ALBERT R. MANN LIBRARY New York State Colleges of Agriculture and Home Economics AT Cornell University HC 107.W C 6 O W57 UniVers " yLibrary 3 1924 013 707 538 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/cu31924013707538 Wisconsin Survey Bulletin XLII. Plate I. 1 1 ■ 1 ■ I RELIEF MAP OF WISCONSIN Photographed from Relief Model of the State. Wisconsin Geological and natural history Survey E. A. BIRGE, Director W. 0. HOTCHKISS, State Geologist Bulletin XLII Educational Series No. 5 THE GEOGRAPHY OF THE FOX-WINNEBAGO VALLEY BY RAY HUGHES WHITBECK Professor of Physiography and Geography University of Wisconsin lvm MADISON, WIS. Published by the State 1915 <*■ Wisconsin Geological and Natural History Survey BOARD OF COMMISSIONERS EMANUEL L. PHILIPP Governor of the Stale. CHARLES R. VAN HISE, President. President of the University of Wisconsin. CHARLES P. CARY, Vice-President State Superintendent of Public Instruction. JABE ALFORD President of the Commissioners of Fisheries HENRY L. WARD, Secretary President of the Wisconsin Academy of Sciences, Arts and Letters. STAFF OF THE SURVEY ADMINISTRATION: Edward A. Birge, Director and Superintendent In immediate charge of Natural History Division. William O. Hotchkiss, State Geologist. In immediate charge of Geology Division. Lillian M. Veerhusen, Clerk. GEOLOGY DIVISION: William 0. Hotchkiss, In charge. T. C. Chamberlin, Consulting Geologist, Pleistocene Geology. Samuel Weidman, Geologist, Areal Geology. E. F. Bean, Geologist, Chief of Field Parties. O. W. Wheelwright, Geologist, Chief of Field Parties. R. H. Whitbeck, Geologist, Geography of Lower Fox Valley. Lawrence Martin, Geologist, Physical Geography. E. Steidtmann, Geologist, Limestones. F. E. Williams, Geologist, Geography and History. NATURAL HISTORY DIVISION: Edward A. Birge, In charge. ChAncey Juday, Lake Survey. H. A. Schuette, Chemist. DIVISION OF SOILS: A. R. Whitson, In charge. W. J. Geib,* Inspector and Editor. Guy Conrey, Analyst. T. J. Dunnewald, Field Assistant and Analyst. Carl Thompson, Field Assistant and Analyst. C. B. Post, Field Assistant and Analyst. W. C. Boardman, Field Assistant and Analyst. * Scientist in Soil Survey, Bureau of Soils, U. S. Department of Agriculture. TABLE OF CONTENTS Page. Introduction Man and his geographical environment 1 The aim of applied geography 2 Two other factors in geography 2 The race factor 2 The stage of development 3 Chapter I. Valleys Valleys and mankind 4 Valleys of the old world 4 Valleys in American history 5 The historic Fox River Valley * 5 Chapter II. The Origin and Physical Features of the Fox- Winnebago Valley How the rocks of the valley were made V The uplift of the rocks 7 The differing character of the rocks 8 Cause of the valley 8 The glaciation of the valley 9 Cause of the gentle slope on the west and of the steep slope on the east 11 The valley at present 11 Natural resources 12 Chapter III. Peculiarities of the Fox River 14 The Upper Fox River 14 Lake Winnebago past and present 14 Origin of the present lake 15 The red clay and its relation to larger Lake Winnebago 16 Cause of the larger lake 17 Characteristics of the Lower Fox River 17 The rapids 18 Concentration of fall 19 The water power. 21 Uniformity of discharge 22 Chapter IV. The Navigation of the Fox River Past and Present Part of a famous historic route 24 The importance of rivers in history 24 The Fox River as a commercial waterway 27 Methods of navigation 28 Canoes and batteaus 28 Durham boats 29 The canal epoch 29 The improvement of the Fox 29 The State's attempt 30 Navigation during the period of improvement 30 The entire river opened to steamboat navigation 31 Taken over by the U. S. government 32 Period of greatest use 33 Period of government control 34 Chapter V. Cities and Industries Fond du Lac 42 The growth of the city 43 North Fond du Lac 46 Oshkosh 47 Its situation 47 Other cities of the same type 48 Early history of the city 48 The development of manufacturing 49 Present industries 51 Transportation 52 Neenah and Menasha 53 Neenah-Menasha as a type city 54 The waterpower and industries 54 Menasha 56 Appleton 58 Early history 58 Waterpower 59 Early manufacturing 60 Present manufacturing 62 Appleton as a type city 64 Kaukauna 65 Early history 65 Waterpower and industries 66 Kimberly, Little Chute, Wrightstown, Little Rapids 66 Kimberly 66 Little Chute ; 67 Wrightstown 67 Depere 68 Green Bay 69 Its long history 69 Historical synopsis 70 Green Bay as a type city 72 Green Bay as a lake and river port 73 Manufacturing industries 74 General summary of cities and industries 76 Chapter VI. Agriculture Fond du Lac county 84 Condition of agriculture 84 Reasons for high agricultural development 84 The soil 86 The leading farm products 87 Winnebago county 89 General conditions of farming 89 The work of glaciers 89 The red till and clay 90 Crops 90 Dairying 91 Outagamie county 93 The soil 93 Value of farm property 95 Principal crops 96 Dairying 96 Brown county 97 General conditions of farming 97 The soil and crops , 98 Dairying and stock-raising 99 Ownership and size of farms 99 Bibliography 100 U. S. government documents 103 Maps 105 PREFACE Bulletin XXVI * of the Wisconsin Geological and Natural History Survey is devoted to the geography and industries of the state as a whole. It is the introductory number in a series of educational bulletins