming the slopes of Martin Garcia. The lowest beds recorded in the above section appear along an arroyo that emerges from the hills at the north edge of Quita Coraza. The high- est beds of conglomeratic sandstone of the basal member of the Yaque group form a dip slope of 43°, against which the river waters wash, leaving a precarious footing for travelers along the trail. Perfect exposures of successively lower beds are washed bare in the arroyo, which is dry except during infrequent rainstorms. The rocks consist of an unvarying alterna- tion of even-bedded sandstone and sandy shale with some conglomerate and a few thin, nonpersistent beds of gray limestone. In the conglomerate are embedded a few oysters and broken corals, together with fragments of other shells. Some of the shaly beds contain impressions of leaves and stems of plants. This thick sandy member rests on shale underlain by limestone, which appears far up the arroyo in the steep slopes of Martfn Garcfa. The above described beds of the lower part of the Yaque group resemble sandy strata that appear along Rio Yaque from the crossing of the Azua- San Juan road northward, and it is surmised that the two are equivalent. They are believed to be the basal Miocene beds, and most if not all of the underlying shale and limestone probably is of OHgocene age. The next higher member in the section is non-fossiliferous dark-gray shale containing thin laminae of sandstone one-fourth to one-half centimeter thick, spaced at nearly equal intervals of 3 to 4 centimeters in the shale. The thickness of this shale is 140 meters. Overlying the dark gray shale are strata that may be designated the clay-limestone member. This member is about 60 meters thick and con- sists of gray, impure limestone and a little sandstone interbedded with 208 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. the bluish-gray to olive-green clay that constitutes the greater part of the section. Both the clay and limestone contain a large number of fossils, including corals of several species (stations 8590; for lists of fossils see pp. 157-162). The clay-limestone beds form a prominent hogback bluff along the right bank of the river opposite Quita Coraza and extend south- westward for many kilometers to the lowlands near Hatico. This part of the section is of chief interest as a possible container of oil. The thin beds of coarse sandstone in the midst of the clay-limestone mem- ber might serve as the reservoir rock and the richly f ossiliferous beds might have furnished petroliferous material. The overlying clays would serve as a cap rock, preventing the escape of the oil into the higher sandy beds. Above the calcareous beds is coarse sandstone that includes some con- glomerate and some shaly and calcareous beds in its lower part. The sandy beds contain large Areas, and some of the calcareous beds contain many corals. These strata appear on both sides of the east-west synclinal axis that lies between Los Giiiros and Quita Coraza and are exposed on the south to a thickness of about 175 meters. Higher strata in this sequence are concealed by a covering of gravels of the Las Matas formation, which occupy the axis of the syncline. The unconformable relations of the gravels of the Las Matas formation with the underlying strata is not pronounced here, the gravels agreeing rather closely in attitude with the substrata. In fact they would be taken for the same formation by one who had not become familiar with the litho- logic character of the two and had not seen the decidedly unconformable relations at places up the river. The gravels of the Las Matas formation here, as usual, are less firmly consolidated than the deposits composing the Yaque group, and they contain no marine fossils. Interbedded with the gravel, which is yellowish gray, are layers of soft, marly limestone and layers of faint reddish to purpUsh clay, which differs strikingly in color from the bluish-gray to olive-green clays of the Yaque group. The un- conformity between the two formations is plainly shown at a locality 8 kilometers upstream from Los Guiros. Here the gravel of the Las Matas formation forms a cliff on the left bank of the river, whereas a short dis- tance farther upstream the water flows in a cataract over fossiliferous sandstone of the Yaque group. The unconformity between the two formations is very marked, for there is discordance in the strikes as well as the dips. The general character of the strata along the upper course of Rio Yaque in the vicinity of the crossing of the Azua-San Juan road is described below. (See PI. XVIII, A.) From the mouth of Rio de Las Cuevas down to the mouth of Rio San Juan there are thick deposits of sandstone and conglom- erate, which are considered the basal part of the Yaque group. The same strata appear for a distance of several kilometers up Rio San Juan and com- DOMINICAN REPUBLIC Geological Survey Memoibs, Vol. I, Pl. XVIII A. SANDY SHALE AND SANDSTONE OF THE YAQUE GROUP ON RIO YAQUE DEL SUR AT CROSSING OF AZUA-SAN JUAN ROAD. B. VIEW NORTHWARD UP THE VALLEY OF RIO YAQUE DEL SUR FROM THE VICINITY OF BOCA MULA. The distant hills are capped with basaltic lava. GEOLOGY OF THE PROVINCES OF BAEAHONA AND AZUA. 209 pose the hills to the north. Near the mouth of Rio San Juan the beds are inclined northward at an angle of 50° and overlie the shale and limestone of Eocene and Ohgocene age that form the massif of the Neiba Range. (For Hsts of fossils see p. 109, stations 8564, 8565, 8619; pp. 157-162, sta- tions 8563 and 8566.) From this point northward along the Yaque the dip at JBrst is northward at a low angle, but it gradually steepens to more than 60° near the mouth of Rio de las Cuevas. Some of the beds contain plentiful plant fossils, and others contain fragments of shells and branching corals, which are most abundant in the conglomeratic sandstone layers. The younger deposits are of Oligocene and Miocene age. The Miocene strata near the mouth of Rio San Juan appear to rest on a hard, coral-bearing limestone, about 30 meters thick, which contains poorly preserved Foraminifera that are questionably referred to the Eocene. This limestone forms the summit of a high hill on the east side of the road about 1 kilometer south of La Trinchera. Beneath it are at least 1,000 meters of more or less sandy bluish shale containing calcareous layers that abound with a species of Nummulites of Eocene age. The bluff on the left bank of the river below La Trinchera consists of this shale, which is characterized by many thin sandy laminae, each less than 1 centimeter thick, spaced at intervals of 3 to 4 centimeters through the shale. At the first bluff on the right bank a few kilometers below La Trinchera this shale hes against Eocene limestone in possible fault contact. The hills on the east side of Rio Yaque opposite the mouth of Rio San Juan (see PI. XVIII, B) are capped with basaltic lava that may have come from a volcanic fissure in the high hiUs a short distance to the south, oppo- site La Trinchera, where basalt cuts the Eocene and Miocene country rock. The gravel of the Las Matas formation, which occupies so large a part of the great San Juan Valley west of Sierra del Agua, may extend in a con- tinuous belt around the north end of those hills to Rio Yaque, where the gravels form an extensive lowland at the confluence of the Yaque with its tributaries Rio del Medio and Rio de las Cuevas. About 6 Mlometers farther east up Rio de las Cuevas there are jagged hills of sandstone and conglomerate of the Yaque group. The rocks at this place dip steeply southwestward and apparently rest unconformably on a conglomerate composed largely of fine-textured gray limestone, which resembles a platy, thin-bedded, nonfossiliferous limestone that outcrops along the valley a little farther upstream, near Tdbano. SAN JUAN VALLEY. General Features. The Gran Valle de San Juan, with its extensive savannas and low hills, is made up largely of loosely consolidated gravel of the Las Matas formation. Interbedded with the gravel are a little sandstone, a little marly limestone, 210 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. apparently without fossils, and shale that weathers to a faint reddish- brown color. These beds slope valleyward at a low angle. They dip southward in the northern part of the valley at an angle of 10° to 15°, and dip northward at the few places where seen in the southern part. The gravel consists of pebbles of limestone, diorite, and volcanic rock in variable proportions, their character depending on the rocks in the moun- tains that border the basin. The age of the gravel is not known, as no fossils were found within beds recognized with certainty as a part of the formation, but data obtained along Rio Yaque and farther south indicate that the formation is composed of terrestrial or near-shore deposits of early Pliocene age, postdating the late Miocene marine Cerros de Sal formation, which contains the beds of gypsum and rock salt found along the south side of Enriquillo Basin. The gravel of the Las Matas formation of San Juan Valley, as has already been stated, apparently rests unconformably upon folded and faulted fossiliferous strata of Miocene age, which consist of dark-gray to bluish friable sandstone and conglomerate, shale, and a little limestone. As the Miocene rocks are largely concealed by the gravels in the valley they are exposed only in isolated hills that rise above the valley floor, for the Mio- cene rocks are slightly more resistant than the gravels. Sierra del Agua, a low range of hills that forms the eastern limit of the basin, is made up largely of these strata, typical exposures of which may be seen along the San Juan-Azua road near Rio Yaque. The only other rock in San Juan Basin that is noteworthy in this con- nection is basaltic lava of recent age, which lies in nearly flat sheets, capping mesas and upland areas of the gravels. No attempt was made to find the vents from which the lava issued. Jones, in his report on Haiti,^ mentions having found in the Cul de Sac district, adjacent to Azua Prov- ince, a well-defined crater from which extend basalt flows that occupy depressions in the present surface and are evidently very recent. Local Details. San Juan Valley was entered from the northwest by the trail leading from Binica to Las Matas. Short trips were made southward from Las Matas and in several directions from San Juan. The mountain slopes on the south side of the valley were not visited. As viewed from Las Matas the lower slopes are seen to be white limestone resembling the limestone on the north side of the basin, which is probably of early Tertiary age. The higher mountain slopes are covered with timber that conceals the rocks. In the vicinity of Las Matas there are low hills of the Las Matas forma- tion, made up of clay, shale, and gravel with interbedded marly limestone. iJones, William F., A geological reconnaissanoe in Haiti: Jour. Geology, vol. 26, pp. 728-752, 1918. GEOLOGY OF THE PROVINCES OF BAEAHONA AND AZUA. 211 The topography suggests a general northward dip of about 15°. About 6 kilometers southwest of Las Matas, near several large springs of sulphur water, at a locaUty known as El Puerto, Rio Macasla emerges from a gorge through limestone which strikes N. 75° E. and dips 10° to 30° northward. The rock is regarded as probably older than Miocene. Extending eastward from Binica is a mountainous limestone ridge known as Sierra de los Altos. Where crossed at a point about 6 kilometers east of Bkmca the south side of this ridge consists of andesitic agglomerate and tuff resting on the limestone and possibly constituting the basal member of the Las Matas formation, which extends from here southward. Exposures in arroyos show loosely cemented, coarse conglomerate interbedded with sand and hematite-red clay beds. The dip is generally about 15° south- ward. About 5 kilometers south from Sierra de los Altos is a small west- ward-flowing stream known as Rio Cana or Tocino. Eastward along this valley outcrops of the fossiliferous Yaque group were found underlying the Las Matas formation. These strata consist of sandstone, limestone, and conglomerate striking about east-west and dipping steeply southward. In these strata certain species of characteristic Miocene fossils, belonging to the genera Conus, Turritella, and Area, are plentiful. Probably the presence of these deposits in the midst of the valley is due to comparatively recent faulting. This view is supported by the fact that in the same vicin- ity the beds of the Las Matas formation are steeply inclined. The road from Las Matas to San Juan passes over a nearly level gravelly country with numerous dry, shallow arroyos and no rock outcrops for the first 10 kilometers east of Las Matas. At a distance of about 12 kilometers, at a locality known as Punta Cafia, the road ascends to a bench about 10 meters high, which is capped by a basalt flow resting on gravel of the Las Matas formation. From this bench, which forms the divide between the westward-flowing waters tributary to Rio Artibonito and the Rio Yaque drainage, the road leads over low gravel hills and thence across the extensive Sabana de San Tom6 to the town of San Juan. For a long distance up Rio San Juan the country is a gravelly plain, across which the river flows swiftly in a shallow, bouldery channel bordered by low gravel embankments. A short distance above Carpintero massive buff to white limestone appears in the river channel, and a little farther up- stream it forms hills. The rock is more or less brecciated, is finely crystal- line, and dips steeply northward. This limestone is in fault contact with quartzitic sandstone and hard bluish shale that dip steeply northeastward. The recent gravels along the river consist largely of huge boulders of andesite but include some boulders of diorite and limestone. The mountain slopes to the west in the same vicinity consist of limestone. No identi- fiable fossils were found, but it is believed that all the hard rocks seen along this part of Rio San Juan are of pre-Miocene age. 212 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. From the town of San Juan eastward beyond Rio Mijo gravels of the Las Matas formation are the only rocks encountered. At the crossing of the river is a gravel cliff with a bed of yellowish-gray marl, the strata dipping gently southward. A few kilometers east of Rio Mijo the road enters the hills known as Sierra del Agua, which form the east limit of the Gran Valle de San Juan. The rocks of the Yaque group in the Sierra del Agua are largely bluish-gray sandstone (weathering to olive green), inter- bedded with conglomerate. They contain many fragments of corals, plants, and other fossils. The beds dip steeply in various directions. Sim- ilar deposits may be seen in continuous exposures along Rio Yaque del Sur. AREA EAST OF EIO YAQUE DEL SUR. No attempt was made to cover systematically the region from Rio Yaque del Sur eastward to Azua. It was crossed by three different routes — one from Tiibano southward through Las Yayas, another along the San Juan road, and another along the trail from Quita Coraza to Azua. Most of the area east of Rio Tabara is a gravelly plain covered with a dense growth of mesquite, and bed rock is exposed only in the few hills that project above the plain. West of the T&bara there are fairly plentiful outcrops of gravel of the Las Matas formation, which unconformably overlies the folded beds of the Yaque group. Farther north, where the surface is more hilly, there are extensive areas of the Yaque group and volcanic rock and a small area of early Tertiary limestone. The trail from Tdbano southward through Las Yayas leads first over a series of steeply tilted and probably faulted calcareous shales inter- bedded with limestone (strike N. 80° E.) and next over hard, brittle yellow- ish limestone of upper Eocene age. Rock of OUgocene age is exposed on Rio de las Cuevas below Tdbano. In the vicinity of Higuero Largo frag- ments of white coraUferous limestone (station 8608, mixed Eocene and Miocene; for lists see pp. 106, 157-162), probably much younger than the distorted limestone that crops out in Arroyo Salado nearby, were found. The trail then crosses a series of massive, steeply tilted conglomerate. About 3 miles south of Higuero Largo, in a branch of Arroyo Salado, a collection of corals (station 8610; for Ust see pp. 157-158), including Stylophora sp. and other branching forms, was made from a vertical bed of conglomerate striking north and south and interbedded with shale. This formation is of Miocene age. Non-fossiliferous conglomerate with the same strike but dipping eastward is exposed at Las Charcas. Several dikes of hard, dark trap that cut Eocene rocks were seen in the vicinity of Tiibano. The contact of the trap with limestone is well exposed in a small hillock known as La Cerrita, on the northern edge of Tiibano.. Other exposures of the intrusive rock were noted in the Cerro de las Chivas, northeast of the village, and in the upper course of Arroyo Lima. GEOLOGY OF THE PROVINCES OF BABAHONA AND AZUA. 213 Loma la Guia, at Las Yayas, is composed of gray andesite containing black acicular crystals of hornblende. A steep hill less than a mile beyond La Gufa, showing steeply tilted shale and limestone at the base, appears to be capped by lava, but the summit of the hill was not examined. Along the Azua-San Juan road at several places south of Las Yayas there are strata of the Yaque group, which dip steeply northward and are overlain by the flat-lying coarse gravel of the Las Matas formation, which lies in a porous gray matrix ("caliche")- ENRIQUILLO BASIN. Outline of Geology. Between Rio Yaque and Lake Enriquillo there is a westward-sloping plain that is interrupted by the low hogback hills on the north side of Laguna Rincon. The strata exposed in the north side of the basin along Rio Yaque represent the lower division of the sandstones and shales of the Yaque group. The beds dip northward into a syncline, along the axis of which there are strata that are probably equivalent to those in the Cerros de Sal, on the south side of the basin (Cerros de Sal formation). The lime- stone mountains of the Neiba Range are visible in the distance to the north, and about 30 kilometers to the west the same mountain front lies close to the shore of Lake Enriquillo. The south side of the basin is bounded by the Cerros de Sal, which contain thick beds of gypsum and rock salt. These hills are locally separated from the Bahoruco Mountains, to the south, by a lowland. Similar gypseous strata appear in the ridges on the north side of Lake Rincon. Lake Enriquillo is bordered by a terrace of corallif- erous limestone having an altitude of about 35 meters above sea level. This is prominently developed at Neiba and Duverg^ and was recognized as a flat-lying bedded limestone at several places to the east. It is either equivalent to or somewhat younger than the conglomeratic "coast lime- stone" that extends from Cabral southeastward beyond Barahona. The higher mountains south of Cerros de Sal consist largely of limestone but include some sandy and shaly strata. The evidence of the fossils col- lected in the front range is not conclusive but indicates that these beds are probably Miocene. In the vicinity of Rancho Viejo, south of Duverg^, these beds rest on limestone containing many Foraminifera of Eocene age (station 8626, 8627, Ust on p. 106 ). In the same region there are areas of volcanic rock, which probably cuts the Eocene Umestone. No OUgocene strata were recognized in this vicinity. Enriquillo Basin, like other longitudinal valleys that traverse the island, is probably the result of downfolding and blockfaulting, the north side of each valley being downfaulted and in contact with a raised block of harder, older rocks that give a mountainous topography. In general the valley strata dip northward and are more or less repeated by step faulting. 214 GEOLOGICAL RECONNAISSANCE OP THE DOMINICAN REPUBLIC. Such faulting appears to have occurred near Lake Rinc6n, where the gyp- sum and salt-bearing beds crop out as ridges in the midst of the valley. Vicinity of Barbacoa and Eastward. Both Barbacoa and Neiba stand on a terrace of coralliferous limestone that is about 80 meters above the level of Lake Enriquillo. At Barbacoa this terrace, which is only a few hundred meters wide, has a back slope of limestone rubble, which we ascended for more than 2 kilometers without reaching any outcrops. In a deep ravine well up the slope, where cliffs 50 meters high are exposed, the rubble is stratified as though waterlain and dips southward at an angle of 15°. The rubble consists entirely of gray semicrystaUine limestone containing many orbitoid Foraminifera of Eocene age (station 8595, Ust of fossils on p. 106). The mountain top in the rear as seen from the valley is made up of limestone. The altitude is estimated at 1,300 meters. Several kilometers west of Barbacoa outcrops of limestone appear to extend down to the shore. The mountain front is probably a fault escarpment and may extend eastward to the .vicinity of Boca Mula, on Rio Yaque. The rocks exposed in the few outcrops northward from Neiba for a dis- tance of several kilometers show great variation in strike and are steeply inchned. The strata exposed nearer Neiba are probably of the same age as the Cerros de Sal formation on the south side of the basin and are doubtless in fault contact with the pre-Miocene limestone on the north. The results of observations by A. F. Dixon, who made a geological investi- gation in this area,^ indicate that from Neiba eastward to Rio Yaque the structure is synclinal and that the rocks consist in large part of beds of late Miocene age, which are in places covered by nearly flat strata sup- posed by Mr. Dixon to be the "coast limestone." Elsewhere the "coast limestone" extends up to an altitude of little more than 70 meters above sea level. In this region there are probably also areas of gravels of the Las Matas formation, which elsewhere unconformably overlie the Miocene strata. Cerros De Sal. The Cerros de Sal were named from beds of rock salt, which are there exploited on a small scale to supply local demand. The rock salt occurs also in the ridge near Las Salinas and for several kilometers westward. The associated gypsum beds extend eastward along the south side of Lake Rinc6n and upfaulted blocks of these beds also appear on the north side vi that lake as far east as Rio Yaque. The beds can be traced westward nearly to Duverg6. Throughout their extent they generally dip steeply northward but in places they stand vertical or are even slightly overturned. The stratigraphic sequence as studied about 3 kilometers west of Las Salinas, in the vicinity of the Manuel P^rez excavations, is shown in the 1 Report furnished by Mr. R. D. Upham, of the Interocean Oil Co. 215 GEOLOGY OF THE PROVINCES OF BAHAHONA AND AZUA. accompanying section. Higher beds of the same formation outcrop in the lowlands and hills north of Cerros de Sal. Thick beds of clay and sand- stone were also noted, but they are not listed in the section. Beds of bituminous limestone occur in the series near Angostura. Condensed stratigraphic section of Cerros de Sal formation. 