which will treat of the industrial geography of the state and of selected regions of the state. The present volume is the first of the regional bulletins. Well defined valleys, if not too large, nearly always have a more or less characteristic industrial life; their various activities are knit together and show a notable degree of interdependence; hence, a valley like that of the Lower Fox and Lake Winnebago forms a geographical unit, serving ideally as a type study. So different are the geographical and industrial conditions in the basin of the Upper Fox from those in the lower valley that the former is not specifically treated in this bulletin. The same is true of Calumet county on the east side of Lake Winnebago. The bulletin is intended primarily for use in schools, particularly in the schools of the region with which it deals, yet it is hoped that the general reader may find it of some interest. The writer is indebted to manufacturers, county and city officials, editors, librarians, and others in the valley, whose courtesies he appreciatively acknowledges. In addition to information obtained directly from such sources, county and local histories, newspaper files, and other published material have been consulted. A persist- ent effort to secure accurate information has been made, but only one who has attempted such a task can realize how difficult is the attain- ment of accuracy in historical matters. It is hoped that any errors which may have crept in are neither numerous nor important. R. H. WHITBECK Madison, June 1, 1915. i2F*Issued in 1913 and distributed to the schools and libraries of the state, but now out of print. INTRODUCTION There are two phases to the geography of a region; one deals with the physical features as such, and is termed Physical Geog- raphy. The other deals with the region as the home of man; this is geography in its larger meaning. The non-physical phase of the study is sometimes called human geography, and sometimes it is called applied geography. Physical geography reaches back into geology and includes a discussion of: (1) the rock structure of the region, (2) the surface features — both land and water, (3) the climate, (4) the natural resources, including (a) the soil, (b) the minerals, (c) the forests, (d) the fisheries, (e) the navigable waterways, (f) the water powers, (5) the plant and animal life. The human or applied geography, while it is never distinctly separable from the physical, includes those geographical con- ditions for which man is responsible, such as: (a) the establishing of cities, towns, counties, states, roads, railroads, ports, etc.; (b) industries — mining, lumbering, farming, fishing, manu- facturing, trading, and transporting. Physical geography has its foundation in the science of geology; and applied geography, while having its foundation in physical geography, deals mainly with the industries, commerce, and other occupations of the people. Man and His Geographical Environment. On account of his intellectual superiority civilized man dominates lower animals and lower races of men and is able greatly to modify the physical Foz River— 2 2 INTRODUCTION conditions amid which he lives. Lower animals and savages do little more than passively accept the conditions in which they find themselves, getting a living and a degree of comfort out of the natural world about them, but doing practically nothing to im- prove their own condition. Civilized man seeks constantly to utilize the resources and forces of nature in ways that will advance his own well being. As man rises in the scale of civilization his wants increase, and he applies himself to such industries as he thinks will satisfy these increasing wants. But, while man may cultivate, and improve, and manufacture, he cannot create the elements of his own physical world. These he must take as he finds them and turn them to his use, improving and adapting them wherever he can. He must accept the hills and mountains, rivers and lakes, climate and soil, minerals and forests, as he finds them in nature, and then turn them to his advantage if he can. He may develop industries, but those industries will be closely shaped by the physical conditions and natural resources which already exist. The Aim of Applied Geography. Applied Geography seeks to explain how the people of a region utilize the resources of the region, what industries they develop, where and why they build cities and establish routes of communication. One man may cultivate the soil, another catch fish, or mine coal, or cut timber, or follow any one of many occupations. Yet he cannot success- fully cultivate the soil unless the soil and climate are favorable to agriculture; he cannot mine coal unless nature has placed it there; he cannot catch fish in the desert or cut timber on the prairie. Two Other Factors in Geography. But there are two other very important factors besides the nature-made ones which enter into the making of the applied geography of the region. The Race Factor. We may anticipate some matters which are to follow and use the Fox River Valley to illustrate our point. During the last 300 years, three quite different types of people have lived in the Valley, — the Indians, the French, and the Americans. During the Indian, French, and early American occupation, the natural resources, the topography and the