7. Sandy shale, poorly exposed, alternating with calcareous, fos- Thickness siliferous sandstone that forms low ridges north of Cerros de i" meters. Sal 300 6. Cross-bedded sandstone, unconsolidated, alternating with jgypseous shale; strike N. 70° NE 150 5. Sandy clay beds, light-olive color, with embedded corals at two horizons (station 8574, list of fossils on pp. 163-164) ; strike' about N. 70° W., dip vertical 400 4. Sandy clay beds of various colors, with several shell beds, com- posed of oysters, areas, and other fossils (station 8572, list of fossils on pp. 163-164); also with thin layers of impure earthy lignite 170 3. Sandstone, sandy shale, and thin layers of pinkish fossiliferous Umestone, which form the north face of the high ridge 150 2. Gypsum in thick, massive, white, finely crystalline layers, alternating with thinner layers of green gypseous shales and with beds of coarsely crystalline salt; gypseous shales in upper part 700 1. Ked and yellow sandy clay and sandstone 100-|- Gypsum interstratified with beds of salt and shale forms the upper part of the high ridge of the Cerros de Sal (altitude about 200 meters). These beds are underlain on the southwest side of the ridge by shaly reddish-brown clays. In the valley on the northeast side of the ridge the gypseous strata are overlain by a few thin beds of pink limestone, above which he shale and sandstone alternating with variegated clays, the whole Ibosely cemented or with only a few beds of calcareous sand- stone, which is sufficiently indurated to form low hogback ridges. The mollusks and corals, which are abundant in the strata, indicate that the formation is late Miocene. THE SALT DEPOSITS. The salt deposits occur on the north side of Cerros de Sal near the top. They are the property of the communes of Las Salinas and Angostura. The people of Las Salinas work in the excavations known as the Carrera del Potro, Manuel Perez, and La Partilla and several smaller excavations. Work is usually done at only one locality at a time. The workings of the inhabitants of Angostura near the western end of Cerros de Sal were not examined. The salt deposits are in the upper part of the gypseous beds of the Cerros de Sal formation. The thickness assigned to this member — 700 meters — is a minimum one, and more detailed work may show that it is much greater. The upper part of the member contains a larger proportion of shale than the 216 GEOLOGICAL BECONNAISSANCE OF THE DOMINICAN EEPUBLIC. lower part. The thickness of the part of the gypseous strata that con- tains the salt is about 50 meters, but further development would perhaps show a greater thickness and the presence of other salt-bearing strata. The salt is found in lenticular masses. The pits have been dug to shallow depths in an unsystematic way and no lenses have been com- pletely exposed. The thickness of the lenses ranges from a few centi- meters to 6 meters and perhaps more, but in none of the excavations has any attempt been made to discover their length. Probably few of the lenses are much over 20 to 30 meters long and most of them are shorter. The three principal sets of workings of the Commune of La SaUna are rather far apart but were probably located in a haphazard way, for salt is found at several places between these workings. Although individual lenses are short, the deposits probably are fairly continuous throughout the length of the Cerros de Sal. The salt in the lenses is massive, and nearly all of it is white. Layers of red and of black or nearly black salt are reported but are not common. Large, white, semitransparent crystals of halite, some of which are nearly a meter long, are found rather frequently. The green, soft shale associated with the lenses is distinctly saline in taste for con- siderable distances from the masses of salt. The easternmost of the principal workings is Carrera del Potro, where only one opening has been made. The salt exposed is a lens nearly 6 meters thick, banded with ribbons of green shale, most of which are only one or two centimeters thick. These ribbons are somewhat wavy but are in general vertical, thus agreeing in dip with the lens. The strike is N. 85° W. East of this opening, on the line of strike, is an outcrop of gypsum and west of it is shale. The Manuel P6rez excavations are more than a kilometer west of Carrera del Potro. Here a number of pits are scattered over an area roughly 50 meters wide by 300 to 400 meters long. There are nearly a score of exca- vations in this area, all of which are small and shallow. The lenses of salt range in thickness from a few centimeters to more than a meter. Some are close together and even merge into one another. They lie in the usual green to yellow shale. At this locahty work was in progress at the time of the visit. The PartiUa workings, which are about as far west of the Manuel P^rez locality as Carrera del Potro is east of it, are similar to those at the Manuel P^rez. The excavations are perhaps fewer, but are deeper, and the average thickness of the salt lens exposed is a little greater. The salt here has a more greenish cast than elsewhere, probably due to admixed clay. The rock salt in Cerros de Sal is so good that it is used for some purposes without refining. Salt picked clean of shale will probably average about 90 per cent of sodium chloride. The results of analyses of 12 samples from Cerros de Sal are given in the accompanying table. The impuri- GEOLOGY OF THE PROVINCES OF BABAHONA AND AZUA. 217 ties are calcium, magnesium, and potassium chlorides and sodium and calcium sulphates. Such salt can be used without purification for some purposes, such as refrigeration, but it could not be exported for use as table salt without refining. Much of the salt now sold for this piu-pose contains more than 99 per cent of sodium chloride. It contains only very small amounts of potassium. A salt less pure is hygroscopic and is there- fore not so desirable, for a very small amount of calcium or magnesium chloride in salt causes it to absorb moisture readily. The analyses indicate that the deposits have no commercial value except as common salt — sodium chloride. The water-soluble constituent is principally sodium chloride. The remaining constituents were determined qualitatively, except the potassium, which was determined quantitatively. Qualitative and quantitaiive analyses of water-soluble constituents of samples of salt from Cerros de Sal. lAnalyses by E. T. Eriokson.] Quantitative determinations. Qualitative determinations. Sample No. Potassium (K). Equivalent of potash (KjO). Calcium (Ca). Magnesium (Mg.) Sulphates csoo. 1.... 2 do do do Very small amount Trace Do. 3 do do Very little Do. 4.... do do do Very email amount Do. 5. do . . ..do Small amount Very little Do. 6.... do do Trace Do. 7 0.24 0.29 do Very small amount Trace . Do. 8 Trace Trace Small amount Do 9 0.24 0.29 Do. 10.... Trace Trace Small amount. .........do Do. 11 .. 0.16 0.19 .do .do Do 12" Trace Trace Trace Trace 1 3* .do...... do Small amount a Salt incrustation on rock of arroyo below La Partilla. Stained green with oxidized copper. b Soil from shore of Laguna Rinc6n, near Crist6bal, Barahona Province. The terms used in the above table signify approximately as follows: Trace = less than .05 per cent. Very small amount = less than 1 per cent. Small amount = over 1 per cent and less than 5 per cent. Fair amount = over 5 per cent and less than 15 per cent. Qualitative tests of the samples for bromine, iodine, boron, and lithium showed inappreciable quantities. The amounts of potash in these samples are insignificant when compared with the amounts in the salt mined at deposits in Europe. The potash deposits of Upper Alsace average 18 per cent of K2O; the part mined contains 20 to 22 per cent, and the principal bed is about 5 meters thick. This bed is overlain and underlain by a great thickness of rock salt. The 218 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN BEPUBLIC. general average of KjO in the deposits mined at Stassfurt, Germany, is 10 per cent. The present methods of mining in the Cerros de Sal are very crude. No explosives are used. The tools used are axes, crowbars, and wedges. There is almost no timbering, although mesquite bushes of ample size grow on the hills close at hand. The soft shale that surrounds the salt lenses slacks and does not stand well, so that all the pits are shallow. Hillside locations that can be worked tunnel-fashion are sought, but, as the roofs will not stand without timbering the tunnels are very short. It is the present practice to work in one locahty for a few months and then shift to another. Probably the pits at one place are pushed as far as is deemed safe and then temporarily abandoned. When erosion and weathering have removed the dangerous overhanging rock the miners return, clear out the debris, and resume work. It is said that about 15 or 20 miners are usually employed in the workings of the Commune of Las Sahnas. When we visited the mines work was in progress at only the Manuel P^rez excavations. Wages were $1 a day when powder was used, but now that it is not used the average is reported to be $1.20 a day. It is said that under favorable conditions one man can mine as much as 10 mule loads of salt in a day (say 750 kilograms), but the average daily production per man is probably not half that amount. The salt is sold for $1.25 a mule load (70 to 80 kilograms) at the mine and for $1.60 a mule load at the town of Las Salinas. Probably more salt is sold at the mine than in town. People come for long distances to get this salt, as it has a reputation for being superior to that obtained by the evaporation of sea water at the coast. The quantity sold daily is reported to range from 20 mule loads to 100 mule loads, but 20 mule loads is probably above the average. Crude as the methods of operation are they may be the best that is possi- ble under the present conditions. The rock is too firm for steam shoveling without blasting and the salt lenses are probably too small and too discon- tinuous to be worked by steam shovel or large-scale quarrying, yet more intelligent and systematic work, with the use of explosives and timbering, would no doubt materially lower the cost of mining. Transportation is not very difficult. There is already an automobile road between Barahona and Las Salinas, a distance of about 26 kilometers, and though it is poor it could be greatly improved at slight expense. There is now only a winding pack-mule trail from Las Salinas to the mines, and the slopes are so steep that the construction of a road which could be used for motor trucks would be somewhat expensive, but there would be no great difficulty in building a tramway. Whether the financial returns to be expected would warrant the outlay necessary to equip these mines with modern appliances could GEOLOGY OF THE PEOVINCES OF BARAHONAAND AZUA. 219 be determined only by field examination and careful calculation by a com- petent engineer. The output under present management is sufiicient to supply the local demand, aiid the profit appears to satisfy the owners. Petroleum Possibilities in Enriguillo Basin. There are rumors that indications of petroleum have been seen at many places in and near Enriquillo Basin. Some of the places mentioned are east of Neiba, others are north and west of the Cerros de Sal, and still others are near Tierra Nueva and Jimanl. The indications reported are asphalt seeps, salt springs, limestone having the odor of "burned gasoline," and lignite. E. I. Kilborne, an engineer in the employ of the Barahona Company, reports that he found asphaltic material which had the odor of petroleum on a branch of Arroyo Palma Dulce, about 6 kilometers east of Duverg^. Salt springs, which are regarded by the natives as indicating the presence of oil, are reported to exist at several places east of Neiba. Bituminous limestone that gives off a fetid odor when struck occirrs near Angostura, at the west end of Cerros de Sal. There are small fragments of woody material at the same locality and elsewhere in the rocks of the Cerros de Sal formation. The strata that overlie the gypsum beds in the Cerros de Sal appear to have been a possible source of petroliferous material, as they are rich in marine fossils and contain layers of Ugnite. The same beds under suitable cover might contain pools of oil. Any search for favorable structiu-e in Enriquillo Basin should be preceded by a thorough study of the strati- graphic sequence along the Cerros de Sal, where the steep tilting of the beds furnish excellent exposures. The area from Neiba eastward to Rio Yaque is regarded as sufficiently promising to warrant a careful study of the structure and detailed investigation. Sierra Bahoruco South of Duverge. Sierra Bahoruco is a rugged range that rises to an altitude of 1,700 meters on the south side of Enriquillo Basin, in the south-central part of the Province of Barahona. (See PL XIX.) Trips were made along the foot- hills of this range and southward from Duverg^ through Puerto Escondido to Rancho Viejo, on the trail to Pedernales. A bench of coralliferous limestone, which is mentioned elsewhere in this report (p. 213), is especially well developed between Duverge and a point a few kilometers west of Las Baitoas. (See PI. XVII, B.) Close to the road that skirts the base of th6 mountains there are cliffs, 3 to 12 meters high, composed almost entirely of branching corals, some of which are so fresh as to retain their original colors. Somewhat farther north in the basin there are more massive corals, which commonly occur as detached heads lying on or partly buried in the silty soil. Many of the mountain spurs 220 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. are terminated by small cliffs, probably due to wave action in the sea that once filled Enriquillo Basin. Along the border of the mountains, yet semi-detached from them, there are foothills, 40 to 100 meters high, composed of clayey sandstone, clays, and conglomerate, and probably some limestone. No fossils were collected from these beds, but it is beHeved that they form a part of the Cerros de Sal formation, because they are lithologically similar to some of the lower beds of that formation and lie stratigraphically above beds that make up the mass of the higher mountains in the northern part of Sierra Bahoruco. Near Duverg^ the strike of these beds ranges from east-west to N. 50° W. and the dip ranges from 20° to 50° NE. From Duverg6 southward through Sierra Bahoruco past Puerto Escon- dido to Canada Diablo there is a single series of sedimentary beds. As indicated in the stratigraphic section given on page 215, this series consists of several distinct parts, but there appear to be no great stratigraphic breaks between them. Nearly all the beds are calcareous and most of them are impure limestones. Many are fossiliferous, but the fossils are poorly preserved. There are corals, casts of pelecypods, and some Foramin- ifera. The beds are probably early Miocene or late Oligocene. At their base is a well-defined conglomerate with oval pebbles of hard limestone 5 to 6 centimeters and more in diameter. Many of the pebbles contain abundant orbitoidal Foraminifera. A striking feature of this region of calcareous rocks is the intensely red color of a very large part of the clayey soil, which is apparently a product of the weathering of the limestone. A thickness of some 130 meters of the rock series is made up of red and yellow highly ferruginous clay-stones, but these are subordinate in amount to the lii^estone. The red color of the soil is most noticeable where limestone strata form the bed rock. The average strike of the beds is N. 70° W., although variations of 10° or more from this were noted. The rocks are folded into open anticlines and synclines, but no considerable faults were observed. Over most of the area between Duverg^ and Canada Diablo the dips are as high as 60°, but dips of 15° to 25° are more common. Near Canada Diablo and Rancho Viejo, however, there is a change. Here the beds are bent sharply upward. Dips of 70° N. to vertical are common, and at some places, as in the basal beds near Rancho Viejo, steep southerly dips were observed, indicating that the beds here are actually overturned. The basal conglomerate containing foraminiferal limestone pebbles is found in the vicinity of Rancho Viejo on both sides of Canada Rancho Vie j o, a few kilometers above the point where it j oins Canada Diablo. This conglomerate rests directly upon the limestone from which its pebbles are derived. There is clearly an unconformity here, and probably a large one. The limestone is hard, fine-grained, semicrystaUine, and massive. No DOMINICAN REPUBLIC Geological Survey Memoirs, Vol. I, Pl. XIX A. PART OF DUVERGfi; SIERRA DE BAHORUCO IN BACKGROUND. B. SIERRA DE BAHORUCO LOOKING SOUTH FROM SAN JOS:fi, WEST OF DUVERGfi. GEOLOGY OF THE PROVINCES OF BABAHONA AND AZUA. 221 indication of bedding was observed. As the investigation was not carried farther south, no data as to the probable thickness of this formation were obtained. The Foraminifera collected include Nummulites and other forms of Eocene age (stations 8626, 8627; hsts of fossils on p. 106). The following generalized section summarizes the stratigraphy of the northern part of Sierra Bahoruco. It is based on a hasty reconnaissance examination, and the thicknesses given are therefore only approximate, but the general relations are believed to be correctly shown. Generalized section in Sierra Bahoruco south of Duvergi. Pleistocene: S°«|" Coral limestone and limestone conglomerate, forming ter- race deposits near the border of Lake Enriquillo 12 Unconformity. Miocene (?): Conglomerate, variegated clay, and clayey sandstone; probably some limestone 50-75 Unconformity ? Early Miocene or late Oligocene: Rudely bedded marly limestone, with interbedded lime- stone conglomerate; fossihferous, especially in the lower part, but the fossils are poorly preserved 300-500 Thin-bedded impure limestone; few fossUs 100 Brick red, and yellow tuffaceous claystone and con- glomerate; no fossils observed 130 Rudely bedded sandy limestone; no fossils observed 300-500 Basal conglomerate composed of pebbles of foraminiferal limestone 230 Unconformity. Eocene: Hard semicrystalline limestone with Foraminifera Not known. BAKAHONA-BAHOKUCO COAST. The village of Barahona stands on a terrace of "coast limestone" which extends from the beach inland for a few kilometers. South of Barahona, along the coast, this limestone forms a sea cliff, 15 to 20 meters high, the top of which is a narrow terrace strewn with modern shells. Back of this terrace is a higher one at an altitude of about 50 meters, consisting of coarse limestone rubble derived from the mountains in the rear. The "coast limestone" throughout this area is made up chiefly of firmly cemented limestone conglomerate containing a few corals. In the southern part of this area, beyond Rio Bahoruco, the adjacent mountains consist in part of basaltic flows and the conglomerate contains pebbles of basalt. About 5 kilometers south of Rio Bahoruco is El Derrumbado, a precipitous promontory of limestone that rises about 500 meters above the sea. This limestone probably rests in fault contact against the basalt, extending from this point northward to the vicinity of Rio Bahoruco. 