climate of the Valley were about the same, yet the life and industries of the Valley differed widely from period to period. The Indians — prior to the white man's coming — did little more than eke out an existence while they fought the tribes around them. They moved about, lived in wigwams, dressed in skins, followed the chase, raised a little corn, but carried on only the most primitive indus- INTRODUCTION 3 tries. Had they been unmolested down to the present they would still be doing the same. In the 17th and 18th centuries the French came; not mainly the French directly from Europe, but Canadian French from the St. Lawrence Valley, often mixed with Indian blood. As a class, they were roving, light hearted, pleasure-loving sons of the forest. They did not settle upon the land and cultivate it, but preferred the hunt, the fur trade and the free life of adventure. Had Wisconsin and the rest of the Northwest been left wholly to these people and to the Indians with whom they so easily mingled, the country would have been long retarded in its development. In the second quarter of the last century a third class of people came into the Valley; they came from New England and New York and from the agricul- tural lands of Europe. They loved settled homes, loved the land, loved order and education, had mechanical and business genius, and found little in common with either Indians or adventure- loving French. The French period, a century and a half in length, was a fur-trading period and little else. The American period quickly became a period of agriculture, of lumbering, of roads, railroads, and manufacturing. Neither Indians nor French used the Valley as the Americans used it. This illustrates the second point in the discussion, namely, the importance of the human factor, the race-factor, in determining what use is made of a region and its resources. The physical geography was sub- stantially the same in all of the three periods of occupation of the Fox River Valley, but not so with the applied geography. The Stage of Development. A third point requires emphasis. As we called the second point the human, or race, factor, so we may call the third the time factor or the stage. With the progress of time, the applied geography of a region does not remain the same even though the physical factors and the race factor do. As time goes on, exhaustible resources like the forests may be used up, new resources may be discovered, better means of communication are effected, population increases, cities spring up, and the entire industrial life of the region changes. The story of the Fox River Valley will amply illustrate this. Thus, there are three primary considerations in the geography of any region: (1) the region as nature made it; (2) the kind of people who inhabit it; (3) the stage of development which the region has reached. CHAPTER I VALLEYS Valleys and Mankind During the long ages of the past the land surface of the earth has been worked upon by air and frost, furrowed by streams, and wrinkled by the mountain-making forces. For ages, of whose great length we have no conception, the rains have fallen upon the land, collected into brooks, joined into rivers, and flowed to the sea. In so doing they have slowly carved the valleys in which they now flow. Some valleys are narrow and deep with steep sides. Others are broad and open. From the earliest times men have chosen to live in the broad, open valleys because life in them is easier than life on the hills or among the mountains or on the plateaus. Valleys of the Old World It is a notable fact in history that most of the rich and powerful nations of the ancient world grew up in the valleys of the great rivers, particularly in those which had fertile flood plains — in the valleys of the Nile, of the Tigris-Euphrates, of the Indus and the Ganges, and on the rich alluvial plains of China. The rivers and valleys of Europe were for centuries the main routes along which trade and travel moved, and at favorable places the principal centers of population have grown up. The richest and most cultured part of Italy is the flood plain of the Po, known as the Plain of Lombardy. The larger part of the people of Austria- Hungary live in the broad basin drained by the Danube and its branches. For 2000 years the Rhine has been the great natural highway of western Europe. In the rugged plateau of Spain the broader valleys are almost the only cultivated and populous parts; and the valleys of the Rhine and the Garonne, of the Loire and the Seine, are the most thickly peopled regions of France. VALLEYS 5 Valleys in American History In America the rivers and their valleys played an important part in the exploration and settlement of the continent. The vast area of New France, reaching from the mouth of the St. Lawrence to the Mississippi and down that river to its mouth, was held by the French for more than 150 years through their control of the rivers and of the Great Lakes. The English settlements along the Atlantic grew inland from the coast as settlers worked their way up the New England rivers, the Hudson, the Delaware, the Susquehanna, the Potomac, the James and the rivers of the South. The great "westward movement" of settlers over the Appalachians and on into the Mississippi Valley, was a movement up the valleys of the east-flowing rivers and down those that led westward. The Mohawk Valley in New York, along which a portion of the Erie Canal was built, is known as the "Eastern Gateway of the United States" and the river gap at Pittsburgh at the head of the Ohio as the "Gateway to the West." The Historic Fox River Valley Among American rivers it is true that the Fox ranks only as a small river and its valley as a small valley, yet for more than 200 years this river and valley occupied one of the commanding positions of the Northwest; the Fox will always hold a place in history far out of proportion to its size. But this is not the main reason why the Fox River Valley is an ideal geographical "type study." It is because in it and in its history is found much that is typical or illustrative of valleys in general. And, as has already been pointed out, valleys have ever been the chief theatres of man's greatest achievements. It is a principle of geography that back of every feature of the earth's surface, — stream, mountain, or plain — lie the causes which produced it; and furthermore that every mountain and valley, every stream and waterfall, in the inhabited parts of the world have had some influence, great or small, in shaping human history. Valleys Due to Erosion Most valleys are due mainly to the work of streams which gradually wear channels for themselves in the surface of the earth. Rivers erode valleys in the hardest rocks, but they erode more freely and more rapidly in the softer ones; ordinarily they choose 6 GEOGRAPHY OF FOX-WINNEBAGO VALLEY the path of least resistance. If the rocks over which the river flows are of different degrees of hardness, rapids and falls will occur here and there where the more resistant rocks are encoun- tered. If the gradient, or slope, of the river channel is steep, the stream is capable of eroding rather rapidly. If, on the con- trary, the slope is gentle, the stream flows slowly and erodes slowly; possibly it may not erode at all, but may, on the contrary, deposit some of the silt which it carries and thus fill up its channel, as the lower Nile, the lower Mississippi and many other rivers are doing. Naturally a stream of large volume has greater power than a small stream. These factors — the hardness of the bed rock, the swiftness and the volume of the stream — affect the rate at which the stream works and hence the rate at which it erodes its valley. But even the most vigorous stream does not enlarge its valley very much in a man's life time, and the great valleys of the earth have required at least hundreds of thousands of years for their making. During this long time many things have had oppor- tunity to happen to the stream, and these might cause its work either to be retarded or to be intensified; the stream may even be turned out of its accustomed channel; or, in rare instances, caused to reverse the direction of its flow. In Wisconsin the cause which has most commonly interfered with the rivers has been the deposits left by glaciers during the Ice Age. Glaciers have played a large part in the geological history of the Fox River Valley, as they have in that of most of the rivers of the state. Wisconsin Survey Bulletin XLII. Plate II. RELIEF MAP OF FOX-WINNEBAGO VALLEY AND THE ADJACENT COUNTRY Photographed from Relief Model of Wisconsin. THE ORIGIN AND PHYSICAL FEATURES CHAPTER II THE ORIGIN AND PHYSICAL FEATURES OF THE FOX-WINNEBAGO VALLEY How the Rocks of the Valley Were Made In very remote ages — to be reckoned in millions of years — a broad, shallow sea extended into the very heart of the present continent of North America. North of this sea lay an ancient land-mass which makes up a large part of what is now Canada, and from which a shield-shaped portion projected southward. Part of that shield of ancient rock now forms northern Wisconsin. During this period, much (if not all) of Wisconsin was covered by the sea. From the old land-mass at the north, the streams eroded rock waste and carried it to the ocean, as streams are now doing. This rock-waste was spread upon the bottom of the adjacent sea and slowly built up layers of sediment, which in time became beds of sandstone, made of sand; beds of shale, made of clay; and beds of limestone, made of limey matter which settled from the sea-water or accumulated from the skeletons of corals and other lime-using creatures. In this way the old shield became enclosed on three sides by beds of sediments which accumulated in the sea around it, and which lapped over one another like shingles. The layers which were deposited first rest upon the seaward part of the shield, while those next deposited rest upon the ones laid down first, the third upon the second, and so on. The Uplift of the Rocks All of these layers of rock, together with the still older shield which was well-nigh buried under the sediments, were in a later period gradually uplifted into dry land. The sea slowly with- drew and land took its place. This uplift caused a gentle warping of the land now included in Wisconsin, so that the highest ground is in the northern part of the state, while the rock layers gently dip, or slope, toward the south, southeast, and southwest. 