222 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. The limestone along this coast is at least in part Eocene, as indicated by Nummulites and other Foraminifera found near the sea beach on the south side of Rio Cana (station 8576; for list of fossils see p. 106). The only fossils found at El Derrumbado were a few fragments of shells and some corals, probably of Eocene age. The basalt is evidently extrusive, for it is vesicular and its structure indicates flowage, but some of it is very compact and finely crystalline. The bed of Rio Bahoruco contains boulders of more coarsely crystalline rocks, almost of gabbroid appearance, which may have been derived from an igneous mass farther inland. Copper stains are common in the basaltic lava, especially in its vesicular part, where thin films of chalcocite fill irregular cracks that traverse the mass and occur also as impregnations of the tufHike part. The amygdular spaces are generally filled with zeoKte materials. At Bahoruco the con- spicuous green malachite stain in the weathered rock has attracted the attention of local prospectors, who have dug trenches and pits over a con- siderable part of the hillside and have done sufficient work to show the futility of further search in this vicinity. Chalcocite occurs in insignificant amounts in the body of the rock and in films, 1 to 3 centimeters thick, that follow irregular, widely separated cracks in the rock. Specimens from other prospect pits, farther south along the coast, near Paradfs, indicate the occurrence of similar copper deposits there. The owner of the prospect near Paradfs reports that his locality is the more promising of the two. One specimen found near Paradfs showed a vein, about 5 centimeters thick, composed in part of chalcocite. So far as known these are the only places in the Bahoruco Mountains where prospecting has been done for copper. On the strength of these discoveries the concession "Bahoruco" was obtained from the Dominican Government. AZUA AND VICINITY. Outline of Geology. The town of Azua lies on a gravelly plain that slopes southeastward toward Ocoa Bay. A short distance to the north there are low hills of conglomeratic sandstone and shale, of Miocene age, beyond which lie mountainous slopes of early Tertiary limestone. In the foothills at a place known as Higuerito there is a seepage of oil that has been the chief center of interest for the oil prospectors in the Republic. The fertile plain south of Azua consists of sand and gravel, which is possibly in part contemporaneous with the Las Matas formation of the region to the west. The strata found in drilling for artesian water to a depth of about 100 me- ters at the Ansonia sugar plantation are said to consist of unconsolidated clay, sand, and gravel. Between the plain and the coast to the south is GEOLOGY OF THE PROVINCES OF BARAHONA AND AZUA. 223 La Vigia, a ridge of hard, gray limestone about 300 meters high. No fossils were found in this limestone, but its topographic prominence and its lithology indicates that it is of early Tertiary age. The character of the Miocene sandy beds and early Tertiary limestone is well shown along Rio Via north of Azua, where the following notes were made by Doctor Cooke: The "old series," of Eocene or Ohgocene age, is exposed near the second waterfall above Azua, about 5 kilometers from that town, where there is a massive bed of limestone conglomerate, probably not over 15 meters thick, containing pebbles of greenish rock. Super- imposed on this bed is a thicker massive blue-gray limestone containing thin beds of shale. The rocks are greatly sheared and are cut by minor overthrust faults, and the entire section is repeated by a larger overthrust fault. The strike, although variable, is in general northwest, and the dip varies from vertical to northeast. Downstream from the "old series," and apparently dipping beneath it, there is a massive conglomerate, composed chiefly of limestone pebbles, which grades southward into conglomeratic sandstone interbedded with clay-shale, the relative proportion of the clay shale increasing toward the south. About one kilometer from Azua there is a vertical bed of yellow nodular coraliferous limestone, the fossils in which are undoubtedly of Miocene age. (See list on pp. 157-158, station 8664.) These beds gen- erally dip north or northeast at a high angle and exhibit many small faults. The sequence of strata found here suggests that the beds may be overturned. The Azua Oil Field. GBNBBAl, FEATURES. The so-called Azua oil field is about 4 kilometers northwest of the town, at a place known as Higuerito. The seepage of oil and the salt springs at this place have been known for a long time and have in recent years attracted the attention and commanded the efforts of many exploiters. Six holes have been drilled, several of which produced some oil. The land is within a concession now owned by the Santo Domingo Investment and Development Co., which is continuing the exploratory work. There is con- siderable difference of opinion as to the results obtained in the earlier wells. The rock near the principal oil seep consists of conglomerate, coarse sandstone, and sandy shale, all sparingly fossiliferous. The conglomerate contains fragments of branching corals that suggest forms found to the west, in the lower strata of the Miocene deposits along Rio Yaque del Sur. The beds exposed here closely resemble the Miocene beds exposed near Quita Coraza, along Rio Yaque del Sur, and their Miocene age is shown by the fossils in the richly fossiliferous strata in the same series to the south- east, along Rio Via. The topography of the areas near the seepages is 224 GEOLOGICAL RECONNAISSANCE OP THE DOMINICAN REPUBLIC. hilly. Bed rock Kes near the surface and crops out at many places along the ravines, though at others it is covered with a mantle of gravel in which pebbles of limestone from the adjacent mountains predominate. The rocks of the slopes of these mountains, which lie about 2 kilometers to the northeast, consist of white limestone containing abundant orbitoidal Foraminifera that are probably of Eocene age. The boundary between the older limestone of the mountain slope and the sandstone and con- glomerate at Higuerito may be a fault. Beds near' the contact can be seen plainly along Rio Via, where the Miocene conglomerate apparently dips under the older limestone. HISTORY OF DEVELOPMENT. Of the six wells said to have been drilled before the advent of the present holders of the concession all but one were put down within a few hundred meters of the principal oil seepage. More or less oil is said to have been found in each at depths ranging from 180 to about 290 meters. The deepest well is said to have reached a depth of 400 meters. The earher wells, which gave the best promise of becoming good producers, yielded oil in quantities that are variously estimated from a dozen up to several hundred barrels a day. Most of the oil was found at depths of less than 220 meters, and drilling to greater depths almost invariably resulted in a strong flow of salt water, which was left uncontrolled and destroyed the well. One well was drilled about four kilometers north of Higuerito, in a narrow valley at the base of the mountains. A depth of 200 meters is said to have been reached. The material for the first 125 meters was recorded as "sand and gravel," beneath which was "dark, hard rock with much spar." Drilling is now being done on the recommendation of a geologist, who has obtained data that suggest the presence of an elongated dome, which trends nearly north-south and has steeply dipping flanks. The beds to the southeast, along Rio Via, are so greatly crumpled and faulted that a geolo- gist should do much very careful detailed work before he makes recommen- dations for drilhng in this region. If the next two or three holes are drilled without obtaining oil it would seem to be advisable to abandon drilhng here and to look for another field to the west, where the rocks are less disturbed. QUALITY OF OIL. The oil from the Azua field is dark brown, very liquid, and of high gravity, the results of various tests showing a gravity of 19° to 21° Baum6. It is said to yield no gasoline. The following are the results of tests of a sample taken from well No. 1 at a depth of 960 feet. The tests were made by Leroy M. Law for the Interocean Oil Co. GEOLOGY OF THE PROVINCES OF BARAHONA AND AZUA. 225 Tests of sample of oil from well No. 1. Specific gravity at 60° F 0.9309 Gravity (Baum^) 20 . 4° Pounds per gallon 7.752 Flash point, open cup 185° F. Fire test 220° F. Distillation test: Initial boiUng point 160° C. (320° F.) 10 per cent distills at 224° C. (435° F.) 20 per cent distills at 225° C. (491° F.) 30 per cent distiUs at 277° C. (531° F.) 40 per cent distills at 296° C. (565° F.) 44 pel cent distills at 300° C. (572° F.) 56 per cent residue above 300° C. Moisture Trace. Gas also issues from the ground in the vicinity of the oil seepage but none of it appears to be inflammable. A sample taken from one of the wells was analyzed by the chief chemist of the Bessemer Gas Engine Co., Grove City, Pa., whose report states that the sample "consists of car- bon dioxide and air to 94.6 per cent of the total sample." The presence of air indicates that the sample was not carefully taken. His analysis is given below. Analysis of sample of gas from well near Azua. Heavy hydrocarbons by clarioline oils 4.00 Heavy hydrocarbons as calculated, less 55.5 air 9.00 Carbon dioxide 39 . 10 Oxygen 11.60 Specific gravity (air equals 1) 1.18 Reported Oil Seepages East of Azua. The seepages of oil at HigUerito are the only ones found in the region, though there are numerous reports of others, some of which were visited and found to be merely salt springs or the carbonaceous material of fossil- ized plants. Mr. E. E. Dreyfus, of Santo Domingo City, who has re- sided for many years in the Province of Azua, reports that he has several times seen films of oil on the surface of the water near the beach along the east side, of Ocoa Bay. No attempt was made to verify this report. Another place at which oil is reported to occur is on Arroyo Salado, about one-half kilometer above its confluence with Arroyo Escondido, a branch of Rio Ocoa, about 16 kilometers northwest of Banf, in the Province of Santo Domingo. Dr. P. V. Logrono Cohen of Santo Domingo and Senor Marciel Soto of Galion state that they have collected samples of oil at this place. The place was visited by Doctor Cooke, who makes the state- ment that the supposed seep is near a fault contact of purpUsh-red lime- stone with shale. (See PI. XX, B; A shows an exposure of similar rocks on Rio Ocoa below San Jos6 de Ocoa.) There were dark stains on the rock, 226 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN EEPUBLIC. but no trace of petroliferous material was found. The mud in the stream bed had an odor of hydrogen sulphide. At the time of the visit much rain had recently fallen, and with the rise of the creek the indications may have been obscured. The rocks in this vicinity are all early Tertiary or older and are so greatly sheared, twisted, and faulted that oil could hardly be trapped in them except in small quantities. The discovery of any petro- liferous material here, however, would indicate that the "older series" may possibly contain oil elsewhere at places where the beds are not so greatly folded and faulted. Practically all the rocks that form the hills from Ocoa Bay eastward to Rio Nizao are of Oligocene age or older (Eocene at station 8614, 5.2 kilom- eters east of Bani), the principal exception being the Pliocene or more recent" conglomerates that he nearly flat and form terraces that reach altitudes of a few hundred meters. The early Tertiary or Cretaceous strata consist of gray to dark hmestone, purpHsh to reddish slaty shales or shaly limestone, sandstone, and calcareous sandy shale, all of which are greatly distorted and broken by faulting. Rio Ocoa, in its course from San Jos6 de Ocoa to Arenoso, follows one of these faults, the uplifted side of which is preserved in El Niimero, a southward-trending ridge west of Rio Ocoa. SUMMARY OP ECONOMIC GEOLOGY. Oil and gas. — The locality at Higuerito, near Azua, has been the principal center of interest as a possible commercial oil field and is the only place where wells have been drilled for oil. The results have not been very encouraging, but drilling has been resumed in the beUef that some of the earUer wells might have been valuable but were lost through the encroach- ment of salt water, due to mismanagement. There are large areas in the provinces of Barahona and Azua that are of sufficient interest as possible oil fields to warrant detailed geologic investi- gation. The investigation should cover all the region from Azua westward to Sierra Martin Garcia and northwestward to the hills aroimd Las Yayas, and structural studies should be made where outcrops are sufficiently numerous. All of Enriquillo Basin is worthy of careful attention. Search for oil seepages should be made east of Duverg6 and also from Neiba east- ward. The triangular area southeast of the limestone slopes of the Sierra de Neiba, north of Laguna Rincon, and west of Rio Yaque appears to deserve most careful attention. San Juan Valley is so largely covered with the gravel of the Las Matas formation that the folded beds beneath it can be studied at only a few places. The exposure along Rio Yaque, near the east end of the San Juan Valley, consist almost entirely of coarse sandy materials of no promise as possible containers of oil. An examination should be made of the western part of this valley, near the Haitian border, where there are outcrops of lignite, possibly of Miocene age. DOMINICAN REPUBLIC Geological Survey Memoirs, Vol. I, Pl. XX ■di^'^JvajtU^t^^/.ifxrAOvji^ , 'vjir^-'&'A A. PLICATION IN SHAT,Y PURPLISH-RED LIMESTONE OF EARLY TERTIARY(?) AGE ALONG RIO OCOA A SHORT DISTANCE DOWNSTREAM FROM SAN JOS:fi DE OCOA. TILTED BEDS OF PURPLISH-RED LIMESTONE NEAR SUPPOSED OIL SEEP ON ARROYO SALADO, A TRIBUTARY OF RIO OCOA. GEOLOGY OF THE PROVINCES OF BARAHONA AND AZUA. 227 Salines. — Chemical analyses of the water of Lake Enriquillo and of two salt springs showed that the waters are of no economic value. The Cerros de Sal was examined in the hope that the beds of rock salt might contain potash. The results were disappointing, as no analysis showed potash in commercial quantity. (See analyses on p. 217.) The salt beds consist al- most entirely of sodium chloride, with small admixture of clayey material or other salts. The deposits will pro^aably continue to be the chief source of salt for the inhabitants of the interior, although the salt is far from pure, generally containing at least 10 per cent of impurities. If it is mined for export it must be refined, and it could probably not compete in the export market with the salt derived by evaporation in the many "salt pans" along the coast of this country and other islands of the West Indies. Gypsum. — The Cerros de Sal contains enormous quantites of gypsum, which varies from a coarsely crystalline substance to fine-textured snowy white alabaster and can be obtained in layers of almost any thickness desired. It may be used chiefly for making plaster of Paris and possibly for statuary, so that the beds have little prospective value. Metalliferous deposits. — Little is known concerning the metalliferous deposits in this part of the Republic, though gold, silver, nickel, copper, pyrites, and iron are mentioned in the several mining concessions now in force in the Province of Azua. Almost all the rivers that flow from areas of crystalline rocks in the Cordillera Central contain gold-bearing gravels, and some of these were mined by the Spanish in early Colonial days. Small quantities of placer gold have been obtained in the beds of several rivers from time to time. Copper stains are plentiful in the area of volcanic rock in the Bahoruco Range south of Barahona, and they have attracted the attention of pros- pectors, who have done a little work near Paradis and at the mouth of Rio Bahoruco. The results do not encourage the hope of finding deposits of any value in this area. Copper sulphides and their oxidation products were noticed along the trail from Constanza to Tiibano at a point about 10 kilometers northeast of Ttibano. Iron deposits in the form of hmonite are reported to occur near Paradis and in the Bahoruco Range south of Duverg^, where float siderite was also noted. Reports concerning the deposit at Paradis indicate that it is probably surficial and of slight extent. It is probably derived from the decomposition of basic volcanic rock. CHAPTER X. ECONOMIC GEOLOGY. By D. Dale Condit and Clyde P. Ross. MINING CONCESSIONS IN FORCE IN JULY, 1919. The notes of all the members of the expedition, as well as published accounts of some of the deposits, have been used in the preparation of this chapter, but the limitations of time made it impossible to study or even to visit many of the localities where mineral deposits have been reported to occur. As will be seen by a glance at the accompanying index map (Plate XXI), the greater part of the Repubhc is covered by concessions granted by the government for mining minerals of diverse sorts. A hst of the concessions in force in July, 1919, is given below. Mining concessions in force in the Dominican Republic in July, 1919. [See numbers on index map, PI. XXI.] No. and name of concession. Couceasionaire. Approximate area in square kilometers. Minerals designated. Manuel del Monte do 2099 938 138 88 545 95 23 Gold, silver, maoganese. Gold, silver, copper. 2. Boya F. L. VAsquez Iron, nickel, manganese. Do. 6, Miranda Do. 7. Yami 8. Bulla M. H. Telleria. Copper and gold. 9. Zarzuela F. Zarzuela Gold, nickel, copper. Do. 11. Yaque del Sur.. do 12. Guanarate Esteven Nivar ]3. Santa Ana A. J. MontoUo -. do 508 346 900 615 647 Iron, other metala. Copper, iron. 14. Bahoruco 15. Higuerito S. D. Inv. & Dev. Co. 16. Los Pinos Copper, silver, pyrites. Nickel, iron, copper. Copper, placer gold. 18. EI Cobre Del Monte & Sdnchez MINERAL DEPOSITS NEAR HATILLO AND MAIMON, PROVINCE OF LA VEGA. By Clyde P. Ross. Deposits of ores of copper and iron south of Cotuf, on and near Rio Yima, have been known for many years. Much prospecting has been carried on intermittently, but the results have been discouraging. The deposits he along the northern border of the Cordillera Central at some distance from 228 REPUBLICA DOMINICAN SERVICIO GEOLOGICO MEMORIAS, TOMO 1, LAM. XXI. MAIjlio DE 1^19 ECONOMIC GEOLOGY. 229 the sea and from large towns, so that transportation involves difficult problems, but good wagon roads or even railroads could easily be con- structed. This report is based on observations made by Wythe Cooke and the writer in April, 1919, during a rapid reconnaissance of some of the more accessible deposits. The limitations of time prohibited a thorough exami- nation or prospecting for other deposits. MAGNETITE DEPOSITS HEAR HATILLO. Prospectors have dug shallow pits in the red clayey soil of the hmestone hill a little north of west of Hatillo, at the border of the savanna on which the settlement is built. The soil in these pits, most of which are near the summit of the hill, contain subangular blocks of massive magnetite, 20 to 25 centimeters wide. In the bottom of one pit is a mass of magnetite that is firmly embedded but probably is not in place. The limestone, which outcrops at many places on the hill, contains a little rusted pyrite, but no magnetite was observed at the outcrops. Similar deposits of mag- netite are reported at other localities near Hatillo. Veinlets of quartz and calcite that run parallel to the apparent bedding were observed in the limestone of a similar hill south of Hatillo, where the exposures are better. As some of the limestone is partially marmorized, it probably has been subjected to mild contact metamorphism. As stated on page 60, this limestone is believed to be of Eocene age, but this belief is based principally on the lithology. About 3 kilometers northwest of Hatillo, on the opposite side of Rio Yuna, H. G. Ferguson, of the United States Geological Survey, found a similar deposit of magnetite associated with Hmestone. He noted slate interbedded with and above the limestone and siliceous, schistose porphyry on the trail north of the magnetite deposits. Fine-grained porphyries of various types were seen during the present investigation some distance north of Hatillo but none were observed near the magnetite deposit that was examined. The origin of the magnetite in this locality is uncertain. The boulders of magnetite are probably small masses that were originally in the limestone or at the contact of the Hmestone and porphyry and are now enclosed in the residual soil produced by the decomposition of the limestone. This view is strengthened by Ferguson's discovery of igneous rock near one of the known occurrences of magnetite and by our discovery of recrystallized Hmestone south of Hatillo. Megascopically the magnetite appears to be sufficiently pure to be a high-grade ore. Analysis of a sample collected by Ferguson gave the following results: Fe, 66.35 per cent; P, 0.75 per cent; SiOj!, 2.44 per cent. 230 GEOLOGICAL HECONNAISSANCE OF THE DOMINICAN REPUBLIC. Brinsmade,^ in his report on this district, mentions four localities at which he found similar magnetite deposits besides the one here described. He gives six analyses, which show that the magnetite is of high quality and that the ore is a mixture of hematite and magnetite, with a larger per- centage of the hematite than is evident from field examination. He thinks that the material in which the magnetite is embedded is decomposed porphyry. The magnetite deposits of this district have no present commercial value, for the amount exposed in the pits is entirely too small to warrant exploita- tion. A magnetic survey of all areas in this district where limestone out- crops or is supposed to occur is desirable to ascertain whether there are larger lenses of magentite. COPPER DEPOSITS NEAR HATILLO. Copper prospecting has been carried on intermittently for many years in the vicinity of Hatillo. The known indications of copper are on Loma de la Mina, about 4 kilometers southeast of Hatillo. Many small prospect pits have been sunk on this mountain and at one place, near the summit, there are large workings consisting of shallow trenches and pits. The main dump, which is on the side of the mountain, is about 75 meters in diameter and has a maximum depth of about 25 meters. A httle ore was evidently smelted by some of the prospectors. Several hundred meters south of the main workings there are some small pits, and on the surface of the ground nearby there are pieces of slag, some of which contain blebs of metaUic copper. In the pits where the ore was smelted there is a small quantity of bog iron ore mixed with lignitic material consisting of partly carbonized seeds and other vegetable matter. The bog iron ore has formed since the pits were dug. These deposits are of no commercial value, but they are of interest as showing the rapidity with which bog iron ore can be formed. Loma de la Mina is composed principally of chloritic schist. Near its base gneissic igneous rock, probably dioritic, was observed in places. The mountain is covered with a rather thick mantle of soil and outcrops are not abundant. The principal workings are on a shear zone in chloritic schist, which has been much crushed and sericitized. The schist is locally stained with iron and bears scattered copper stains. It contains a few small quartz stringers, but most of them are only a centimeter or two wide. Some of the stringers contain a little azurite, but most of them are barren. A few fragments of hard gossan were seen. A small amount of a mineral that is believed to be alimite and a little chalcanthite were found in the schist. These deposits are so inaccessible and the quantity of copper they con- tain in so small that they are of no present commercial value. I Tt ■ made Robert B., Iron in Santo Domingo: Mining and Scientific Press, vol. 117, pp. 366-358, Sept. 4, 1918. ECONOMIC GEOLOGY. 231 THE MAIMdN IRON DEPOSITS. Senor Le6n S&nchez, of Maim6n, guided us to his iron prospects on Loma Pegado, a hill about 4 kilometers southwest of Maim6n. This hill is com- posed of serpentine, which is an alteration product of some basic igneous rock. All the hills near Maim6n are apparently composed of similar rock, but none except Loma Pegado was examined. Near the top of Loma Pegado a black trap rock, hornblende diabase, which is probably part of a dike intruded into the serpentine, is exposed in a prospect pit. There are numerous prospect trenches and pits on the flank of Loma Pegado. They expose serpentine cut by plates and banded, botryoidal, and drusy veinlets of quartz. The serpentine has weathered for a depth of more than a meter below the surface, and the upper 30 to 50 centimeters is changed to a red, very highly ferruginous residual soil. The conditions here are similar to those in the Mayari district of Cuba, with the important difference that the deposits in the vicinity of Loma Pegado are on steep hillsides, so that the amount of residual soil of possible value as iron ore is very small, but commercial quantities of ore may be found in the vicinity of Maimon in a more favorable topographic position. Apparently the prospecting on Loma Pegado was originally undertaken in the hope of finding deposits of nickel. H. G. Ferguson made a hasty examination at this locality and reports that small amounts of garnierite, a silicate of nickel, occur in places in the serpentine but not in commercial quantities. LA PERSEVERANCIA NICKEL DEPOSIT, PROVINCE OF SANTO DOMINGO. By D. Dale Condit. Sierra Prieta, a part of the property known as "La Perseverancia" con- cession, was visited on June 10 and July 6, 1918, by H. G. Ferguson, of the United States Geological Survey, and on June 16, 1919, by the writer, while he was in the service of the Dominican Government. HISTORY OF CONCESSIONS. The "Perseverancia" concession was granted to Senor Manuel Delmonte on January 13, 1915. The "denouncement" which went with this conces- sion mentioned iron, chrome, manganese, cobalt, nickel, copper, and gold in both quartz and placers. The localities included El Cerro Pelada, El Mongote, Mirador, Leonora, Guamuna, Isabela, Matiguelo, Sierra Prieta, Higuero and Maim6n, parts of Communes Villa Mella, Yamasi, and La Victoria, Santo Domingo Province. The ownership of the concession was transferred from Senor Dehnonte to Doctor RogeUo Diaz Pardo of Havana, Cuba, in February, 1918. All the exploratory work since the advent of Dr. Pardo has been done at a locality known as Sierra Prieta. The accompany- ing map of Sierra Prieta (PI. XXII) is a reduction, after redrafting, of the map filed in the office of the Secretario de Fomento y Comunicaciones. 