8 GEOGRAPHY OF FOX-WINNEBAGO VALLEY The Differing Character of the Rocks As already stated, some of the rocks are sandstone, some are shale, and some are limestone. Most people who live in the Fox River Valley know the limestone, for it may be seen in many places. The shale is soft and is readily eroded. The limestone is more resistant to wear than the shale, and some beds of the limestone are harder than others. And so it has come about that where softer beds of rock are exposed to the wearing action of streams and weather, valleys have been made, and between them the harder layers form low ridges, though none of these are conspicuous except the one which forms the bluff along the east side of the Valley. Cause of the Valley The Valley of the Lower Fox and Lake Winnebago is due partly to the less resistant shale which lies under the limestone, while the cliff of the Niagara limestone which forms the steep eastern side of the Valley is due to the resistant character of that rock. It is noteworthy that the two main rivers of eastern Wisconsin, the Fox and the Rock, do not take short-cuts directly to Lake 400' above sea level ^ o \ Z 3 Miles FIG. 1. CROSS SECTION OF VALLEY AND UPLAND ON THE EAST Note the depth of the glacial drift in the Valley and the shallowness of Lake Winnebago. (Diagram by Martin) Michigan, but flow respectively north and south; the latter from the Horicon marsh flows southward into Illinois and thence to the Mississippi River. The reason for this longer journey to the sea is the presence in eastern Wisconsin of the Niagara limestone ridge which extends north and south roughly parallel to the shore of Lake Michigan, and prevents the streams from the interior of the state from flowing directly to the lake; thus the Fox is turned northward to Green Bay and the Rock southward to the Mis- sissippi River. THE ORIGIN AND PHYSICAL FEATURES 9 But the Valley of Lake Winnebago and the Lower Fox is not alone due to erosion by a river. It is altogether probable that from an early geological period, a river has flowed in this valley — in fact eroded the valley in the weaker rocks which have already been referred to. Even before the Glacial Period, the hard Niagara limestone stood out as a ridge or cliff. At that time there was no Lake Michigan and, of course, no Green Bay, although there probably was a valley occupied by a river* where Lake Michigan now is, and a river probably flowed in the present Fox- Winnebago Valley. At a comparatively recent period, as geology counts time, the climate of North America became so cold that great glaciers spread over the northern part of the continent and an enormous body of ice crept southward from Canada as far as the present Ohio and Missouri rivers; this was the Ice Age or Glacial Period. It was made up of several cold epochs and between these were warmer ones during which the glacial ice melted back to the north, only to return long afterward with the return of another cold epoch. Each of these alternating periods of warm and cold climate was tens of thousands of years in duration; it is quite possible that we are now living in one of the warm epochs and that this may be followed, thousands of years hence, by another return of the glacial ice, another Ice Age. The Glaciation of the Valley The mass of slowly-moving ice which spread over northern and eastern Wisconsin had its center of supply in Labrador, and the front of the glacier was in the form of great lobes. If a part of the ice flowed in a valley which extended in the same general direction as the ice ,was moving, then that part of the glacier was able to move more freely, and a lobe of ice pushed forward a little more than it did where uplands or ridges retarded it. Thus, lobes of ice developed in certain valleys and gave the front of the glacier a lobate shape. (Fig. 2). It is now possible to discover where these lobes were by the great loops of terminal moraine, "or ranges of rounded hillocks, which were built of the debris transported by the ice and heaped up along its margin as it melted. A good reason for believing that valleys existed in the Lake Michigan and Green Bay depressions before the coming of the glaciers is the fact that the front of the glacier in eastern Wis- * It is suggested that this river probably flowed southward. See Martin, Lawrence, The Physical Geography of Wisconsin. Bull. XXXVI, Wis. Geol. & Nat. Hist. Survey. 10 GEOGRAPHY OF FOX-WINNEBAGO VALLEY consin was divided into two lobes such as are shown in (Fig. 2). There is equally good reason for believing that the scouring action by the ice lobes in these valleys both deepened and widened them. The Fox-Winnebago Valley is therefore due, first, to the presence of alternating soft and hard layers of rock; second, to the erosion of a valley in the softer layers by an ancient river; and, third, to the somewhat further deepening and widening of that valley by glacial erosion. Fig. 2. Sketch map showing the various tongues or lobes, of the glacier in Wisconsin at one period of the Ice Age. WISCONSIN SURVEY BULLETIN XI.II, PLATE III ~r • -Vaunt}.] |[ J30 '■" - '{ *- Sf °' 4. ( r ( " P 5, %„ : f ?w^E T 4 N ^J 4 **■>->. ■■;■ i nvTt-V 1 w LA c -<: „ ; -•• '^r.=---«(= ; &v-nv FT * NSSfe™^ -15 tsjr HfcosaE ^flmL-n O-^l 1 ^JOVW n fa , tut" t -.XT - k !A IN I T P?WM5. ?2 it ..kCZS^UL^S pSf^eJ •££&£ du J a* Ofckftda ,**Cuivai.y. -ASUSti'luud TV L ^iv^e,^, t— -*■,*. j^ , aenb|rulah,-t« J JcJ } jPmodl r. *^? iu^ V. iFV John eiimvill e •* Jl\ 'she b oy»$nj hMb'o" LEGEND Niagara Limestone Cincinnati Shale Galena-Platteville Limestone St. Peter Sandstone Lower Magnesian Limestones {includes the Shalcapee and the Oneota) Upper Cambrian Sandstone Pre-Cambrian GEOLOGIC MAP OF THE FOX-WINNEBAGO VALLEY From Geologic Map of Wisconsin, Plate I, Bulletin XXXV, Wisconsin Geol. and Nat. Hist. Survey (Weidman) Scale: J to 1,000,000 = about 16 miles to the inch THE ORIGIN AND PHYSICAL FEATURES 11 Cause of the Gentle Slope on the West and the Steep Slope on the East The cross section of the Valley shown in Fig. 1 brings out the fact that the Winnebago-Lower Fox Valley is not of the usual valley-shape, but that the eastern slope is steep, almost pre- cipitous in places, while the western slope is very gentle. The drawing (Fig. 1) shows why this is so. The Valley has been widened by the slow wearing back (toward the east) of its steep eastern side. The layers of the bed rock themselves dip or slope toward the east, so that the river and the glaciers have always done their eroding mainly against the eastern side of the Valley, and this side is kept steep by the slow wearing back toward the east of the Niagara limestone cliff and the underlying shale, while the western slope of the Valley is very gentle, due to the gentle eastward dip of the underlying rock. Seldom is a valley so definitely bounded on one side as is this one, and seldom does a valley have a boundary less conspicuous than that of the Lower Fox on the west. For the most of the distance, so far as the traveler can see, there is no water-shed between the Lower Fox and the Wolf, which drains the land immediately west. The Valley at Present The Winnebago-Lower Fox Valley is a lowland with (1) a shallow depression in the southern half which is mostly covered by Lake Winnebago; (2) a north-sloping plain from the foot of Lake Winnebago to Green Bay. Through this sloping plain the Fox River has cut a channel down to the bed rock upon which it flows with many rapids. Near Lake Winnebago and again near Green Bay the river has very low banks, but throughout three-fourths of its length it flows between steeply rising banks of red clay averaging thirty or forty feet in height. The present river channel shows by the steepness of its earth banks that it is youthful. The flat surface of the upland on either side of the channel is somewhat cut up by ravines, the courses of temporary or extinct tributaries; it is a rich farming region with little waste land. The average width of the valley of the Lower Fox between the inconspicuous divide on the western side and the steep lime- stone ridge on the eastern side, is twelve or fourteen miles, and the river flows a little east of the median line. Southward from 12 GEOGRAPHY OF FOX-WINNEBAGO VALLEY Fond du Lac the valley floor gradually rises for 10 or 12 miles until a low divide is reached from which the drainage is southward to the Rock River. Natural Resources Originally, hard wood forests covered most of the land near the Fox and Lake Winnebago, but there were prairie-like openings, some of which were utilized by the Indians for corn fields. The greatest timber resources tributary to the Fox River Valley were, however, the Wolf River pineries, which were among the finest in the state or in any state. Although the forest products have dominated the manufacturing industries at every stage, the soil of the Fox-Winnebago Valley is its greatest natural resource. In addition to these natural resources are the brick clays and the limestone, the basis of small industries. So far as the river itself is concerned, the two geographical conditions which cause the Fox to stand out prominently are (1) its great waterpower, and (2) its use as a waterway. No other stream in the state except the Wolf is or ever has been used to any extent for steamboat navigation, and no other river has its waterpower so fully developed, or has so much waterpower in so short a distance. Growing out of these two conditions is a third fact — in no other valley of the state is there such a chain of cities in close succession. Only along the Lake Michigan shore has city-growth been more rapid than in the Fox-Winnebago Valley. PECULIARITIES OF THE FOX RIVER 13 CHAPTER III PECULIARITIES OF THE FOX RIVER In all of its main features the Fox River is an abnormal stream, due to the changes imposed upon it by the action of glaciers. As we find the river to-day it is quite unlike the original Fox, although it is not certain just where that river rose, flowed, or emptied. On account of the alternating belts of hard and soft rocks in eastern Wisconsin it is perfectly natural that a north- south valley should be formed where the Fox-Winnebago lowland now is, with the Niagara limestone escarpment as its eastern i '* if I * J f It %1 U I 75tf 700' 650 i k * ;*« m ft- Q 0001 ^fc^^W " 550 above Sea Level. 