232 GEOLOGICAL RECONNAISSANCE OP THE DOMINICAN BEPUBLIC. GEOGRAPHY. Sierra Prieta is an isolated outlier of the main mountain range about 30 kilometers north of the city of Santo Domingo and about 12 kilometers northeast of Los Alcarrizos, the nearest point on the automobile road (Carretera Duarte) now being constructed from the capital city northwest- ward across the island. A direct trail, passable by light automobiles in dry weather, leads from Santo Domingo City northward through Villa Mella. It is an easy, natural route, which with httle work could be made into a good wagon road, following as it does the nearly level upland surface of the "coast limestone," with only the valleys of Rio Isabela and Rio Yuca offering serious obstacles. Mr. Leshe, agent for the company, reports that a raihoad route to the mine, extending in part up Rio Ozama, has already been surveyed. The altitude of the plain near the foothills of the mountain range is 70 to 80 meters. Sierra Prieta, the hill containing the nickel deposits, rises abruptly from this plain to an altitude of 241 meters and about 170 meters above the plain to the south. The rugged upland country of which this hill is an outher extends northward to the Vega Real. GEOLOGY. The coast at Santo Domingo consists of a coral reef that has been elevated about 15 meters above sea level. Landward of this reef is a nearly level surface, which rises toward the north as a plain that extends to the moun- tains. This plain is made up of strata that slope gently seaward. The beds farthest from the coast are the oldest and are overlapped by succes- sively younger rocks seaward. Coralliferous limestone, probably not all of the same age as that at the sea front, extends a few kilometers north of Santo Domingo, but beyond this limit the sections in the arroyos show chiefly gravel, sand, and fossiUferous nodules of limestone. Nearer the mountains the plain has a thin covering of hmonitic conglomerate, which toward the foothills thickens and becomes increasingly ferruginous and might be of possible value as iron ore. The mountains in this vicinity con- sist of serpentine, which forms part of a large belt that extends northwest- ward across to the vicinity of La Vega. The stream pebbles are of slate and hmestone and of many varieties of intrusive rock. The hill containing the nickel deposit is entirely serpentine, as is also the neighboring hill to the north, and no other rocks were found in place except a small basic dike that cuts the serpentine. Gold has been washed by the natives from the stream gravels of the region and it is said that small quantities of platinum have been found in the placers, but probably not in quantities sufficient to encourage hopes of profitable working. A sample of black sand washed from a small brook near the camp at the east base of the hill was found on examination to con- tain chromite in addition to considerable magnetite. DOMINICAN REPUBLIC Geological Survey Memoiks, Vol. I, Pl. XXII CONTOUR INTERVAL 20 METTERS XXX PROSPECT PITS MAP OF SIERRA PRIETA AT PERSEVERANCIA MINE. ECONOMIC GEOLOGY. 233 MINING OPERATIONS. Nickel ore is said to have been discovered at Sierra Prieta by Seiior Manuel Delmonte, who obtained a concession and held it through several revolutions. The disturbed state of the country prior to American occupa- tion prevented development. Seiior Delmonte sold the concession to the syndicate of which Dr. Rogelio Dfaz Pardo of Havana is the principal owner, and a small amount of shafting and trenching has been done for the syndicate under the supervision of a mining engineer named Pagliuchi. The work done includes a shelf excavation wide enough for a cart road ex- tending around the east and north sides of the hill at about the 195 meter contour. A shaft having a depth of about 25 meters and about 15 meters of cross cuts have been dug near the highest part of the hill. The under- ground work has been discontinued and a tunnel is being started on the southeast side, opposite the shaft and about 50 meters below its mouth. Samples of "picked ore" sent to Havana from time to time are said to have yielded very favorable assays. The mine foreman who selected these samples assisted in the sampling in the shaft and also selected samples of "picked ore," the assays of which are given on pages 234-235. The exploratory work done prior to 1918 consisted of digging trenches and pits at irregular intervals over the most promising part of the deposit. On the assumption that the entire hill consisted of ore, a civil engineer named Henderson was engaged to make a survey and estimate the quantity of minable ore. His report showed that 95,000,000 tons lay above the level of the plain. The same engineer was then engaged to survey a railroad route from the mine to the harbor of Santo Domingo. MODE OF OCCURRENCE OF NICKEL. The nickel in the outcrop occurs as the mineral garnierite (genthite), a hydrated silicate of nickel and magnesium of pale apple-green color, which is associated with a fine network of quartz veins. The mineral is probably a product of weathering, the nickel being in the form of another silicate a few meters below the surface. The mineraHzation appears at widely separated points over the upper part of the hill, and the weathered outcrops appear as spongy, honeycombed rock of rusty brown to greenish color, showing the garnierite stain when freshly broken. Below the surface the garnierite green becomes less and less noticeable, and at a depth of about 15 meters the vein material is almost entirely white and consists of a soft, amorphous mineral, possibly magnesite, with dark stains and a few quartz veins. The analyses of samples from a depth of over 15 meters below the surface indicate that the nickel is disseminated through the vein material and country rock, forming an "ore" of lower grade than that nearer the surface, where enrichment has more or less localized the mineral. 234 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN KEPtJBLIC. RESULTS OF SAMPLING. Samples were taken from all accessible parts of the hill (see Nos. 1-14 inclusive, on PI. XXII) , and particularly from the parts that showed best evi- dence of valuable mineralization, so that the mean of the samples prob- ably shows a considerably higher tenor than the average. The following notes describe the samples taken: Prospect pits sampled by Ferguson. Sample 1. Grab sample from outcrops extending N. 45° W. across small outlying hill for a distance of 360 meters. Practically unaltered serpentine at the base; cut at the summit by small quartz veinlets containing traces of garnierite. Assay result; Nickel, 0.65 per cent. Sample 2. Grab sample from outcrops extending N. 45° W. up main hill to 104-meter contour for a distance 120 meters. In serpentine, slightly veined. Assay result: Nickel, 0.29 per cent. Sample 3. Grab sample from outcrops extending 190 meters to crest of ridge. Ser- pentine with rare quartz veinlets. Assay result: Nickel, 0.29 per cent. Sample 4. Grab sample from outcrops extending 270 meters along cresst of ridge. Same type of materials as No. 3. Assay result: Nickel, 0.41 per cent. Sample 5. Continuation of No. 4 for a distance of 140 meters. Type of material simi- lar. Assay result: Nickel, 0.43 per cent. Sample 6. Open cut at base of hill near camp. Sample along sides of cut for 6 meters N. 85° W. No visible garnierite, but sUght quartz veining and weathered serpentine. Assay result: Nickel, 0.36 per cent. Sample 7. Small open cut on trail at 124-meter contour, 6 meter face. Weathered serpentine. Assay result: Nickel, 1.13 per cent. Sample 8. Shallow cut along 198-meter contour for distance of 195 meters. Weathered serpentine with rare quartz and garnierite. Assay result: Nickel, 1.05 per cent. Sample 9. Open out 50 meters long from south end of No. 8 to crest of ridge. Serpen- time with many small quartz stringers and a Uttle garnierite. Assay result: Nickel, 0.55 per cent. Sample 10. Small open cut just below crest of ridge on east side, 18 meters long. Serpentine with quartz and garnierite. Assay result: Nickel, 1.75 per cent. Sample 11. Open cut across top of ridge, 25 meters long. Serpentine honeycombed with small quartz veins in places, with good showing of garnierite. Assay result: Nickel, 2.09 per cent. Sample 12. Small pits along crest of hUl, in two lines, 5 meters apart and 1 meter deep, many not reaching bedrock. Samples taken from material on dumps, consisting of weathering serpentine and quartz, for a distance of 80 meters. Assay result: Nickel, 3.01 per cent. Sample 13. Northward continuation of same Une of pits, most of them, however, not reaching bedrock. Distance, 240 meters. Similar material. Assay result: Nickel, 1.24 per cent. Sample 14. Line of similar pits southward from No. 11, most of them reaching bedrock. Distance, 220 meters. Similar material. Assay result: Nickel, 1.29 per cent. Samples from shaft on summit of hill taken by Condit. Samples 15 to 22. The samples taken below the surface include Nos. 15 to 19, selected from the ore dump, and Nos. 20 to 22, taken from the deeper part of the shaft. The material from the deepest part of the shaft consists of dark-green serpentine, veined by white, soft, amorphous material, which is regarded by the mine foreman as the ECONOMIC GEOLOGY. 235 richest ore. No trace of the garnierite green color appears in any of this material. With this soft, white vein material are chalcedonic quartz and thin films of a darker mineral. The principal veins are 2 to 4 inches thick and lie nearly vertical as seen in the mine and trend N. 20° W. to N. 60° W. Many fine lateral veinlets extend from the principal veins into the adjacent serpentine. A section from north to south along the wall of the deepest workings at right angles to the principal veins is as follows : Serpentine, 60 cm.; white vein, 8 cm. thick; serpentine, 120 cm., with intricate network of fine white veinlets and one vertical white vein 2.5 cm. thick; mass of large and small white veins intimately mixed with serpentine 60 cm. ; dark serpentine with black, film of mineral material on joint surface; few veinlets. Sample 15. Taken from dump selected to represent white material from deepest workings; regarded by mine foreman as very rich. Assay result: Nickel, 0.14 per cent. Sample 16. Similar to sample 15, but contains some dark rock, probably also min- eralized. Assay result: Nickel, 0.14 per cent. Sample 17. Selected to represent dark material, apparently mostly serpentine from deepest workings. Assay result: Nickel, 0.17 per cent. Sample 18. Pale green and white vein rock selected from dump to represent part of shaft that lies 15 to 20 meters below the surface. Assay result: Nickel, 1.27 per cent. Sample 19. Dark material from dump; same position in shaft as sample 18. Assay result: Nickel, 0.37 per cent. Sample 20. Complete section across 2.5 meter face of deepest workings, including serpentine and vein material. Assay result: Nickel, 0.15 per cent. Sample 21. Selected sample, including only light-gray part of face in deepest workings, intricately cut by veinlets. Assay result : Nickel, trace. Sample 22. Selected sample of dark rock, mostly serpentine, excluding vein material. Assay result: Nickel, 0.19 per cent. CONCLUSIONS. The richest of the open pit samples taken by Ferguson come from the highest part of the hill. They are Nos. 10 to 14, which contain from 1.29 to 3.01 per cent of nickel. The shaft was sunk near the summit of the hill at a point that was apparently the most promising. Of eight samples selected to represent the material at a depth of 15 to 25 meters in this shaft one contained 1.27 per cent, and all others less than 0.4 per cent, some of these samples represent rock that was classed as very rich by the mine foreman, the same man who selected the samples of "picked ore" that gave "very good returns" as assayed in Havana. Evidently enrichment through weathering has played an important part at Sierra Prieta. The higher results of assay of the samples from the out- crop appear to be a result of concentration through leaching and redeposi- tion of the disseminated nickel. In New Caledonia, where there are nickel deposits of a type somewhat similar to the one at Sierra Prieta, the ore mined generally contains 4.5 to 7 per cent of nickel and can therefore be smelted directly by fusion with limestone and gypsum. This treatment is not, however, apphcable to a low grade ore, such as that at Sierra Prieta. The only practicable process would involve leaching with sulphuric acid. An ore deposit of this type 236 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN EEPUBLIC. in the United States, even if situated at a locality convenient to a supply of acid, could not be profitably worked unless it contained at least 1 per cent of nickel and included at least a million tons. In a region such as the Dominican Republic, with its transportation difficulties, the ore must be much richer in order to be profitably extracted. The evidence at hand gives but little encouragement to the hope that the nickel deposit at Sierra Prieta can be profitably mined while nickel is at its present price. Further exploration of neighboring areas of the serpentine rock may possibly disclose a richer deposit. Nickel in disseminated form is a usual constituent of serpentine, and the deposit at Sierra Prieta is therefore not unique. The disappointing results of prospecting there need not dis- courage search in other parts of the Republic that are covered by extensive tracts of serpentine. SAN CRISTOBAL MINING DISTRICT, PROVINCE OF SANTO DOMINGO. By Clyde P. Ross. LOCATION AND ACCESS. The copper deposits in the old San Francisco concession, north of San Crist6bal, were examined by the writer during four days early in June, 1919. The accompanying map (PL XXIII), which is a reduction of a map made by the engineer of the Blanton Syndicate, shows the area occupied by the deposits. The office of the operators was at Naranja Dulce, on the west side of Rio Nigua, about 13 kilometers north of the town of San Cristobal. The principal workings on San Francisco Hill are directly across the river from Naranja Dulce. Carts are said to have traveled the trail from San Crist6bal to the mines to carry ore when the mines were shipping — a journey that would be possible only in the dry season, and much work would now be necessary to put the trail in shape for the use of carts even then. In the rainy season the trail is at times impassable. It would be difficult but by no means impossible to build a wagon road from some point on the Santo Domingo-San Crist6bal Carretera to Naranja Dulce and Biicaro Hill. In addition to the openings on Biicaro and San Francisco hills a number of others are scattered over the district, but the only important ones are those recently made by Dr. Jacob Harootian near the crest of the divide between Rio Nigua and Rio Jaina, not far from the source of Arroyo Platanito, at a locality called La Rama, which has been approximately plotted on the map (PI. XXIII). It can be reached by a rather steep moun- tain trail from Naranja Dulce. A trail or even a wagon road, could prob- ably be constructed from this prospect to Jaina or to some point on the carretera between Jaina and San Crist6bal, and thus shorten considerably the distance to Santo Domingo City. DOMINICAN REPUBLIC Geological Survey Memoirs, Vol. I, Pl. N t LOaEMD 9 -so o lopo isoo rcET I 1""^ 1 f 1 ' — r O too ZOO 300 400 SOO METERS COfJmuif /NTrffVAL /OO f££T MAP OF PART OF THE SAN FRANCISCO CONCESSION, SAN CRISTOBAL MINING DISTRICT. ECONOMIC GEOLOGY. 237 HISTORY. Copper has been known in this district for a long time. Probably the first work on copper ore was done by Colonel Heneken, who prospected at a number of places from 1847 to 1863 but apparently shipped only a few samples. Francis Chini prospected here from 1890 to 1912, but he also appears to have found no large quantity of ore. The San Francisco min- ing concession, which covers the district, was granted, on April 10, 1900, to Mr. Dfaz, who transferred it to Mr. E. A. Blanton, representing the Santo Domingo Exploration Co., on August 23, 1902. Captain Adams is reported to have built the houses at Naranja Dulce and to have done some pros- pecting, principally in the old Heneken and Chini workings, in 1900 to 1902. The Santo Domingo Exploration Co. lost the concession by forced sale, and it was bought by Mr. A. R. Justice, an associate of Mr. Blanton, on March 30, 1909. Mr. Justice transferred the concession to the San Cristobal Mining Co., notifying the Government of the transfer on August 6, 1909. On November 17, 1910, the concession came within the terms of the mining law by virtue of a request of the company. By private agreement the Blanton Copper Mining Syndicate obtained permission from the San Crist6bal Mining Co., on August 7, 1912, to exploit that part of the claim which is known as the Biicaro. The San Crist6bal company operated on Bdcaro Hill until September, 1917. The entire concession was cancelled on March 3, 1919, because of failure to do development work, and immediately after that date Dr. Jacob Harootian filed application for three concessions covering approximately the area of the old San Francisco concession, or a large part of it, and also for an exploration right in this district for 6 months. The concessions for wliich he has applied are (1) Dos Marfas, 120 hectares, (2) Camden First, 120 hectares, (3) Camden Second, 200 hectares. He has taken up his residence at Naranja Dulce and has been actively engaged in prospecting for the last 3 months. The above statements are based on reports on file in the office of the Departamento de Fomento supplemented by information furnished by several persons, principally Doctor Harootian and his brother-in-law Mr. J. P. McCulloch. DEVELOPMENT. Most of the workings were caved and entirely inacessible at the time of the examination, so that it is impossible to give any accurate statement of the development. Several shallow shafts were sunk at different places. On Biicaro Hill there are a number of tunnels, some of which are reported to have been 100 meters or more long. Five tunnels on this hill were visited during the examination but only two could be entered, and there was no stopping in these. The following table, compiled from records in the office at Naranja Dulce, shows that 1,061 short tons of ore were shipped in 18 different lots 238 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. by the Blanton Copper Mining Syndicate between October 1, 1915, and July 5, 1917, inclusive. The ore, which is reported to have come princi- pally from Biicaro Hill, was picked ore. About 10 tons were mined for each ton shipped. The average value of the ore shipped was $57.70 per ton. The highest assay for copper in the ore shipped was 16.9 per cent; the lowest was 8.6 per cent. The highest silver assay was 2.80 ounces per ton; the lowest was 1.30 ovmces per ton. The highest gold assay was 0.10 ounces per ton. None of the shipments contained valuable quantities of silver or gold. Ore shipped from the San Francisco concession by Blanton Copper Mining Syndicate. Approximate date of shipment. Approximate gross tons. Per cent of copper. Ounces per ton of 2,000 pounds. Silver. Gold. October 1, 1915 133 128 92 43 47 16 50 39 59 69 57 45 37 22 79 40 65 40 8.6 9.78 11.03 11.23 13.91 12.36 13.94 14.13 16.9 13.35 13.35 11.93 11.61 10.80 12.69 13.13 11.83 11.92 1.70 2.20 2.00 1.80 2.30 1.90 1.30 2.50 2.80 2.10 2.10 1.70 2.10 1.30 1.60 1.50 1.40 1.60 0.035 November 5, 1915 0.028 December 9, 1915 04 January 2, 1916 0.10 January IS, 1916 0.06 January, 1916 0.05 February 1, 1916.._ _ 0.01 March 2, 1916 0.005 March 9, 1916 0.01 March 28, 1916 0.024 April 10, 1916 024 April 22, 1916 _. 0.02 June 10, 1916 0.04 July 5, 1916 0.06 January 6, 1917 0.048 March 13, 1917 01 April 13, 1917 July, 1917 0.005 Less than 500 tons — according to one report only 50 to 60 tons — ^was shipped from San Francisco Hill, but no records of the shipments are at hand, and the amounts and values are not known unless some of the above mentioned shipments were made from the San Francisco workings. Two tunnels were entered, and several caved workings on San Francisco Hill were examined. Several hundred meters of tunneling and drifting has been done here, and one small stope in the uppermost tunnel is still accessi- ble. Much of the drifting, both here and on Biicaro Hill, was done along barren slips and appears to have been of no value in developing the prop- erty. Doctor Harootian's La Rama prospect, near the head of Arroyo Plata- nito, has been just developed by four openings in the hill, the largest about 6 meters long. GEOLOGY. The minerahzed area consists of volcanic rocks, principally tuffs and breccias. Limestone crops out along the crest of the hills on the southwest side of Rio Nigua. ECONOMIC GEOLOGY. 239 The volcanic rocks are a series of altered tuffs, breccias, and lavas, cut by a few small porphyritic dikes. The tuffs and breccias appear to pre- dominate, but the rocks are so much metamorphosed that their identifica- tion is difficult. They appear to be finely fragmental, and most of them are green to purple. The coloring is in streaks and blotches and usually is extremely variable. Some of the rocks are uniform in color, green or black, and aphanitic or nearly so. The volcanic rocks are everywhere much jointed and fractured and in places are sheeted. The contact between the limestone that forms the upper part of the ridge onthe southwest side of Rio Nigua and the volcanic rocks is probably a normal fault. The fault plane apparently strikes about N. 55° W. and dips to the northeast. The limestone is gray to cream-white, granular near the contact, and fine-grained and thin-bedded farther up hill. The beds strike approximately east and dip southward 20°-30°. In the bed of Rio Nigua there are many boulders of a coarse pink granitic rock, but this rock was not found in place. The first outcrop is reported to be about 5 kilometers upstream from Naranja Dulce. BTJCARO HILL ORE DEPOSITS. The volcanic rock in and near the workings on Biicaro Hill is full of small slips. Some of the slips in the tunnels that were examined strike northwest- ward and have copper stains along them, but no ore. The dumps of several of the caved tunnels, however, show ore, some of it of good grade. The ore is of two types — (1) malachite, with some quartz, hematite, and usually some sulphide, in chloritized volcanic rock; (2) chalcopyrite, pyrite, bornite, and specular hematite in quartz, with Umonite as an alteration product of the sulphides. The quartz seen on the dump appears to have been in narrow stringers or veinlets in chloritized tuff. There are fragments of calcite veins 30 centimeters wide, but these are barren. No chalcocite was noted in the ore on any of the dumps in the district, but a specimen of high-grade massive chalcocite, reported to have come from one of the workings on Biicaro Hill, was shown to the writer by a former employee of the Blanton syndicate. At the end of a drift in the Francis Chini tunnel there is an infaulted block of black, hard slate full of small cubes of pyrite. This is the only sedimentary rock found in the volcanic series. Mr. F. Lynwood Garrison^ considers the deposits of Bticaro Hill segregations in tuff rather than veins, but states that in the lower part of the hill, where erosion has exposed fresher rock, the deposits have the appearance of discontinuous veins. The mineralization appears to occur along slips or shear zones and the deposits are therefore veins rather than segregations. The slips seem to be small, and the mineralization is nowhere great. It is extremely doubtful 1 Garrison, F. L., Mining and Scientific Press., vol. 95, p. 308, 1907. 240 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN REPUBLIC. whether any large, persistent vein exists in so shattered a volcanic rock. Although a considerable amount of copper ore occurs here and although some of it may be of high grade, the existence of enough ore to be profitably worked is doubtful. ORE DEPOSITS ON SAN FRANCISCO HILL. The general geology and the character of the mineralization on San Francisco Hill are very similar to that on Biicaro Hill. The accessible openings and outcrops, however, show ore as much as a meter wide along a few of the numerous slips. Sample No. 86 is a channel sample of a meter vein running N. 45° E., and dipping 40° S., and the result of its assay is given in the table on page 241. It is possible that ore running 10 per cent or more can be readily picked from some of these veins, as is reported to have been done. Probably much richer ore than this can be found occa- sionally in small quantities. Garrison'^ states that on the crest of this hill is the beginning of a mineralized shear zone that extends north-north- east for several miles. According to Garrison the zone is more or less regular, but the minerahzation along it is uncertain and discontinuous. During the present investigation, no time was available to trace this zone through the dense vegetation of the hill. Some of the veins on San Francisco Hill may be large enough and rich enough to be worked profitably on a small scale under favorable conditions, but it is virtually certain that the ore bodies are discontinuous and irregular. LA RAMA PROSPECT. The new prospect of Doctor Harootian in the Platanito district differs somewhat from those described above. The most important difference is that the ore contains more gold. Galena occurs in one of the openings here but is not found elsewhere in the district. The specular hema- tite found at the Biicaro and San Francisco workings was not seen here. The quartz contains a little gold in blebs visible to the eye and some chal- copyrite, pyrite, and galena. Doctor Harootian states that his assays made at Naranja Dulce indicate a value of more than 5 ounces per ton in gold and negligible amounts of silver. Assays, made by Ledoux & Co. (see table on p. 241), of samples collected during this investigation indicate a lower content of gold. As the gold occurs in part in large blebs that are easily visible to the eye, no two small grab samples are Ukely to agree closely on assay. The gold in the three samples from the principal opening at La Rama varies directly with. the copper. On the other hand, sample No. 85, from the dump of one of the other openings at La Rama, is very high in copper and low in gold. The sample carrying lead carries more silver than any of the others. ' Garrison, P. L., op. oit., p. 308. ECONOMIC GEOLOGY. of samples from the San Francisco concession. 241 Sample Character and source of sample. Per cent of lead. Per cent of copper. Ounces per ton. No. Silver. Gold. 82 Channel sample across face of principal opening 0.27 0.47 0.S5 10.62 1.88 4.25 0.20 0.01 0.40 1.80 0.40 1.10 0.26 S3 Picked sample at principal opening at La Rama„ 0.41 84 Sample of footwall streak at principal opening 1.04 85 Sample of dump of one of the La Rama open- 0.04 86 Channel sample of a vein in Francis Chini Tun- 0.06 87 Picked sample of galena-bearing ore from La Rama 1.94 2.76 The recent heavy rains had caused slides that made it impossible to see very much in any of the four small openings, which penetrated the hill 6 meters. There is a shear zone over a meter wide near the bottom of the opening and wider near the top, where it is cut off by a slip. In the shear zone there is shattered chloritized volcanic rock full of quartz stringers, with some sulphides and a few rusty streaks. The ore deposit is reported to have been about 40 centimeters wide where it was first struck and to have widened steadily as it was followed. The strike varies from about N. 30° E. at the entrance of the opening to a few degrees north of west at the face. The dip was steep to the southwest at the entrance; at the face it is nearly vertical on the hanging wall and 25° N. E. on the foot wall. The low assay results of the samples taken at the prospect are disappoint- ing but are not conclusive. In a deposit of this type considerable varia- tion in tenor is to be expected. Not enough prospecting has yet been done to enable any one to form definite opinion as to the quantity of ore likely to be found, but the showing so far made warrants further development. The country rock is the same shattered volcanic rock that is found at the Bticaro and San Francisco workings. The vein or shear zone may be discontinuous, but the small opening made shows a more definite a;nd promising zone than any seen in the accessible workings at the other localities. CONCLUSIONS. Copper ore, some of it of excellent grade, occurs at numerous places in the San Francisco Concession. Many of the tunnels are now caved, so that it was impossible to determine the quantity of ore developed, but it is evidently small. In the tunnels now accessible no ore is blocked out, and there are only scanty indications of ore. The property has practically no present value as a copper mine. The gold prospect called La Rama, in the Platanito district, has not yet reached the stage at which definite conclusions can be reached as to its 242 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. possibilities. The results of the development so far made are sufficiently- favorable to warrant further work in order to determine whether the deposit can be profitably worked. SUMMARY STATEMENT ON ECONOMIC GEOLOGY. In spite of the niunerous concessions granted and the even more numer- ous rumors of "minas" which are common in almost every part of the Re- public, very httle actual mining is in progress. The country people call every occurrence of unusual or peculiar rock a "mina," often without them- selves supposing that the "mina" has any actual or potential value. The multipKcity of rumors of mineral wealth is in part due to this practice. Many actual deposits of valuable mineral do exist. Intelligently directed exploration backed by sufficient capital may discover valuable deposits or profitably develop those abeady known. The mining industry of the Dominican Republic has suffered from the operations of many irresponsible promoters. The large scale salting of gold placers, among other things, has done much to weaken the confidence of investors and has caused them to hesitate to put any money into mining enterprises. With the passing of new laws and the enforcing of old ones, the confidence of the investing pubhc should soon be restored. GOLD. Large quantities of gold are supposed to have been obtained by the Spaniards from the streams of the Dominican Republic. Ancient pits are reported to be still visible in the mountains near La Vega, near Cotuf, along Rio Jaina, and elsewhere. Gold is reported to exist in the gravels of many streams in the Cordillera Central, and the native women wash out small amounts by hand from the gravel and sand in some places. Several attempts have been made to form companies to finance the working of the placer deposits by modern methods, but none have been successful, and none of these companies are now operating. Veins carrying gold are reported to exist at several places in the Cor- dillera Central. None of these is now being developed except one in the Platanito district near San Cristobal, at a prospect on which development has just begun. The copper deposits in the San Cristobal district, which have long been known and intermittently worked, contain gold, but not in large amount, and there is no record of successful vein mining anywhere for gold. SILVER. No silver mines are now in operation in Santo Domingo nor is there any available record that any have ever been successfully worked. The veins in the San Crist6bal district and the placer gold doubtless contain some silver. PLATINUM. Platinum is reported to have been found in the gravel of Rio Mao, on the northern slope of the Cordillera Central, southwest of Santiago. ECONOMIC GEOLOGY. 243 NICKEL. The property known as La Perseverancia, on Sierra Prieta about 30 kilometers north of Santo Domingo City, is being prospected for nickel. This mine has been visited by H. G. Ferguson and D. D. Condit, both of the United States Geological Survey, whose report on it is given on pages 231-236. COPPER. The copper deposits of the San Crist6bal district have been worked inter- mittently for a long time, and some ore has been shipped. An examination of these deposits and of the gold prospect in the same district was made during the present examination of the Republic and a report on them is given on pages 236-242. Copper ore is reported to occur in many other parts of the RepubUc, but none of it has yet been mined except in the San Cristobal district. The prospect on Loma de la Mina near Hatillo, south of Cotul, and the indications of copper noted on Loma Miranda, near BS,nica, and near Banl are mentioned in the descriptions of those parts of the Republic. IRON. No iron mines are in operation in the Dominican RepubUc, although prospecting for iron ore has been undertaken at several places. The lateritic deposits near Maim6n and the magnetite near Hatillo, both in the Cordillera Central south of Cotul, are described on pages 228-231. The known deposits in these localities are small and are of no commercial value. Deposits of Umonite are reported near Paradis and in Sierra de Bahoruco, in the southwestern part of the Repubhc. MANGANESE AND LEAD, Deposits of manganese ore are mentioned in several consular reports as occurring in different parts of the Republic, but none of them are now being mined. There is a deposit in the Province of Seibo, but it was not visited. Specimens of the ore have been examined by D. F. Hewett, of the United States Geological Survey, who states that they show nodules of manganese oxides replacing red tuff and therefore resemble the ores from several districts in eastern Cuba. Galena in very small quantities is present in some of the ore in the San Crist6bal district. OIL. Oil has been found near Azua, in the southwestern part of the Republic, but the quantity so far obtained is small. This area is described in this report by D. D. Condit and C. P. Ross (pp. 223-225), who also consider the possibility of finding oil elsewhere in Santo Domingo. There are rumors of indications of oil in many parts of the Republic, but no such indications were found except near Azua. The oil there has an asphalt base, contains no gasoline, and is unsuitable for refining into the lighter grades of petro- leum. 244 GEOLOGICAL HECONNAISSANCE OF THE DOMINICAN BEPUBLIC. COAL. Lignite occurs at many places in the Republic. All outcrops seen during the present investigation were small lenses and irregular masses in the Tertiary sedimentary rocks. The age of the rock, where it was possible to determine it, was Miocene, but the lack of suitable fossils made the deter- mination of the age of some of the beds impossible. None of the outcrops seen contained nearly enough lignite to be of any commercial value. Most of the lenses are only a few inches thick and in many the hgnite is mixed with clay. Specimens of clean lignite ranging from material which has the appearance of charcoal to hard, dense, black pieces with conchoidal fracture and vitreous luster can be found, but all these specimens are very small. No deposit of coal is known in the RepubHc, although some of the lignite has been in places so much altered that specimens having the appear- ance of coal can be obtained from it. The mode of formation of this coal from the lignite is not definitely known. The lignite or coal does not appear to be mined or used as fuel anywhere in the RepubUc. The lignitic streaks near Sanchez, Samana Peninsula, are of no commercial value. AMBER. Pieces of amber have been found in stream gravels on the northwestern border of the Cordillera Central, and there are rumors that some of it was found in place. Very Uttle has been done to work either the gravel or bed- rock deposits for amber. In the vicinity of Tamboril, in the Cordillera Septentrional, there are beds of sandy shale containing seams of hgnite and lumps of amber. The amber is of good quahty, and the natives have for many years shipped small quantities of it from this district, but most of that shipped is obtained from the stream gravels. Exploratory work for amber has been done by an American company,^ which is reported to have found natural gas in some of the holes. COMMON SALT. Common salt (sodium chloride) is obtained in the Dominican Republic both by evaporation from sea water and by mining rock salt deposits. Neither industry is large. The deposits of rock salt in Cerros de Sal north- west of Barahona are described on pages 214-219. There is sufficient local demand for the salt from these deposits to satisfy the present owners. Larger and more efficient production could be made by instalUng modern methods, but it is doubtful whether the returns would justify the outlay of capital. GYPSUM. In the Cerros de Sal, associated with the salt deposits mentioned above, there are thick deposits of gypsum. Plates of almost transparent selenite are abundant, and masses of fine, snowy white alabaster occur in many I Sample, C. C, Engineering and Mining Jour., vol. SO, pp. 250-251, 1905. ECONOMIC GEOLOGY. 245 places. Much of the gypsum is mixed with green clay or shale, but con- siderable pure or nearly pure gypsum can be found. Gypsum may be seen in Miocene strata at many other places, but only in the Cerros de Sal is it known to occur in quantities large enough to be of any possible commercial value. OTHER SALTS. Nitrate is reported to occur in the mountains on both sides of the Enri- quillo Basin. A sample taken near Duverg^ that was supposed to contain nitrate was examined in the chemical laboratory of the United States Geological Survey and was found to consist of impure limestone free from nitrate. Similar rock near Duverge contains thin veinlets of common salt, which probably furnished the foundation for the supposition. The samples of this material collected were lost in transit, so that it is impossible to state whether it contains any nitrate, but even if it does the quantity is apparently insufficient to be of commercial value. Potassium occurs in small amount in the salt of Cerros de Sal and is rumored to have been found elsewhere, but so far as known nowhere in commercial quantity. BUILDING STONE. Rock suitable for building stone is found at many places in the Republic, though much of it is now too inaccessible to be used. The principal rock so far used for building is the so-called "coast limestone," a marly rock that is foimd in abundance at many places along the coast. It is soft when quarried and is easily worked, but it hardens somewhat on exposure. The old Spanish buildings, which are still well preserved, are built of this rock. Though it does not possess much architectural beauty it is accessible, is cheaply quarried, and is easily worked. Some of the harder limestones of Tertiary age in the interior are better building stone, but with the present lack of transportation facilities they are inaccessible to most of the larger towns. No marble suitable for building stone is known in the Republic. Some of the granitic rocks of the basal complex would make handsome building material. In many outcrops the jointing is spaced widely enough for dimension stone of good size to be easily quarried, but all these outcrops are too far from large towns to be of value at present. BOCK FOR CONCRETE. Rock of excellent quality for use in concrete is abundant in many locali- ties. Typical trap rock — that is, fine-grained basic igneous rock — is rare except at a few places in Barahona Province, but the hard, compact lime- stones of early Tertiary age are acceptable substitutes. This material is sufficiently tough and breaks into the angular, sharp-edged pieces which are desired in concrete construction. The outcrops of early Tertiary lime- stone along the northern border of the Cordillera Central, many of which have been visited and described during the present investigation, afford 246 GEOLOGICAL EECONNAISSANCE OF THE DOMINICAN REPUBLIC. unlimited supplies of such material, awaiting only adequate transportation facilities to be utilized. Similar rock has been described in the Sierra de Monte Cristi, at the west end of the Cordillera Septentrional. Some of it occurs near Puerto Plata and doubtless in other parts of the Cordillera Septentrional. Large areas of hmestone of this general type are found in the provinces of Barahona and Azua._ These areas have been partly mapped on the geologic map of that region. Other sources of concrete material are to be found in the great batholithic masses of granitic and dioritic rocks in the Cordillera Central. Most of these are remote from large towns, but almost every stream that emerges from the Cordillera carries large quantities of these rocks in the form of gravel and boulders. Where such stream gravels are found close to places where concrete is needed they can be crushed so as to produce sharp edges and successfully used. Uncrushed stream gravel is often used in concrete, but the rounded smooth pebbles do not produce so strong a concrete as angular, sharp- edged rock. ROAD METAL. The discovery of rock suitable for road metal is one of the great problems before the engineers of the Republic, for the construction of good roads is one of the improvements most needed in the island. After a system of good roads is once established and adequately maintained many of the other desirable improvements in industry and in the condition of the people will naturally follow. The hmestone and igneous rock mentioned above as suitable for concrete construction would also make excellent road metal if it could be economically quarried and transported to the places where it is needed. The schistose limestone of Samani Peninsula and some of the metamorphosed ferromagnesian rocks [and of the harder sedimentary rocks of the basal complex might well be utilized as road metal, but most of these are far from the places where roads seem to be most urgently needed, and the soft marly hmestone of the coastal plains is therefore extensively used as road metal. It is cheaply and easily obtained and has fairly good binding power, but it is too soft to make reaUy permanent roads. Some of the rocks that would make excellent road metal are not very far from the line of roads now under construction and are quite close to places where roads will eventually have to be constructed. Perhaps some plan by which these rocks could be used might be devised. If quarries were estabhshed at suitable places and roads built from the quarries by using the good road metal obtained there many of the difficulties now en- countered in road construction would be eliminated. With good material at hand the construction should proceed at a faster rate than at present. The Telford type of road, so extensively used in France, has certain ad- vantages where labor is cheap and the rock is soft and breaks into slabs, and it might be advantageously used in some parts of the Dominican Repubhc. ECONOMIC GEOLOGY. 247 Tests of samples of rock and sand-clay were made by the Bureau of Public Roads, United States Department of Agriculture, with the results stated below. A sample of crystalline limestone found in large quantity at a quarry 14 kilometers from Santo Domingo City, near Los Alcarrizos, Santo Domingo Province, tested for use in water-bound macadam road construc- tion yielded the following results: Specific gravity 2 . 29 Weight per cubic foot (pounds) 143 Percentage of water absorbed per cubic foot (5.01 pounds) 3 . 50 Percentage of wear 24 . French coefficient of wear 1.7 A specimen of brecciated augite andesite from road cut on Carretera Duarte, about 19 kilometers north of Los Alcarrizos, Santo Domingo Province, tested for road metal, gave the following results: Specific gravity 2 . 85 Weight per cubic foot (pounds) 177 Percentage of water absorbed per cubic foot 0.55 Percentage of wear 3.5 French coefficient of wear 11.4 Hardness 18.7 Toughness 11 Mineral analysis of specimen mentioned above. Essential minerals: Plagioclase (silicate of alumina, lime and soda). Augite (silicate of lime, magnesia, iron and alumina). Rock glass. Accessory minerals: Pyrite (disulphide of iron). Secondary minerals: Calcite (carbonate of lime). The specimen is not suitable for quantitative microscopic analysis. It is a very dense, fine-grained, gray-black basaltic rock, composed essentially of angular fragments of vitreous basalt firmly embedded in a greenish-gray glass base. A specimen of crystalline limestone from a large deposit of gravel in the bed of Rio del Rancho Espanol at the crossing of the SSuchez and Saman4 road, Saman4 Peninsula and Province, was tested for use in waterbound macadam road construction and concrete mixture with the following results: Specific gravity 2.74 Weight per cubic foot, in pounds 170 Percentage of water absorbed per cubic foot (pounds) 0. 