'WW///////, 750' 700' 600' 550' IO 20 30 Miles FIG. 3. PROFILE OF THE LOWER FOX AS IMPROVED boundary. The natural slope of the land of Wisconsin is mainly toward the south; for, not only do the large rivers of the state flow in a general southerly direction, but the whole Mississippi basin slopes in that direction. It is worthy of note that the only important river in the state which flows northward is the Lower Fox. Whatever may have been the ancient course by which the waters of the Wolf and Upper Fox reached the sea, that course 14 GEOGRAPHY OF FOX-WINNEBAGO VALLEY could scarcely have been the present one. The Wolf River now heads in Forest County and flows a hundred miles south to its present junction with the Fox, a few miles west of Oshkosh, and then its waters reverse their direction and flow 125 miles north- ward from Oshkosh to the foot of Green Bay before they reach Lake Michigan. This is certainly an unusual procedure. (See plate IV.) The Upper Fox River The natural course of this part of the river has been so interfered with by glacial deposits that the present course bears little resemblance to the original one. At present the river winds for 107 miles with a sluggish flow through a maze of marshes and lakes, with an average fall of only 4 inches to the mile. Near Portage both the Wisconsin River and the Upper Fox flow in horse-shoe curves and come so close together (about a mile and a quarter) that at times of very high floods the Wisconsin over- flows into the Fox. A canal now connects the rivers and between Portage and Lake Winnebago nine locks render this part of the Fox navigable, but it has not been used to any large extent. The principal tributary of the Fox is the Wolf, a larger river than the Upper Fox. In the logging days this river and its branches were used to an enormous extent in driving logs to the mills, expecially to those at Oshkosh. At one time there were 43 dams on the upper Wolf and its tributaries, built to facilitate the log-driving operations. An impressive illustration of the way in which waterpower aids in building up cities is seen by comparing the upper and lower portions of the Fox. More manufacturing is done at any one of several rapids on the Lower Fox than is done on the entire 107 miles of the upper river; Berlin, with 4700 population, is the only city on this portion of the river, while there are 6 cities all larger than Berlin, in the 35 miles of the Lower Fox. Lake Winnebago Past and Present This lake is unusual in two respects: (1) It is one of the largest of the glacial lakes entirely within the limits of one state; it is 28 miles long and 10.4 miles broad in the widest part, and covers an area of about 215 square miles.* (2) It is remarkably *The extreme shallowness of Lake Winnebago maybe illustrated thus: take a sheet of paper so thin that a pile of 350 sheets is one inch high; cut out an oval shaped piece 8 inches wide and 21 inches long; this piece of paper will represent correcUy the proportional length breadth, and thickness of the sheet of water which forms Lake Winnebago. Wisconsin Survey Bulletin XLII. Plate IV. MAP OF DRAINAGE AREA or FOX AND WOLF RIVERS WISCONSIN FROM BULLETIN NO. SSI 1908 O 9 10 18 20 26 MILES PECULIARITIES OF THE FOX RIVER 15 shallow, having a maximum depth of only 21 feet. Many of the glacial lakes of New York and New England have depths ranging from 200 to 300 feet. Lake George, in New York, for example, is 400 feet deep. With the exception of the land on the eastern side of Lake Winnebago, its banks are low. The lake is merely a filmf of water spread over a slightly depressed portion of a plain. It is, like many glacial lakes, a shrunken portion of a body of water which was once larger. Origin of the Present Lake Why is there a Lake Winnebago? It is readily seen that the cliff or escarpment of Niagara limestone on the east holds the water on that side. But this would not produce a lake unless a dam of some sort extended east and west across the Valley and impounded the water. Most of the lakes in a glaciated region are due to dams of drift extending across streams. There is such a natural dam across the Fox River basin at the northern end of Lake Winnebago. This dam does not in the least resemble those which men build, and would not be recognized as a dam except by careful examination. The only man-made dam that resembles it is the great Gatun Dam which the engineers have constructed on the Isthmus of Panama to make Gatun Lake, a part of the Panama Canal waterway. Here the engineers have caused millions of carloads of earth and broken rocks to be dumped into the valley of the Chagres River, forming a massive obstruction which acts as a dam, impounds the water of the river, and produces Gatun Lake. In the Lower Fox Valley a similiar result was produced by a natural cause — the glacier that moved through the valley thousands of years ago. This glacier carried earth and rocks, mingled with the glacial ice; when the ice melted, it left this material, sometimes spread out more or less evenly in what is called a till sheet or ground moraine, and at other times heaped up in ranges of low hills in the form of terminal moraines. If one of these masses of glacial drift, or ranges of low hills, chanced to extend across the course of a river, it formed a low, perhaps hardly noticeable dam of earth; thus the water of the river was held back and a lake was produced. This is what happened in the case of Lake Winnebago. The water flowing in from the Upper Fox River filled the shallow basin, and the lake rose until the water flowed out through the lowest notch or sag around the margin of the lake. Naturally the overflow occurred t Juday, "Inland Lakes," p. 96. Bull. XXVII, Wis. Geol. and Nat. Hist. Survey, 1914. 