16 Hardness - 8.5 Toughness 6 248 GEOLOGICAL RECONNAISSANCE OP THE DOMINICAN EEPUBLIC. A specimen of tuffaceous limestone from an unlimited source on the south shore of SamanS, Bay near Punta de la Boca del Infierno, SamanS, Province, was tested for use in waterbound macadam road and concrete construction with the following results: Specific gravity 3 . 49 Weight per cubic foot, in pounds 155 Percentage of water absorbed per cubic foot 1.94 Percentage of wear , 11.2 French coefficient of wear 3.6 A specimen of sand-clay found in large quantity on the beach 3 kilo- meters east of Sanchez, Samana Peninsula and Province, was examined for use in concrete with the results shown below. The sample consisted essentially of angular grains of quartz and kaolinized orthoclase with some ferruginous clay. Mechanical analysis of sand. Per cent. Retained on one-fourth-inch screen 0.0 Passing one-fourth inch, retained on 10-inch mesh 0.5 Passing 10, retained on 20-inch mesh 0.5 Passing 20, retained on 30-inch mesh 3.0 Passing 30, retained on 40-inch mesh 11.0 Passing 40, retained on 50-inch mesh 17.0 Passing 50, retained on 80-inch mesh._ 36.5 Passing 80, retained on 100-inch mesh 7.0 Passing 100, retained on 200-inch mesh 0.5 Passing 200 24 . 100.0 Loss by washing (silt and clay) 12.5 per cent. The value of the sand for use in cement was compared with that of standard Ottawa sand by tests of the tensile strength of three specimens of cement-sand briquets made of each of these two sands. The briquets consisted of three parts of sand and 1 part of cement and weighed less than 10 pounds each. They were tested 28 days after manufacture, with the following results : Tensile strength, in pounds, per square inch of sample briquets. Sample. Standard Ottawa sand. Sdnohez sand. 1 345 333 328 225 2 210 3 225 Ratio of strength of Sanchez sand to Ottawa sand, 65.7 per cent. ECONOMIC GEOLOGY. 249 LIME. The impure limestone of the coastal plains is burned for making lime at many places near the towns, but nowhere in large quantities. Considerable lime is used in the plaster with which many of the houses in the larger towns are covered, and some is used also in mortar. The purer early Ter- tiary limestones would doubtless yield a better grade of lime, but they are now too inaccessible and too hard to quarry to be utiUzed. BRICK. The clayey alluvial soil of the flood plains of some of the rivers is suitable for the manufacture of brick. Small amounts of brick are made near San Pedro de Macorls and probably also near Santo Domingo City and else- where. The methods used are crude and the brick is consequently not of the best quality. Brick of better quaUty is reported to have been made by the Spaniards, but some of the brick then used was probably brought from Spain, so that it is not certain whether the brick found in the walls of old buildings was made from native material or imported. GBOUND WATER. Ground water is httle used in the RepubUc. Some of the coast towns have numerous wells, but most of them are shallow and the water in many is brackish, perhaps because of the infiltration of sea water. Some of the sugar companies near San Pedro de Macorfs have put down wells a few kilometers back from the coast, and have obtained water that is only moderately saHne. There are a number of wells in the rolhng country north of Santo Domingo City, some of them over 50 meters deep, which are far enough inland to be unaffected by sea water. The following tables show analyses of water from typical wells, springs, and streams in this area. Although all the samples contain considerable amoimts of dissolved salts, some are good enough to be entirely suitable for many purposes. Mineral analysis and clas&ification of spring water from Los Alcarrizos, IS kilometers north of Santo Domingo City. [Sample collected by C. P. Ross in April, 1919. Analyst, Addie T. Geiger.] Constituents. Parts per million. Silica (SiO) 33 Iron(Fe).- - .56 Calcium (Ca) 122 Magnesium (Mg) 16 Sodium and potassium CNa+K), calculated 4.0 Carbonate radicle (CQa) .0 Bicarbonate radicle (HCOs) 404 Sulphate radicle (SO4) 9 . 2 Chloride radicle (CI) 26 Nitrate radicle (NO3) -- 1 . 6 Total dissolved soUds 431 Organic matter 5 . 2 250 GEOLOGICAL EECONNAISSANCB OF THE DOMINICAN HEPUBLIC. Classification. Quality for boiler use Poor. Quality for domestic use Poor. Quality for irrigation Good. Chemical character CaCOa Mineral content Moderate. Mineral analysis and classification of surface water from Arroyo la Sulsa, 14 kilometers north of Santo Domingo City. [Sample collected by C. P. Roes April 7, 1919. Analyst, Addie T. Geiger.] Constituents. Farts per million. SiUcaCSiOj) Iron (Fe) Calcium (Ca) Magnesium (Mg) Sodium and potassium (Na+K), calculated- Carbonate radicle (CO3) Bicarbonate radicle (HCO3) Sulphate radicle (SO4) Chloride radicle (CI) Nitrate radicle (NOa) Total dissolved solids Organic matter Classification. Quality for boiler use Quality for domestic use Quality for irrigation Chemical character .31 31 121 12 14 .0 428 9.9 14 Tr. 410 4.8 Poor. Poor. Good. CaCO, Mineral content Moderate. Mineral analysis and classifkation of water from dug well of Gregorio Valois, IS kilometers north of Santo Domingo City. Well 30 meters deep; altitude of mouth about 72 meters. Sample collected by C. P. Ross April 7, 1919. Analyst, Addie T. Geiger.] Constituents. Parts per million, Smca(SiOa) 38 Iron(Fe) .34 Calcium (Ca) Magnesium (Mg) Sodium and potassium (Na+K), calculated- Carbonate radicle (COs) Bicarbonate radicle (HCOs) Sulphate radicle (SO4) Chloride radicle (CI) Nitrate radicle (NO3) Total dissolved sohds Organic matter Classification. Quality for boiler use Quality for domestic use- Quality for irrigation Chemical character 91 28 29 .0 446 11 19 1.4 426 6.0 Poor. Poor. Good. CaCO,. Mineral content Moderate. ECONOMIC GEOLOGY. 251 Mineral analysis and classification of water from dug well of Ibarra & Gosling, 4 hilo- meters north of Santo Domingo City. [Well 40 meters deep; altitude of mouth about 80 meters. Sample collected by C. P. Ross April 7, 1919. Analyst, Addie T. Geiger.l Constituents. Farts per million. SiUcaCSiOa) 14 Iron (Fe) .42 Calcium (Ca) 108 Magnesium (Mg) 34 Sodium and potassium (Na+K), calculated 126 Carbonate radicle (COa) .0 Bicarbonate radicle (HCO3) 352 Sulphate radicle (SO4) 47 Chloride radicle (CI) 233 Nitrate radicle (NO3) 19 Total dissolved solids 758 Organic matter 18 Classification. QuaUty for boiler use Bad. Quality for domestic use Poor. Quahty for irrigation Fair. Chemical character NaCl. Mineral content High. Mineral analysis and classification of water from Bombita Spring, on bank of Rio Isabela about 3 kilometers west of north of Santo Domingo City. [Sample collected by C. P. Ross April 7, 1919. Analyst, Addie T. Geiger.] Constituents. Parts per million. Silica (SiOa) 20 . Iron (Fe) _ .41 Calcium (Ca) 118 Magnesium (Mg) . 42 Sodium and potassium (Na+K) 308 Carbonate radicle (COs) .0 Bicarbonate radicle (HCO3) 338 Sulphate radicle (SO4) 98 Chloride radicle (CI) 504 Nitrate radicle (NO3) 8.7 Total dissolved soMds 1273 Organic matter - 67 Classification. Quality for boiler use - Very bad. Quality for domestic use Poor. Quality for irrigation Poor. Mineral content High. Chemical character NaCl. 252 GEOLOGICAL RECONNAISSANCE OF THE DOMINICAN REPUBLIC. Mineral analysis and classification of water from dug well of Ibarra & Gosling, S kilometers from Santo Domingo City, on Santa Cruz road. IWell 56 meters deep; altitude of mouth about 36 meters. Sample collected by C. P. Ross April 7, 1919 Analyst, M. D. Foster.) Constituents. Parts per million. Silica (SiOa) 12 Iron (Fe) .35 Calcium (Ca) 119 Magnesium (Mg) 9 . 3 Sodium and potassium (Na+K) 17 Carbonate radicle fCOs) .0 Bicarbonate radicle (HCO3) 328 Sulphate radicle (SO4) 32 Chloride radicle (CI) 48 Nitrate radicle (NO3) 7.2 Total dissolved solids 434 Organic matter 13 Classification. Quality for boiler use Poor Quality for domestic use Poor. Quality for irrigation Good. Chemical character CaCOj. Mineral content Moderate. The water supplies of the Monte Cristi district are discussed by C. P. Ross on pages 177-180. Water can certainly be obtained from wells there, and in favorable situations artesian flows may be possible, but some of the water may be rather strongly mineralized. In the parts of the Saman§, Peninsula that were examined the conditions are favorable for obtaining only small quantities of water from wells. Analyses of some waters on the peninsula are appended. Mineral analysis and classification of water from spring just below head of Arroyo Salado, Samand Peninsula, Samand Province. [Sample collected by C. P. Ross June 30, 1919. Analyst, M. D. Foster.] Constituents. Parts per million. SiUca(Si02) 13 Iron (Fe) .13 Calcium (Ca) 94 Magnesium (Mg) 20 Sodium and potassium (Na+K), calculated 235 Carbonate radicle (CO3) .0 Bicarbonate radicle (HCO3) 298 Sulphate radicle (SO,) 40 Chloride radicle (CI) 370 Nitrate radicle (NOs) .61 Organic matter 14 Total dissolved soUds '. 957 Classification. QuaUty for boiler use Fair. Quahty for domestic use Fair. Quality for irrigation Good. Chemical character _ CaCOa. Mineral content Moderate. ECONOMIC GEOLOGY. 253 Mineral analysis and classification of water from spring at head of Arroyo Santa Capuza, Samand Peninsula, Samand Province. [Sample collected by C. P. Rosa June 30, 1919. Analyst, M. D. Foster.] Constitnents. Parts per million. Silica (SiOj) 13 Iron (Fe) .07 Calcium (Ca) 79 Magnesium (Mg) 9.8 Sodium and potassium (Na+K), calculated 6 . 1 Carbonate radicle (CO3) .0 Bicarbonate radicle (HCO3) 279 Sulphate radicle (S0<) 5.3 Chloride radicle (CI) 11 Nitrate radicle (NOs) . 95 Organic matter 3.4 Total dissolved solids 265 Classification. Quality for boiler use Fair. Quality for domestic use Fair. Quality for irrigation Good. Chemical character CaCOs. Mineral content Moderate. Mineral analysis and classification of water from Rio del Puerto Vie jo, 1800 meter a upstream from Santa Bdrbara de Samand, Samand Peninsula, Samand Province. [Sample collected by C. P. Ross June 25, 1919. Analyst, M. D. Foster.] Constituents. Parts per million. Silica (SiOz) 27 Iron (Fe) _ 2 . 4 Calcium (Ca) ,. 71 Magnesium (Mg) 6 . 6 Sodium and potai^sium (Na+K), calculated 11 Carbonate radicle (CO3) .0 Bicarbonate radicle (HCO3) 243 . Sulphate radicle (S04) 4 . Chloride radicle (CI) 17 Nitrate radicle (NO3) Tr. Organic matter 4.4 Total dissolved solids 276 Classification. QuaUty for boiler use Poor. QuaUty for domestic use Fair. Quality for irrigation Good. Chemical character CaCOs. Mineral content Moderate. 254 GEOLOGICAL RECONNAISSANCE OP THE DOMINICAN REPUBLIC. Mineral analysis and classification of water from Bio de los Cocos, Campo Arenoso Samand, Samand Peninsula, Samand Province. [Sample collected by C. P. Ross June 25, 1919. Analyst, M. D. Foster.] Constituents. Farts per million. Silica (SiOj) 17 Iron (Fe) 1 . 1 Calcium (Ca) 64 Magnesium (Mg) 6.0 Sodium and potassium (Na+K), calculated 8 . 9 Carbonate radicle (COj) , .0 Bicarbonate radicle (HCOs) 214 Sulphate radicle (SO^) 6.7 Chloride radicle (CI) 15 Nitrate radicle (NOa) Trace. Organic matter 4 . 2 Total dissolved solids 242 Classification. Quality for boiler use Poor. Quality for domestic use Good. QuaUty for irrigation Good. Chemical character CaCOj. Mineral content Moderate. Mineral analysis and classification of water of Rio San Juan at mouth of Arroyo Santa Maria Luisa, Samand Peninsula, Samand Province. [Sample collected by C. P. Ross June 24, 1919. Analyst, M. D. Foster.] Constituents. Parts per million. Silica (Si02) 39 lion (Fe) . 42 Calcium (Ca) 68 Magnesium (Mg) 11 Sodium and potassium (Na+K), calculated 13 Carbonate radicle (COs) .0 Bicarbonate radicle (HCOs) 224 Sulphate radicle (SOi) 9.0 Chloride radicle (CI) 16 Nitrate radicle (NOa) 2.3 Oiganic matter 3 . 6 Total dissolved scHds 264 Classification. Quality for boiler use Poor. Quality for domestic use Good. Quality for irrigation Good. Chemical character CaCOa. Mineral content Moderate. At many places in the Ciboa Valley ground water could be used to a much greater extent than it is now. In this valley very few wells are in use, but water can be obtained at moderate depths nearly everywhere in it. The outwash deposits from the mountains on both sides of the valley contain gravel beds which should be excellent reservoirs for ground water. The outwash deposits on the north slope of the Cordillera Septentrional have in places a distinct slope valleyward. Suitable locations for artesian wells might possibly be found here. In the vicinity of Azua there are artesian wells of considerable flow. INDEX. Abbott, W. L., remains of extinct rodents found by 104 Acknowledgmenta for aid 17 Adams, Captain, copper prospecting by 237 Agricultural products, Provinces of Azua and Barahona 198 Agua Montilla, location of 192 Albert! y Bosch, N., fossils found by 54 Alluvial deposits, character and distribu- tion of. 175, 185, 202 Alpargatal, location of 195 Tertiary rocks exposed near 206 Altamira, Eocene rocks and fossils found near ^ - 58, 59, 105 Alta Vela, geography of 48-49 Amber, deposits of 244 Amores, E. M., translation by 14 Amphibolite schist, description of 85 Andesites, descriptions of. 86. 87 Andesitic tuffs, descriptions of — . 88 Andres Bay, geographic features near 48 Angostura, fossils found near 163-164 indications of petroleum near 219 Ansonia sugar plantation, beds penetrated by drill at - - 222 Aplite, description of 86 Areal geology, Azua and Barahona provinces, description of — 203-227 Arenosa, Tertiary limestone near 183 Argillite, occurrence of 83 Arroyo Blanco, Cevicos limestone in 63, 64 OHgocene fossils f oxmd in - 1 10 Arroyo Barranca, Oligocene rocks and fossils found in..... ~ 64, 110 Arroyo Clavijo, conglomerate exposed in 54r-55 Arroyo Guananitos, basal rocks exposed in.... 51 feattires of. 31-32 Arroyo Guanito, Oligocene tuffs in. — 172 Arroyo Hondo, Oligocene rocks in - 62 Arroyo Jerguen, Oligocene rocks and fossils found in - 64, 110 Arroyo la Sulsa, surface water from, analysis of - - - 250 Arroya las Lavas, Mao Adentro limestone and fossils in -- 73 Miocene fossils collected in 101, 151-153 structure in — 78 Arroyo Lima, rocks in 212 Arroyo Milac, Tabera formation near 61 Arroya Palma Dulce, indications of petro- leum near 219 Arroyo Quita Coraza, springs in 192 spring water from, analysis of 194 Arroyo Salado, oil seepage in 225 rocks and fossils found in and near 155, 157-162, 199, 212 view of tilted beds of limestone in (PL XX, S) 226 water from, analysis of 252 Arroyo Santa Capuza, spring water from, analysis of -- 253 Arroyo Santa Cruz, Miocene or older fossils found in 155, 157-162 Artesian water, conditions favoring occur- rence of„.. - 177, 178-179 Augite andesite, teats of, as road metal 247 Azua, artesian wells near 254 coralliferous limestone near 223 Eocene rocks near 60-61 faulting near 60-61, 78-79 geology at and near 222-223 location, surroimdings, and population of 195 oil field at 223-225,243 oil found at, quality of. 224-225 oil seepage east of .■. 225-226 rainfall at 197 roads and trails from and to 196-197 salt springs near. 192 Azua Plain, features of .- 37-38 Azua-Bani road, fossils collected on 54 Azua Province, Eocene rocks and fossils found in. 60, 106, 199 geography of 188 Miocene or older fossils found in _. 155-162 Oligocene fossils found in 63, 108-109, 111-112, 200 roads in 196-197 springs in, analyses of water of. 193-194 stratigraphic section in 207 Azua and Barahona provinces, alluvial de- posits in 202 areal geology of „ 203-227 map showing (PL XV) 186 climate and vegetation in 197-198 " coast limestone " in _ 202 drainage of 189-194 Eocene rocks in 199-200 geologic formations in, table showing 199 geologic structure in 203 geology of : 199-227 geography of 186-198 gypsum deposits in, summary con- cerning 227 igneous rocks in 202-203 metalliferous deposits in, summary con- cerning _ 227 Miocene rocks and fossils found in 201 oil and gas in, summary concerning 226 Oligocene rocks in 200-201 people of „ 196 Pliocene (?) rocks in 201 population of 194-195 pre-Tertiary formations in 199 products of 198 Quaternary sediments in 202 roads and trails in 196-197 saUnes in, summary concerning 227 Tertiary sedimentary rocks in 199-201 towns and villages in 194-196 Bahoruco, copper stains noted near 222 Bahoruco mining concession, basis of 222 255 256 INDEX. Baitoa, Baitoa formation near - 66 Miocene rocks and fossils found at and near 66. 113-114 Oligocene rocks and fossils found at and near 61,107 trail from — 33-34 Baitoa formation, age of - 57, 94 character, thickness, and distribution of 66 correlation of 100 fossils of _ 96, 113-114 type locality of 66 Bajab6nico, Eocene rocks and fossils found near_. 58, 59 ''Balketa," Miocene or older fossils from 155 157-162 Ballandra Point, references to _ 46, 47 Bani, location of_ 41 oil seepage near _ 225 Bani Plain, location and features of 40 Bdnica, copper deposits near 243 Tertiary rocks near - 199, 211 Bdmca-Restauraci6n trail, view from place on (PI. XVI, B) _ 188 Baracoa, corals found at 99 Barahona, " coaat limestone " near 202 Eocene rocks and fossils found near.... 60, 200 geology of coast near 221-222 industries of - 195 location of 48 rainfall at „ 197 roads to 196-197 salt springs near _ 192 spring near, analysis of water of 194 Barahona-Bahoruco coa?t, geology of 221-222 Barahona Company, aid rendered by 186 irrigation project of 187, 188, 195 rainfall observations made by . — 197 stream gaging by 189 Barahona Province, elevation in, amount and dates of 82 Eocene rocks and fossils found in„106, 199-200 geography of 187-188 lakes in 190-192 Miocene or older fossils from 163-164 Pleistocene or younger fossils from — 166-168 roads in. 196-197 springs in, analyses of waters of ^ 194 uplifted shell beds in 82 Barahona and Azua Provinces, alluvial de- posits in 202 areal geology of 203-227 map showing (PL XV) 186 climate and vegetation in 197-198 "coast limestone" in 202 drainaee of 189-194 Eocene rocks in 199-200 geography of 186-198 geologic formations in, table showing 199 geologic structure in „ 203 geology of 199-227 gypsum in, summary concerning 227 igneous rocks in _ 202 metalliferous deposits in, summary concerning „ 227 Barahona and Azua Provinces — Continued, Miocene rocks and fossils in 201 oil and gas in, summary concerning 226 Oligocene rocks in 200-201 people of „ 196 Pliocene (?) rocks in _ 201 population of 194-195 pre-Tertiary formations in 199 products of _ 198 Quaternary sediments in _ 202 roads and trails in 196-197 salines in, summary concerning 227 structure in 203 Tertiary sedimentary rocks in 199-201 towns and villages in _ 194-196 Barbacoa, Eocene rocks and fossils found near 60, 106, 214 geology of area near 214 roads to _ 196 Barranca Blanca, Miocene rocks near 174 structure at 176 Basal complex, description of 50-53, 182—183 Basaltic rock, tests of, as road metal - 247 Basalt tuff, description of. ~ 88 Basalts, descriptions of.._ 86, 87 Bassler, R. S., acknowledgments to. — 89 Bastia, Oligocene rocks and fossils found near - 63, 111-112 Baughman, Lieut. Commander, aid rendered by — - - 12. 17 Berry, E. W., acknowledgments to . 89 cited on age of Calvert flora . 100 fossil plants identified by 200 Beata Island, geography of 48-49 Berkey, C. P., cited on depression and eleva- tion in West Indies - — 81 Bibliography 18-25 Bland and Rowell, Miocene fossils collected by...- 147 Blanton, E. A., San Francisco mining con- cession transferred to 237 Blanton Copper Mining Syndicate, opera- tions of -! 237—238 map furnished by 236 Boca Mula, fossils found near 155-162 sulphur springs near „ 192 view of valley of Rio Yaque del Sur near (PI. XVIII, B) 208 Bombita Spring, analysis of water of 251 Bonao, basal rocks exposed near 51 location of 32 Bonao trail, course and general features of 31-32, 44 rocks of basal complex along 50-52 Booy, Theodore de, remains of extinct rodents found by 104 Bowden, Miocene fos&ils found at 99 Bowden marl, age of 97, 98-99, 100 fossils of 98-99 Brick, clay suitable for making 249 manufacture of . _ 249 Brinsmade, R. B., cited on iron ore deposits near Hatillo 60 cited on magnetite deposits near Hatillo — : 230 INDEX. 257 Brown, Barnum, Juraasic shore line traced by 79 B&caro Hill, copper ores and copper mining at 236, 237, 238, 239-240 Building stone, deposits of 245 Bulla, basal rocks exposed near 52 Miocene conglomerate exposed near 66-67 Miocene fossils found near 114, 116-124 view of exposure of conglomerate near CP1.X) 68 view of gorge on Rio Mao above (PI. VII, C) 40 Bulla conglomerate, age, character, thickness, and distribution of 57, 66-67 type locality of. - 66 view of exposure of (PI. X) 68 Bureau of Public Roads, tests of road-making material by. 14,247-248 Cabeza de Toros, coral limestone at 185 Cabo Falso, geography of region near 47, 49 Cabo Rojo, geography of region near 49 Cabral, fossils found at 166-168 location of „ 195 roads to 196 salt springs near 192 Cercado formation near, section of 68 Caimito, Miocene fossils found at and near 114, 115-124, 151 Camino Real, fossils found on. 166-168 Calkins, F. C, petrographic work by. — 14, 83-88 Campo El Puerto, spring at, analyses of 98 water of 193-194 Cana, section of Cercado formation near 68 Caflo de Botiguela, Miocene rocks near 174r-175 Cafiada de Rancho Viejo, Eocene rocks and fossils found near 60, 106, 200 Cafiada Diablo, geology near 220 Canela, Gurabo formation near 73 Canu, F., acknowledgments to 89 Cape Cabr6n, topography of area near 46 . Cape Engano, features of 47 Cape Frances Viejo, features of 46 Cape Haitien, Eocene rocks at 200 Cape Rafael, geography of area near 47 Cape SamanA, shore features near 46 Carpintero, rocks near 211 Carrera del Potro (salt working), deposits exposed by 216 Carretera Duarte, course of — 31,32,44 road metal from, tests of 247 Catalina Island, geographic features near 48 position of 41 Catalinita Bay, geograpliy Of region near 48 Cercado de Mao, Gurabo formation near 71 Gurabo formation ne&r, view of (PL XIII, A ) 74 Mao Adentro limestone near 73 Miocene rocks and fossils found near 67, 114, 126, 130-131, 133-145, 151-153 Cercado formation, age of 57, 97 character, thickness, and distribution of 67-69 correlation of— 100 fossils of ..„ 67-69, 9&-97, 114-130 modi&ed fauna of (localities and lists of fossUs) 97-98, 126-130 Cercado formation — Continued. section of „ type locality of 71 67 view of exposure of (PI. XII, A) 72 Cerros de J&cuba, character of 170-171 structure in 176 Cerro de las Chivas, rocks in 212 Cerros los Pifi.ones, fossils collected in 54 Cerros de la Travesia, basal rocks exposed near Cerros de Sal, features of... fossils found on gypsum deposits in.. 51 40 163-164 .... 244 methods of mining in..... 218 potassium deposits in 245 rocks 'at and near 213-215 salt deposits at 215-219, 244, 245 salt from, character of 216-218 chemical analyses of 217 prices of. 218 Cerros de Sal formation, age, character, and thickness of 57,75, 199,201,214-215 equivalents of - 103,213.214 faulting in .'. 79 fossils of 103, 163-164 occurrence of, south of Duvergfi 220 stratigraphie sections of 75, 215 Cevicos, basal rocks exposed near 51 Oligocene rocks near 63-64 Cevicos limestone, age, character, thickness, and distribution of 57, 63-64 correlation of, with Anguilla formation.. 63 fossils of 63,64,110,112 structure of 78 Chalcocite, occurrence of 222 Chert, occurrence of - 83 Chloritic schist, occurrence of_ 83 Chini, Francis, copper prospecting by 237 Cibao Valley, position and general features of..29-30 previous studies of Miocene formations in. 65 29,30 78, 203 settlement and agriculture in.. structure in Clarke, F. W., cited on mineral content of ocean water 191 Climate and vegetation, Azua and Barahona provinces, features of _ 197-198 Coal, deposits of 244 "Coast limestone" of Gabb, character, dis- tribution, age, and equivalents of 77, 199, 202, 213 fossils from 166-168 geologic events following the deposi- tion of 82 Coast line and shore features, description of.. 44-49 Coastal plain, features of 40-41 Cohen, Dr. P. V. Logrofio, oil samples col- lected by. . 225 Comendador, location of _ 195 Concrete, rock for, occurrence of 245-246 Condit, D. D.. fossils collected by _. 105, 106, 107, 108, 109, 111, 112, 113, 114, 115, 126, 130- 145, 147, 151-153, 154, 155, 163, 165, 166-168 itinerary of : „ 12-13 258 INDEX. Condit, D. D. — Continued. Miocene formations discriminated by... nickel deposits examined by.. 65 243 observations made at Sdnchez by 181 observations on thickness of Tabera formation made by-._ 61 Oligocene rocka noted by 62 report on La Perseverancia nickel de- posit by 231 sample of nickel ore taken by. 234-235 section of Gurabo formation measured by 70 specimens of rocks collected by 60 Condit, D. D., and Ross, C. P., Cerros de Sal formation named by.. 75 chapter on geology of provinces of Barahona and Azua by 186-227 chapter on economic geology by... 228-254 Las Matas formation named by 76 Miocene beds described by 65-66 Constanza, basal rocks exposed at 52 geography and geology of region near — 205 trail from_ 35 Constanza trail, basal rocks exposed along — 52 description of 33-35 reference to 44 Constanza Valley, description of 34 Cooke, Wythe, chapter on geography by 26-49 chapter on stratigraphic and structural geology and geologic history by 50-82 cited on stratigraphic significance of Orthaulax 96 copper and iron ores examined by 229 description of geography by 26-49 fossils collected by 106,110, 111, 112, 113. 114, 115, 126-129, 130-145, 151-153, 155-162, 165 fossils identified by 102 itinerary of 12-13 observations in Province of Samanfi. made by 181 oil seepage on Arroyo Salado visited by „ 225-226 work near Azua done by 186 Copey, Miocene (?) deposits near 174 fossils found near.. Copper ores, assays of.., 154, 165 .... 241 deposits of, near Hatillo 230 San Crist6bal mining district, report on 236-242 summary account of 243 Coral reefs. Pleistocene or Recent, distribu- bution of 184^185 Corals common to Miocene beds in Cuba, Jamaica, and Dominican Republic (table) 99 Cordillera Central, amber in 244 areal geology of 204^206 basal complex in 50-53 drainage of 41-42 Eocene(?) limestones in 58 general features of 30-31, 169-170 gold in 242 igneous rocks in 202-203 Cordillera Central — Continued. iron ores in 243 iron and copper ores along north border of. - 228-231 platinum in 242 Pliocene(?) gravel in. ~. 175 rocks for making concrete available in.. 245 streams rising in 41-42 structure in foothills of 176 trails across „ 31-37 view in (PL XVI, B) „ 188 Cordillera Septentrional, Cretaceous rocks in 54 drainage of 42—43 Eocene rocks in 58-60 position and general features of. 27-28 rock suitable for mixing concrete found in 246 streams rising in 42-43 view of south front of (PI. II, A) 28 view of summit of (PI. II, C) 28 Correlation, section on 91-94 table showing _ 57 work on 15 Correlation table showing American and European equivalents of Tertiary formations 57 CotuI, Eocene rooks near 59 faulting near _ 78 iron and copper ores near — 228-231,243 Cretaceous fauna, discussion of 53-55 Cretaceous system, rocks and fossils of 53-56 Cruz de los Caminos, Eocene fossils foim.d near 106 Cul de Sao district, Eocene rocks in ~ 200 volcanic crater in 210 Cushman, J. A., acknowledgments to 89 fossils examined by 54, 59, 60, 105 Dajabon, faulting near 78 fossils found near _ 165 Oligocene limestone near. _ 172 Pliocene(?) gravel near — _ - 175 quartz diorite near _ 171 structure near „ „ 78, 176 Dall, W, H., cited on correlation of certain Miocene formations „ 100 Miocene fossils described by 147 Damajagua, Cretaceous rocks near 54 Eocene rocks near 58, 59 fossils found near„ 105 structure at 78 Darton, N. H, fossils collected by. 155, 167-164 Delmonte, Manuel, discovery of nickel ore by 233 mining concession granted to 231 Depression and elevation, evidences of 82 Diabase, description of 86 Diaz, , San Francisco concession trans- ferred to _. 237 Dike rocks, description of. -. 85-86 Diorite, description of 84, 85 intrusion of, date of „ 80 Diorite porphyry, description of 86 Dixon, A. F., cited on structure from Neiba to Rio Yaque 214 Drainage, description of 41-43 INDEX. 259 Dreyfus, E. E., oil films reported by 225 Duarte Highway, course of 31, 32 fossils found on. 155, 157-162 Duncan, P. M., cited on Miocene fauna of the Cibao Valley 65 Duvergfi, areal geology south of 219-221 coralliferous limestone at..- 213 fossils found near. 166-168 generalized stratigraphic section near.... 221 nitrate deposits near „ 245 petroleum indications near. 219 population of- 195 Quaternary coral reef at 77 roads to 196, 197 rock salt near 214 rocks and fossils observed at 213 view of part of (PI. XIX, A) 220 Dynamic metamorphism, evidences of 202 East coast, features of 47 Economic geology, chapter on — 228-254 studies of - 16-17, 185 summary general statement on 242-254 summary of, for Azua and Barahona provinces 226-227 El Amacey, trail from 36 El Barrero, altitude of 34 basal rocks at. 52 El Carrizal, country near 36 El Comedero cave, Eocene rocks at 59 El Derrumbado, rocks and fossib at 221, 222 El Gran Estero, geologic history of Igl position of 28 El Higo Gordo, view of Sabana Liana near (PL IV, A) 32 El Lim6n, Oligocene Tocka and fossils found at and near 62-63, 107 El Madrigal, rocks of basal complex near 50, 51 view of terrace flat at (PI. V, C) 34 El Morro de Monte Cristi, features of 27 location and altitude of 45, 170 Miocene or older rooks and fossils found at 102, 153-154, 172, 173 section at 173 strata and structure in 176 view of (PI. II, B).._ 28 El Nfimero, fault at 226 El Paso Bajito, view of Gurabo formation near (PI. XII, B) — 72 view of Rio Mao near (PL XIII, B)„.... 74 El Paso de los Perroa, Miocene fossils found near - 114, 116-124 El Puerto, rocks near - 211 sulphur springs at and near ^ 192 El Rucillo, height of 33 Elevation and depression, evidence of 82 Elevation subsequent to deposition of the "coast limestone," evidences of 82 Ennery, Eocene rocks exposed near 58, 200 Enriquillo Basin, "coast limestone" in 202 features of _ 39, 187-XS8 former extent of 48 geology of.. 213-221 nitrate deposits in 245 petroleum indications in 219 Enriquillo Basin — Continued. springs in 192 structure of _ 213-214 Enriquillo Lake. See Lake Enriquillo. Eocene fauna, correlation and discussion of 94-95 Eocene fossils, localities and names of — 59, 105- 106 Eocene Foraminifera, classes of 94 Eocene time, events of 80 Eocene series, character, distribution, and thickness of 58-61, 199-201- correlation of (table) _ 57 faulting in 78 relation of, to Oligocene 200 Epidiorite, description of_ 84, 85 Brickson, E. T., analyses of salt by 217 Escocesa Bay, location of .- 46 Esperanza, view in valley of Rio Yaque del Norte near (PI. IV, B) 32 ifitang Saumdtre, location and general fea- tures of _ 39, 187 Faulting, occurrence of 77-79, 203 periods of 79 FergiMon, H. G., aid by ~ 14 examination of nickel deposits by 231,243 magnetite deposit near Hatillo observed by. 229 observations made at Loma Pegado by.. 231 samples of nickel ore taken by 234 Ferrocarril Central Dominicano, route of 43 Ferrocarril de Santiago y Samand, routes of.. 43-44 Field work, summary account of 12-13 Folding, occurrence of 77-79, 203 Fondo Negro, salt springs at 192 Foraminifera, Eocene, classes of 94 Forests. See Vegetation. Fort San Felipe, location of 46 Fossils identified, ages and localities of.... 105-168 Cretaceous, localities 53, 54, 55 Eocene, localities and names of 105-106 Miocene, localities and names of 113-165 Oligocene, localities and names of 107-112 stations where collected, maps showing (Pis. IX, XI) 66.70 Foster, M. D., analyses of waters by 252-254 Furcy, Eocene rocks near 58 Gabb, W. M., cited on identity of limestone at El Morro and in Samba Hills 176 cited on "Iron Mountain," near Hatillo..- 60 cited on limestone of Loma de los Muertoa 64 cited on Miocene fauna of the Cibao Valley 65 cretaceous fossils collected by 53-54 Gabbro, descriptions of _ 84, 85 Garrison, F. L., cited on copper deposits at BfloaroHill 239 cited on copper deposits at San Fran- cisco Hill 240 Gas, natural, analyses of _ 225 Gas and oil, Azua and Barahona provinces, summary concerning- 226 Geiger, A. T., analyses of waters by 193-194, 249-251 260 INDEX. Geography, description of 26-49 Geologic correlation, results of work on 15 section on 91-94 table showing 57 Geologic history, outline of 79-82 Geologic structure, general features of 176-177, 203 results of studies of 16 section on. 77-79 Gold, amount of, in copper ores, assays show- ing 241 recovery of, from stream gravels 232 summary statement on 242 Gonaives, Eocene rocks near 58, 200 Gran Estero, geologic history of 181 location of 28, 46 Granodiorite, occurrence of. 202 Granular intrusive rocks, description of 83-84 Gurabo, Cretaceous rocks near 54 fossils collected near 55 Oligocene rocks near 62 sedimentary rocks near, sequence of 54 volcanic rocks exposed near . 55 Gurabo Adentro, Cercado formation near 69 Miocene fossils found near..„ 115-124, 131-145 section of Gurabo formation near 70 Granite porphyry, description of 86 Ground water, analyses of 249-253 possibility of obtaining 177-178, 249 Guanarate, salt springs at 192 Gurabo formation, age, character, thickness and distribution of 57, 69-73 contact of Mao Adentro limestone with 74 correlation of 100 fossils of 69-73,98-99,130-151 fossils from deeper-water facies of 147-151 sections of.._ 69-70,71,72 stratigraphic relations of 71 thickness of 72 type locality of 69 views of (PI. XII, B; PI. XIII, A) 72, 74 Gurabo Hills, Mao Adentro limestone neaj.. 73-74 Miocene fossils found in 151-153 Guayacdn (lignum-vitae tree), view showing (PI. XVII, A) 198 Guayajayuco, geologic structure near 53 trail from 36 Guayubin, Cretaceous fossils found near 54 Gypsum, deposits of 244-245 summary concerning deposits of, in Azua and Barahona provinces 227 Haiti, Eocene rocks in 58, 200 position of _ 26 volcanic center in 210 Harootian, Dr. Jacob, aid by 237 San Francisco mining concession sought by.- 237 openings made on copper deposits by 236 work on La Rama copper prospect of.... 238 Hatico, location of 195 rocks near 208 Hatillo, copper deposits near 230, 243 Eocene rocks near 59-60 faulting at 78 Hatillo — Continued. iron ores near 243 magnetite deposits near — 60, 229-230 rocks of basal complex near 50, 52 view northward from (PI. V, A ) 34 Hatillo and Maim6n, mineral deposits near 228-231 Bulla conglomerate near .-,...- 67 Cercado formation near 67 Miocene fossils found near..., 114, 115, 116-124 view of Cercado formation near (Fl. XII, A ) 72 Heneken, T. S., cited on identity of limestone capping El Morro de Monte Cristi and Samba Hills__ 176 cited on Miocene rocks in the Cibao Valley 65 copper prospecting by_ - 237 Hewett, D. F., manganese ore examined by- 243 Highways. See Roads. Higuerito, fossils found at and near 106, 155 oU field at 222, 223-225 summary concerning oil and gas at 226 Higuero Largo, Tertiary rooks and fossils found near 106, 155, 157-160, 199, 212 Historical geology, outline of 79-82 Hoenes, Captain, aid rendered by 186 Hornblende andesite, description of 87 Hornblende-augite andeaite, description of.. 87 Horneblende diabase, description of 86 Howe, M. A., acknowledgments to 90 Hubbard, Bela, cited on correlation of Ter- tiary formations 94 cited on stratigraphic limit of Orthau- lax — 96 Ibarra & Gosling, wells of, analysis of water from. . 251 . 252 Igneous activity, evidences of 80 studies of. 16 Igneous rocks, distribution of 202-203 Igneous and metamorphic rocks, descrip- tion of 83-88 Interocean Oil Co., tests of oil made for 224^225 Intrusive rocks, descriptions of 84^85 "Iron Mountain'' of Gabb, rocks at 60 Iron ores, deposits of 231, 243 Isabel de los Torres, Miocene rocks at l73 Oligocene rocks near 171 Itinerary of surveying party, brief state- ment of..„ 12-13 Jackson, R. T. , acknowledgments to 89 Jarabacoa, basal rocks exposed near 52 position of „ 34 Joca, basal rocks exposed near 52 position of 37 Jones, W. F., cited on Eocene and Oligocene rocks in Haiti 58 cited on Eocene rocks at and near Port au Prince „ 200 cited on volcanic crater in Haiti. 210 Juan Calvo Hill, quartz diorite at 171 Justice, A. R., San Francisco mining conces- sion bought and sold by 237 Kidwell, C. H., analyses of water by „. I4 Kilborne, E. I., information furnished by 219 INDEX. 261 Knapp, H. S., Rear Admiral, extract from letter of Director of U. S. Geological Survey to, concerning survey 11 Hear Admiral, inquiry by, as to cost of survey 11 La Barca, Miocene or older rooks and fossils found near 154, 174-175 strata, structure, and fossils noted at and near..„ 176-177 La Cerrita, contact of trap and limestone noted at - - - 212 La Crua, basal rocks exposed n%iEir 53 position of 36 view in Cordillera Central npar (PI. XVI, B) 188 La Granja, features of 27 view of (PI. II, B) 28 See also El Morro de Monte Cristi. La Gula, rocks near 213 La Loma, trail from 35-36 La Madre Vieja, conglomerate boulders near 206 La Mata, view of Siete Picos from (PI. VI, BU ™ - 36 La Partilla salt workings, description of 216 La Perseverancia nickel deposit, conclusions concer'ning 235-236 geography and geology of 232 location and history of concessions covering - 231, 243 mining operations on 233 mode of occurrence of nickel in 233 report on 231-236 samples from, results of assays of 234-235 La Plata, Miocene fossils found near 154, 174 La Rama copper prospect, features of 240 work on _ 238 La Rama gold prospect, problematic value of 241-242 La Romana, geographic features near 48 La Subida de la Salina, Miocene or older fossils found at — 154, 174 La Trinchera, limestone near 209 Oligocene rocks and fossils collected near 63,111-112 La Vega, basal rocks exposed near 51 Eocene rocks near 59 La Vega Province, Cevicos limestone in 63-64 copper and iron deposits in 228-231 metamorphic sedimentary rocks from.. 83 mineral deposits in, near Hatlllo and Maim6n. 228-231 Oligocene fossils found in. 107, 108, 110, 111 La Vigia, age of rocks at 223 Laguna de la Marias, features of 192 Lake Enriquillo, animals in and near 192 basin of, springs in 195 basin of, villages in — 195 date of depression forming 82 features of 187-188,190^191 fossils found at 166-168 geology of region near 213-221 petroleum indications near 219 Quaternary coral reef at 77 roads and trails along shpres of 196, 197 Lake Euriqiiillo — Continued. springs near, features of 193 structure at„_ 213-214 vegetation nea^f™ 197 view of reef corals near (PL XVII, B) 198 water of, analysis- 191 See alao Enriquillo Basin. Lake Lim6n, location of 192 Lake Ilinc6n, features of 192 Lakes, Barahona Province, features of 190-192 Laguna del Fondo, features of 39 Lamprophyre, description of 86 Lead ore, occurrence of 243 Ledoux& Co., assays made by 240,241 Las Baitoas, view of reef corals near (PI. XVII, B) 198 Las Calderas Bay, reference to 48 Las Canitas, altitude of 35 basal complex near 183 geography and geology of region near. 205 location of ^ 205 quartz vein containing copper near 205 view from, description of 205 Las Caobas, Miocene fossils found near..,. 132-145 OHgocene rocks near 63 Las Charcas, conglomerate exposed at 212 Miocene fossils found near. 130, 133-145 Las Cuevas, Oligocene rocks and fossils found at and near 109, 200 Las GuAcaras, Eocene rocks at caves of 59 Las Lagunas, Oligocene rocks and fossils found near _ 63, 107 Las Lajas, Eocene rocks at and near 58 fossils found at 105 Las Lavas Creek, Oligocene fossils found on 107,111 Las Layas Creek, Oligocene rocks on 63 Las Matas de Farfdn, geology of area near 210-211 Las Matas formation named from 76 location of _ 195 sulphur springs near 192 Tertiary sedimentary rocks near.. 199, 201, 211 view of (PI. XVI. A) 188 volcanic rocks near 203 Las Matas formation, age of 57, 210 character, thickness and distribution of 76 199, 201, 207, 208, 209-211, 213. 214 equivalents of _ 222 flexures in 79 Las Minas, basal rocks at 52 Las Salinas, fossils found near 163-164 rainfall at 197 roads to 195 salt deposits near 214 salt mines worked by inhabitants of 215 etratigraphic section near 214-216 Las Yayas, rocks at and near 199, 212, 213 Lavas, descriptions of „ 86-87 Law, L. M., tests of oil by 224-225 Lead, deposits of 243 Lignite, deposits of 244 Lignum-vitae tree, view showing(Pl. XVII, A ) 198 Limburgite, description of 87 Lime, limestones suitable for making 249 262 INDEX. Limestone, occurrence of 83 teatB of, as road metal 247 views of beds of (PI. XX) 226 Limestone conglomerate, Samana Peninsula, features of 183 Loma Chingilela (or Higuela), altitude of .— 205 roads over 35 Loma Coca, view southward from (PI. V, B)_ 34 Loma de Joa, features of. 34 Loma de la Mina. copper deposits on 230, 243 Loma de la Vigia, location of 48 Loma de los Muertos, 01igocene(?) limestone at _ 64 Loma de los Palos, Cevicos limestone at 63, 64 Oligocene fossils from 110 rocks forming „. 61 Loma de Fortezuela, Cretaceous rocks at 54 Lomaa de Sierra Prieta, faulting in 78 Loma el N6mero, Cretaceous rocks at 54 faulting near „ 79 location of 43 Loma Higuela (or ChingUela), altitude of 205 roads over 35 Loma Jackson, Tertiary limestone at 183 Loma las Canitas, marble at 53 quartz vein containing copper near 205 Loma la Cumbre, view of (PI. 11, C) 28 Loma la Guia, rocks on 213 Loma la Fortuna, location of 205 Loma la Laguna, altitude of 35, 205 rocks exposed near 206 Loma Llanada, features of 34 Loma Miranda, basal rocks composing 51 copper deposits near 243 trail over 32 Loma Pegado, basal rocks at 52 iron ores on. _ 23i Loma Peiiita, view of (PI. VI, A ) 35 Loma Quita Espuela, location of 45 Loma Tina, altitude of 33, 188 Loma Vieja, basal rocks forming 53 geologic structure at _ 53 trail up_ _.„..-. 36-37 Lonsdale, W., cited on Miocene fauna of the Cibao Valley g5 Los Alcarrizos, limestone quarried near, tests pf " 247 Miocene or older fossils found near * 155, 157-162 rocks of basal complex near 5Q spring water obtained near, analysis of 249-250 Los Bancos, Oligocene rocks and fossils found »ear 108, 109,200 Los Frailes, location of 49 Los GQiros, fossils found near igg rooks exposed near 208 Los Quemados, Miocene fossils found near.... 130 section of Guxabo formation at 69-70 Los Roaales, coralliferous limestone near, ageof„.... Ig4 Macorls, terraces near 40 topographic features near 40 Macorls Province, Miocene or older fossils /^°"^ 155,157-162 PleiBtocene or younger fossils from.... 166-168 Mafic dike rocks, descriptions of 85, 86 Magnetite, analysis of 229 Magnetite deposits near Hatillo, description of 229-230 Maim6n, basal rocks exposed near 52 iron-ore deposits near 231,243 Maimdn and Hatillo, mineral deposits near — 228-23 1 Majagual, Oligocene rocks and fossils found near. 109,200 Mammals (extinct), notes on 104 Manganese ore, deposits of 243 Maniel, description of 33 Mansfield, W. C, acknowledgments to 89 Manuel P6rez salt mines, description of 216 section near 214^-215 Manzanillo Bay, features of 45 Manzanillo Plantation, Miocene rocks at 173 Mao, Miocene fossils fotmd at 151-153 Mao Adentro, Miocene fossils found near 151-153 section of Mao Adentro limestone near.. 73 Mao Adentro limestone, age, character, thick- ness, and distribution of 57, 73-74 contact of Gurabo formation with 74 equivalent of, near Monte Cristi 174 fossils of 100-101,151-153 sectiou of 73 type locality of 101 Mao clay, age of - 57 exposures of. — 74-75 fossils of 101, 153 reason for distinctive name for 75 type locality of 74-75 Marble, occurrence of 83 Matanzas, Cuba, Gurabo fossils found at 99 Maury, C. J., cited on age of beds at El Morro de Monte Cristi 102 cited on age of Quebradillas limestone.. 96 cited on Cercado formation 67 cited on correlation of Tertiary forma- tions 94 cited on Miocene beds and fossils 69, 173 cited on Miocene fauna of the Yaque VaUey 65 cited on Oligocene fauna. « 96 cited on fauna of Cercado formation 97 cited on fossils of Bowden marl 99 cited on identity of limestone capping El Morro de Monte Cristi and Samba Hms_„ ™ 176 cited on typical section of Gurabo formation 71 formations discriminated by 15 fossils collected by_ 114, 126. 130 information furnished by 68 paleontologic work done by 89 McCulloch, J. P., aid by 237 Meinzer, O. E., cited on uplifted beds in the West Indies 80 Metadiabase, description of 86 Metalliferous deposits, Azua and Barahona provinces, summary concerning 227 Metamorphic and igneous rocks, descriptions of 83-88 INDEX. 263 Metamorphio sedimentary rocks, descrip- tions of 83 Miller, G. S., cited on rodents of West Indies 104 Mineral deposits near Hatillo and Maimdn, report on 228-231 Mineral resources, studies of 16-17 Mining concessions in force, July, 1919, list of 228 map showing (PI. XXI) 228 Miocene fauna, features of 96-103 Miocene fossils, localities and names of 65-75, 103, 113-165, 184, 201 Miocene or older fauna of Province of Monte Cristi, fossils composing 153-154 Miocene series, character, thickness and dis- tribution of 65-75,76, 172-175, 183-184, 201 correlation of (table) 57 faulting in 79 formations composing... 65-76 Miocene time, events of 80 Mona Passage, reference to -— 47 Montague de la Selle, altitude of 39 Monte Calabaza, Oligocene rocks and fossils found at 64, 112 Monte Cristi, fossils found near 166 geology and water resources of region near 169-180 Miocene or older fossils found near 154 Oligocene deposits near 171-172 structure near 176-177 topographic features at and near 45, 170 tuffs found near 172 Monte Cristi and vicinity, artesian water probably available at 178-179 deposits near 171-175 geology and water resources of 169-180 ground-water conditions in 177-180 map of (PI. XIV) 170 Miocene sedimentary rocks and fossils found near 172-175 structure near 176-177 topography of — 169-180 water resources of 177-180 Monte Cristi Bank, description of 45 Monte Cristi Bay, features of 45 Monte Cristi Province, Cretaceous rocks in.. 54 Miocene fossils found in... 101-102 114-125, 126, 162, 153-154 Oligocene fossils found in Ill Pliocene or Pleistocene fossils from.... 365-166 Monte Cristi Range, general features of.... 27, 170 Miocene rocks in 172-174 Oligocene rocks in 171-172 structiu-e in 176-177 Monte Cula de Maco, features of 205 Monte Isabel de Torres, features of 28 location of 46 Oligocene rocks and fossils found on 59, 63, 111 view of (PI. in. ^)- 30 Moore, J. C, cited on Miocene fauna of the Cibao Valley — 65 Morro de Monte Cristo, view of (PL II, B).... 28 See aUo El Morro de Monte Cristi. Moya, de, map by, reference to 192 Naranja Dulce, copper mines near 236 Natural gas, Azua oil field, analysis of 225 Navarrete, Cretaceous rocks near 64 Mao Adentro limestone near 73 structure near 78 Neiba, coralliferous limestone at.. 213 petroleum indications near 219 population of 195 Quaternary coral reef at 77 roads to 196, 197 rocks exposed near 214 Neiba Bay, geography of region near 48 position of 48 Neiba Mountains, altitudes of 188 rocks in. _ 188, 206, 209 Nickel ore, assays of, results of 234-235 deposits of, conclusions concerning.... 235-236 description of 231-236 geography of 232 geology of 232 history of concessions made on 231 location of 243 mining operations od 233 mode of occurrence of nickel in 233 results of assays of ore from 234r-235 visits to 243 Nitrate, deposits of. 245 Noel, Monsignor, acknowledgments to 17 Ocoa Bay, features of 48 oil films reported on 225 rocka near 226 Ofl&ce work, summary account of 13-14 Oil, occurrence of 219, 225-226, 243 tests of, results of..~ 225 Oil and gas, summary concerning 226 Oligocene deposits, features of 61-64, 171-172, 183-184, 200-201 relations of, to Eocene 200 Oligocene fauna, correlation of 96 observations on 95-96 Oligocene fossils, localities and names of. 69, 107-112 Oligocene series, correlation of (table) 67 faulting in 79 rocks and fossils of 59, 61-64. 171-172, 183-184, 200-201 Oligocene time, events of 80 Oligocene tuffs, occurrence of 172 Paleontologic literature, lists showing 18-25, 90 Paleontologic work, objects of 89-90 Paleontology of Tertiary and Quaternary systems, chapter on 89-168 Palo Alto, rainfall at 197 stream gage on Rio Yaque del Sur maintained at - 189 Palo Copado, fossils found near 156 Paradis, copper ores near 222 iron ores near 243 Pardo, Dr. Rogelio Diaz, La Perseverancia mining concession transferred to 231, 233 Paso Bajito, Miocene fossils found near 114, 115, 116-124, 131, 133-135 Paso del Perro, Cercado formation near 67, 68 264 INDEX. Paso la Chorrera, section of Cercado forma- tion near „ 68, 71-72 Pedernales, geographic features near 49 roads and trails to 40, 197 Pefia, Oligocene rocks and fossils found npar 63, 107 Peft6n, location of 195 Pcridotite, description of 84,85 Perseverancia mine, map of Sierra Prieta at (PI. XXII) 232 Petroleum, occurrence of 219, 225-226, 243 tests of, results of 225 Physiography, results of work on 15 Physiographic provinces, map showing (PL I) 28 Pico del Yaque, height of 33 Piedra Blanca, Eocene rocks near — 59-60 Plaisance, Eocene rocks at and near 58, 200 Plaisance limestone, exposures of 58 fossils from 58 Plant-bearing beds at Sdnchez, character of- 76, 184 Platanito district, gold in 242 Platinum, recovery of from stream gravels.— 232 reported occurrence of 242 Pleistocene (?) beach deposits, occurrence of- 175 Pleistocene or later deposits, fossils from 103- 104, 166-168 Pleistocene or Recent terraces and coral reefs, occurrence of 184-185 Pleistocene time, events of 81 Pliocene rocks and fossils, occurrence of 76 103, 165, 175, 184, 201 Pliocene series, character of 76 correlation of (table) 57 folding in __ 79 Pliocene time, events of 81 Pliocene or Miocene deposits. Province of Samand, fossils from...; 103, 165, 184 Pliocene or Pleistocene deposits. Province of Monte Cristi, fossils from 103, 165 Point Espada, reference to 47 Potassium, deposits of 245 Port-au-Prince, Eocene rocks near 58, 200 Potrero, Miocene fossils found at and near — 72 130, 133-145, 147 Precipitation, Azua and Barahona provinces 197 Puerto Eacondido, geology near 220 location of 40 population of 195 roads to 179 Puerto Plata, Eocene rocks near 59 geographic features near 46 Puerto Plata Bay, date of depression forming 82 features of 45-46 Quaternary coral reef on „ 76 Puerto Plata Province, Eocene rocks and fossils found in 59, 105 Oligocene rocks and fossils found in 63, 111 Punta Avarena, geography of region near 48 Punta Beata, geography of region near 48, 49 Punta Calderas, reference to 48 Punta Cafla, volcanic rocks atand near.... 203, 211 Punta de la Boca del lufierno, limestone from, tests of, as road metal 248 Punta de los Corozos, coral limestone at 185 Punta de Santa, coral limestone of 185 Punta de Santa Paula, Tertiary clay beds at and near 184 Punta Gorda, coral limestone at 185 oyster -bearing limestone near, age of.... 184 Punta Martin Garcia, geography of region near 48 Punta Palenque, geographic features near,... 48 Punta Salinafl, geography of region near.,..,!,. 48 Quartz diorite, features of 84, 85, 171, 202 Quartz diorite gneiss, description of 84 Quaternary system, deposits and fossils of. 76, 77, 202 Quita Coraza, deposits near 208 roads to 196 stratigraphic sections near 66, 207 Railroads, routes of 43-44 Rainfall, Azua and Barahona provinces 197 Rancho Espailolt coralllferous limestone near, age of 184 Rancho Yiejo, Eocene rocks and fossils found near 60 106, 199-200. 213, 220 trail 1;o 40 Rathbun, M. J., acknowledgments to 89 Recent alluvium, deposila of 175,185 Reef corals, view of (PI. XVII, B) „ 198 Restauraci6n, basal rocks exposed near „. 52 trail to — 36 Results of survey, outline of 15-17 Rinc6n, gypseous beds at 213 Rinc6n Bay, features of 46 Rio Albano, Cercado formation on 69 Miocene fossils found on 97, 114, 116-124 Rio Amina, character of „ 42 Miocene fossils found on 130, 133-147 Oligocene rocks on „ 62 Rio Artibonito, character and course of. 36, 42 Rio Bahoruco, boulders of igneous rock in 222 location of 190 structure near 221 Rio Bao, Oligocene fossils found on 107 Rio Banl, reference to _ 42 Rio Boba, course of „ „ 43 Rio Camd, location of 41 Rio Cana, Cercado formation on 69 character of „ 42 Eocene rocks and fossils found neaj 106, 200 length of 189 Miocene fosals found on 97, 114-125, 151 section of Cercado formation on 68 Rio Ceiba, length of „. 189 Rio Chacuey, basil rocks exposed near „ 51 Rio Chav6n, reference to 42 Rio Cito, location of 190 Rio de los Cocos, analysis of water from 254 Rio de las Cuevaa, features of 42 length of „ 189 rocka and fossils found on and near 109 155, 157-162, 200, 206, 209, 212 structure near 209 Rio de laa Damas, course and features of. 43, 190 Rio de los Patos, location of - 190 INDEX. 265 Bio del Medio, basal rocks on.. course of „_ 52 42 gravel deposits near 209 length of 189 Rio del Puerto Viejo, analysis of water from.. 253 Rio del Rancho Espaiiol, limestone from, tests of, as road metal _ 247 72 36,42 Rio Guanajuma, Gurabo formation on. Rio Guayajayuco, character of length and course of 189 shale and phylUte along 204-205 Rio Gurabo, basal rocks along 52 Cercado formation on 69 Gurabo formation on 69-71 map of part of (PI. XI) 70 Miocene rocks and fossils found on 69 97, 115-124, 126-146, 151 Oligocene rocks on Rio Iguamo, reference to.. Rio Isabel, course of 62 42 43 62 Rio Jaina, basal rocks exposed in and near.... 50-51 character of ' 42 features of valley of 31 Rio Inoa, Oligocene rocks on.. fossils found near _ view of terrace flat on (PI. V, C).. Rio Jima, basal rocks in and near position of Rio Joca, features of 166, 167 34 51 32 .... 36-37 Rio Juan Manuel, basal rocks exposed near.. 51 Rio Jura, size and course of 190 Rio Licey, Oligocene rocks and fossils found near 63, 107 Rio Limdn, basal rocks on 52 Rio Macasia, headwaters of 43 length and principal tributaries of 189 Rio Macorls, references to 41, 42 rocks on 211 sulphur springs on _ 192 Rio Maguana, length of 189 Rio Mao, basal rocks along 52 Bulla conglomerate on 67 Cercado formation near 67 character of 42 Gurabo formation on 71 Miocepe fossils found on 97 101, 114-146, 151-153 74 66 242 section of Cercado formation on 68 section of Gurabo formation on 71,72 section of Mao Adentro limestone on — 73 view near (PI. XIII, A) 74 view of (PI. XIII, B) 74 view of Bulla conglomerate near (PL X) 68 view of exposure of Cercado formation (PI. XII, A).. Mao clay on.. map of part of (PI. IX).. platinum found on.. view of gorge on (PI. VII, C).. 72 40 views of Gurabo formation on (PI. XII, B; PI. XIII, A) 72,74 Rio Magu&, references to 41,42 view of terraces on (PI. VII, A) 40 Rio Maim6n, basalrocks exposed on and near 51 Rio Massacre, features at mouth of 44-45 Rio Miio, length of 189 rocks near 212 Rio Neita, position of 36 Rio Nigua, fossils collected on 53 reference to _ 42 Rio Nizao, geography of region near mouth of _ length of reference to.. 48 190 42 Rio Ocoa, Cretaceous rocks along 54 fault line along 79, 226 features of 190 geography of region at mouth of 48 oil seepage near 225 reference to 42 view of plication in shaly Umestone on (PI. XX, A) „ 226 Rio Ozama, reference to .:... 41, 42 Rio San Juan, area drained by 42 features of 189 Oligocene rocks and fossils found on 108, 109, 200, 208-209, 210-212 water from, analysis of 254 Rio San Marcos, Eocene rocks near 59 location of. 46 Rio Soco, reference to 42 Rio Tdbara, rocks and fossils found near.. 155, 157- 162, 212 length of 190 Rio Vallejuelo, length of 189 Rio Via, Eocene rocks on 60-61 faulting along 60-61 structure along — 224 Tertiary rocks and fossils found along 155, 223 Rio Yaguajal, basalrocks exposed along 53, 56 Rio Yaque del Norte, artesian water possibly obtainable along 178-179 Baitoa formation on 66 course of 41 delta of 45 169-170 170 176-177 Mao Adentro limestone on 74 Miocene rocks and fossils found on 65, 99, 113-114, 130, 133-135, 137- 145.147,173,174,175 Oligocene fossils found along 61, 107, 108 recent alluvium on 175 features of „ former course of geologic structure near... strata and structure along... Tabera formation on view in valley of (PL IV, B). Rio Yaque del Sur, delta of features of 176-177 61 32 48 189 general course and tributaries of 42 geography of region at mouth of 48 Miocene rocks and fossils found along.... 155- 162,201 Oligocene rocks and fossils found on 63 109,111-112,200 Pliocene (?) rocks along 201 rainfall observations on „ 197 region east of, areal geology of 212-213 266 INDEX. Rio Yaque del Sur — Continued. Bulphur springs on 192 Tertiary rocks along 206-209 tributaries of 189 view of sandy shale and sandstone ex- posed on (PL XVIII, A) 208 view of vaUey of (PI. XVIII. B) 208 Rio YAsioa, course of 43 Rio Yuma, mouth of _ 47 Rio Yuna, basal rooks exposed near 51 course of - 41 delta of 47 Eocene rocks near 59 iron and copper ores on and near.„ 228-231 position of - 32 Riviere Artibonite, course of 36, 42 Road metal, rock available for 246 rock available for, tests of 247-248 Roads and trails, courses and character of — 44 196-197 Rock for concrete, deposits of 245-246 Rodents, extinct, notes on 104 Rope-fiber factory near Monte Cristi, Oligo- cene rocks near 172 Pleistocene beach deposits near 175 Ross. C. P., chapter on geology and water resources of Monte Cristi and vicinity by 169-180 chapter on geology of Samanfi. Province by. 181-185 fossils collected by.._ _ 106, 109, 110, 111, 153- 162, 165. 166-168 fossil-bearing limestone collected by — 60 Miocene formations discriminated by — 65 itinerary of - 12-13 OUgocene (?) limestone noted by 64 report on mineral deposits near Hatillo and Maim6n by.. 228-231 report on San Cristobal mining district by. samples of water collected by.. 236 191 193-194,249-255 Ross, C. P., and Condit, D. D., Cerros de Sal formation named by 75 chapter on economic geology by 228-254 chapter on geology of provinces of Barahona and Azua by„. 186-227 Las Matas formation named by 76 Miocene beds discriminated by. 65-66 Routes of travel 44, 196-197 Sabana Caftongo, Oligocene limestone on 172 Sabana de la Mar, basal complex near 183 Tertiary limestone near 64, 184 Sabana de P6rez, fossils found near 105 Sabana de San Tom6, geology of region near.. 211 Sabana Grande, basal rocks exposed near 51 Sabana Liana, view of (PI. IV, A) — 32 Sabaneta, basal rocks exposed near 52 fossils found near 55 Oligocene tuffs near 172 trail from, to San Juan.. volcanic rocks near , St. Marc, Eocene rocks near.... 35-37 ..... 55-56 68 Salines, Azua and Barahona provinces, sum- mary concerning 227 Salt, deposits of 244, 245 Samand, conglomerate near „ - 184 Samani Bay, coral limestone on 185 deposits on 182-185 depression forming, date of 82 description of 46-47 limestone from shores of, tests of, as road metal 248 Oligocene limestone on 64 plant-bearing beds on 76, 103,184 recent deposits along 185 topography of south shore of 182 Samand Peninsula, basal rocks of 53, 182-183 climate of 29 drainage of. 43 elevations on — 28 features of 28-29 lignite streaks on 244 limestone from, tests of, as road metal 247, 248 limestone conglomerate on 183 Pleistocene or Recent terraces and coral reefs on 184^185 rock suitable for making concrete found on 346 surface waters of, analyses of 252-254 topography of 181-182 SamanA Province, basal complex in. 53, 182-183 geology of 181-185 limestone from, test of, as road metal, 247, 248 Miocene or Pliocene rocks and fossils found in. 165, 184 Oligocene fossils collected in 111 Pleistocene or Recent terraces and coral reefs in.. 184-185 recent deposits in 185 Tertiary clay, sand, and conglomerate in 184 Tertiary fossils found in 183,184,185 Tertiary limestone and limestone con- glomerate in. 183-184 topography of 181-182 Samba Hills, Mao Adentro limestone at 73 Sample, C. C, cited on explorations for amber - - 244 Sdncbez, fossils found near 165, 184 fossil plants collected at ". 103 lignitic streaks near „ 244 location of 47 marble at 53 plant-bearing beds at _ 76, 184 terraces and coral reefs near 184-185 Tertiary clay beds at and near 184 Tertiary limestone near 183 view of (PI. Ill, C) 30 S&nchez, Le6n, aid by ~ 231 San Crist6bal, gold prospect near 242 Oligocene rocks and fossils found near.. 64, 112 San Cristdbal Mining Co., San Francisco mining concession obtained by 237 operations of 237 San CriBt6bal mining district, conclusions concerning 241-242 copper deposits in 243 INDEX. 267 San Crist6bal mining district — Continued. development in 237-238 geology of 238-239 history of 237 La Rama prospect in 240-241 location of and access to 236 ore depodtsln 239-240 report on 236-243 San Francisco Hill, copper deposits and mines on 236, 240 shipments of copper ore from 238 San Francisco mining concession, copper- bearing rocks of 239 geology of 239 history of _ 237 location of 236 map of part of (PI. XXIII).._ 236 mineralized area of 238 San J096 de las Matas, basal rocks exposed near 52 Gercado formation near 69 faulting near „ 78 fossils found near. 114, 11&-124 Tabera formation near.. San Jose de Ocoa, Cretaceous rocks near.. description of faulting near.. view of plication in shaly limestone near (PL XX, A) San Juan, areal features near location and population of.., roads and trails to 62 54 33 79 226 188 195 . 35-37, 196-197 Tertiary rocks and fossils found near. — 109 200,211,212 volcanic rocks near 203 San Juan de la Maguana, roads from 37 San Juan Valley, areal geology of 204 drainage of 189 geologic features of 209-212 Las Matas formationin 76,201 location and general features of 37 structure in 203 volcanic rocks in width and extent of.., 202. 203, 210 188 San Lorenzo Bay, Oligocene limestone on 64 topography of region near 47 San Pedro de Macorls, brick made near 249 fossils found at 166-168 geographic features near 48 Quaternary coral reefs at 76-77 raised beaches near 77 remains of extinct rodents found at 104 uplifted shell beds near 81-82 view of terraces near (PL VII, A) 40 well water obtained near 249-252 Sand, tests of, for use in cement 248 Sand-clay available for road making, tests of 247 Santa Barbara de Samand, coral reef near. I80 geography of region near 47 view of (PL III, B) 30 Santiago, Mao Adentro limestone near. 73-74 Miocene fossils found at and near 130 133-145, 151-153 Santiago Province, Eocene fossils found in — 59, 105 Miocene fossils found in 113-153 Oligocene fossils found in 107, 108, 111 Santo Domingo City, brick made near 249 coastal plain near 40 fossils found near 112, 166-167 geographic features near 48 nickel deposits near 243 Quaternary coral reef at 77 well waters near, analysis of samples of 249-252 Santo Domingo Exploration Co., San Fran- cisco mining concession obtained and lost by 237 Santo Domingo Investment and Develop- ment Co., explorations for oil by 223 Santo Domingo Province, copper deposits in 236-242 Eocene fossils found in. 106 Miocene or older fossils from 155, 157-162 nickel deposit in 231-236 oil seepages in 225-226 Oligocene fossils collected in 112 Pleistocene or younger fossils from 166-167 Saona Island, features of 48 "Scotch Railroad," a name applied to the main line of the Ferrocarril de San- tiago y Samand 44 Seibo Plain, location and features of 40 Seibo Province, manganese ores in 243 Serpentine, description of 84 Settlements, Azua and Barahona Prov- inces.. 194-196 Shore features, description of. 44r-49 Sierra de Bahoruco, areal geology of 219-221 drainage of 43 Eocene rocks and fossils found in 60, 200 features of 39-40 generalized stratigraphic section in 221 iron ores in „ 243 location of __ 48, 49 views of (PL XIX, A, B) _ 220 villages in valleys of 195 volcanic rocks in _ 202 Sierrade Martin Garcia, features of. 38,48, 207 Sierra de Neiba, features of 3g Oligocene rocks and fossils found in.„. 63, 112 streams rising in 43 view of (PL XVI, A) igg Sierra de Ocoa, features of 32-33 trails in 33 Sierra de los Altos, rocks on 211 Sierra de los Remedios, lagoon near 192 Sierra del Agua, rocks in and near 209, 212 Sierra del Viento, Gurabo formation exposed on 74 Sierra Prieta, Eocepe rocks in 59, 60 location and general features of 232 map of part of (PL XXII) 232 Oligocene fossils found on m Tertiary limestone on 133 view of white limestone cliff in (PL VII, 5)-™ 40 Siete Picos, view of (PL VI, B) 33 268 INDEX, Silicic dike rocks, descriptions of 85, 86 Silver, occurrence of, in ores of San Crist6bal district 241, 242 Smith, Glenn S., itinerary of 12 Snowden, Thomas, Rear Admiral, acknowl- edgments to 17 action taken by, concerning survey 12 Sodium chloride, deposits of 244, 245 Soto, Marciel, oil samples collected by 225 South coast, features of. 48-49 Southern peninsula, features of 40 Sowerby, G. B., cited on Miocene fauna of the Cibao Valley 65 Springs, sulphur, occurrence of 192 waters of, analyses J — 193-194 Steiger, George, chemical analyses by 14 Stone for building, deposits of 245 Stratigraphy, description of 50-77 results of work on 15 Structure, general features of 16,77-79,176- 177, 203 Tabera, Oligocene rocks and fossils found at- 107 trail from 34 Tabera formation, age of 57,94 character, distribution, thickness, and fossils of 61-63 conglomerate in, significance of 80 faulting in 78, 79 rocks and fossils of....„ 61-63, 107-109, 111 Tamboril, amber found near 244 Terrace flats. Pleistocene or Recent, distri- bution of 184-185 Terry, D. C, acknowledgments to 169 Tertiary rocks, correlation of formations composing (table) 57 distribution, character, and thickness of 56-76,183 Tertiary system, rocks and fossils of 56, 76, 94- 168. 183, 199-201 Tertiary and Quaternary faunas, relations of 94^104 Tertiary and Quaternary stratigraphic pa- leontology, chapter on 89-168 Tippenhauer, L. G., cited on altitude of sur- face of Lake Enriquillo 191 Topographic divisions, brief statement of 26 map showing (PI. I) 26 Towns and villages, notes on 194-196 Trails and roads, courses and character of 44 196-197 Transportation, routes of 43-44 Trinchera, fossils found near 155, 157-162 Trou Jacob, geography of region near 49 Oligocene fossils found near 109 Tdbano, Miocene fossils found near...- 155, 157-162 Tertiary rocks exposed near.. 199, 206, 209, 212 Tuffaceous rocks, deacriptions of_ 87-88 Tufifa, descriptions of 87-88 Unconformities by erosion noted 80 Upham, R. D., aid rendered by 186, 214 Uplift, evidences of 82 Valois, Gregorio, well of, analyses of water from — 250 Valverde, Mao clay near. 74 Miocene fossils found at. 151-153 Vaughan, T. W., acknowledgments to 89 cited on age of Gurabo formation. 100 cited on block faulting 81 cited on correlation of Tertiary forma- tions _ 94 cited on need of considering ecology in the study of fossils „ 93 cited on shore features of West Indies 104 Eocene rocks and fossils in Haiti noted by 200 fossUs collected by 105 112, 114, 115, 126-129, 130- 145, 151-153, 165, 166-168 introduction by 11-17 itinerary of 12-13 observations made at Sdnchez by 181 Quaternary fossils identified by. 77 sections of Cercado formation measured by 68 section of Mao Adentro limestone measured by 73 Vaughan, T. W., and Woodring, W. P., chapter on Tertiary and Quaternary stratigraphic paleontology by 89-168 Vega Real, view of (PL IV, A ) 32 Vegetation, Azua and Barahona Provinces, features of 197-198 Villa Rivas, Oligocene rocks and fossils col- lected near 64 Villages and towns, notes on 194-196 Villarpando, sulphur springs near 192 Volcanic activity, ages of 82 Volcanic rocks, occurrence of 202 Water, analyses of 191, 193-194, 249-254 Water, ground, possibility of obtaining 177-178 Water power, possible sources of 190 Water resources, Monte Cristi and vicinity 169, 177-180 Wells, J. W., cited on altitude of surface of Lake Enriquillo 190-191 cited on Laguna de las Majias 192 Wells near Monte Cristi, character of 177-178 Woodring, W. P., aid by 14, 89 bibliography by 18- 25 cited on age of Bowden marl 100 monograph on the Mollusca of the Bowden marl by, reference to 98 Woodring, W. P., and Vaughan, T. W., chap- ter on Tertiary and Quaternary strati- graphic paleontology by. 89-168 Yaque group, age, character, thickness, and distribution of rocks of 57, 65-75 199,201,207,213 formations composing 57,65-75 naming of 65 north side, fossils of„, sections of 96-102, 154 66,71 south side, fossils of 102-103, 155-162 view of sandy shale and sandstone of (PI. XVIII, A) 208 Yaque Valley, Miocene rocks in „ 201 Yaroa, Oligocene rocks found at and near 63 , 107 Yaroa Creek, fossils found on_ 105 Yuma Bay, location of 47 geography of region near _ 45