16 GEOGRAPHY OF FOX-WINNEBAGO VALLEY at the place where the ground was lowest, whether it was over bed rock or glacial drift. It chanced in the case of Lake Winnebago that the lowest place in the margin of the basin was at the north- west corner (see map, Plate IV.) where the bed rock is at the surface of the ground. This is not the point where we should expect the lowest place to be. Since the underlying rock slopes toward Lake Michigan, we should expect the outlet of the lake to be at the northeastern corner. The shortest cut from Lake Winnebago to Green Bay is from this northeastern corner of the lake, as the map shows. Yet, on account of the uneven character of the drift the lowest ground at the foot of the lake chanced to be at the other corner, and so the Fox flows out of the lake at that point. Well-borings show that the drift is thicker and the rock surface considerably lower at the northeastern corner. There is evidently an old buried valley there.* The Red Clay and its Relation to Larger Lake Winnebago In the region between Fond du Lac and Green Bay, the traveler notes the prevalence of a peculiar red soil. It is so distinctly unlike the usual soils of Wisconsin that it early became a subject of enquiry. Examination shows that it not only differs in color from other soils but that it also contains an unusually high proportion of clay. In various places it is so fine and pure that it is used for making brick. Near Depere, for example, it is found in stratified beds 50 feet deep, showing unmistakably that it was deposited in quiet water, such as a lake or enclosed lagoon. In most places, however, the red clay is mixed with pebbles, and with some sand and bowlders. Dr. Wm. C. Alden of the U. S. Geological Survey has recently studied and mapped the region south of Neenah-Menasha and confirms the fact that the red material as it now exists in that region is glacial till. The high proportion of clay and the strikingly level surface at once suggest that the surface till is not the ordinary unsorted, miscellaneous drift left by the retreating glacier, but that the material was deposited in water and was afterward worked over and dis- tributed by the waters of a larger Lake Winnebago. But that the red material as we now find it is a glacial deposit is shown by the fact that the "red till area" is bounded by a terminal moraine composed of red till, and that this moraine is at various levels ranging from about 1000 feet on the limestone ledge on the east * T. C. Chamberlain speaks of this buried channel in the "Geology of Wisconsin," Vol. II, p. 666. W. C. Alden of the U. S. Geological Survey has gathered further proof by means of well records which show the existence of this buried valley. PECULIARITIES OF THE FOX RIVER 17 to a level only slightly above Lake Winnebago (747 ft.) on the plain. Alden interprets this as evidence of a late stage of the Green Bay lobe, whose extent is now shown by the loop of red moraine within which the red till of the Lake Winnebago region is included. This lobe represents a very late and relatively short period of re-advance of the Green Bay ice tongue, following the accumulation of the red clay in the Lake Winnebago lowland. The red clay extends westward in the Fox River Valley as far as Berlin, and northward as far as Shawano, and down the Valley of the Lower Fox to Green Bay. This peculiar red deposit is not confined to the region under discussion, but also occurs along the Wisconsin shore of Lake Michigan from Milwaukee northward, and along the south shore of Lake Superior. Cause of the Larger Lake Remembering that the entire Fox River-Lake Winnebago basin is a lowland, enclosed by higher land on all sides except for a narrow opening at the north end, it is easy to understand that if anything should obstruct this opening, the northward drainage of the entire basin would be blocked, and a lake would be produced. This is evidently what occurred when the Green Bay lobe of the glacier pushed its way into the valley from the north. The ice itself acted as a dam, not a fixed one, but a slowly advancing or receding one, and as the ice lobe pushed slowly up the valley, the lake became smaller and smaller and finally disappeared entirely as the glacier spread over the whole basin and beyond. Long afterward, as the Glacial Period was coming to a close and the glacial ice was melting, the ice front melted back toward the north and the Green Bay lobe again became a dam acros the Fox River Valley, and again produced a lake in the Fox River- Lake Winnebago lowland. Still later, when the glacier had entirely withdrawn from Wisconsin, and the ice dam had melted away, the glacial lake, whose waters had been flowing westward into the Wisconsin River, now drained northward by the Fox River and the lake shrank to about its present size. Why the lake was not entirely drained has already been explained (p. 15). Characteristics of the Lower Fox River As the Upper Fox is noted for its extremely slight fall (4 inches to the mile), so the Lower Fox is notable for its rapid fall, and especially for the fall in a nine-mile stretch between the Grand Chute (Appleton) and the Grand Kaukauna. A profile of the river is shown in Plate VIII. Fox River— 3 18 GEOGRAPHY OF FOX-WINNEBAGO VALLEY From Lake Winnebago to Green Bay the distance by the river is 35 miles, and throughout practically all of this distance the river flows between banks of red till, in places 60 feet high. At the outlet of the lake there are no banks, and below Neenah and Menasha the river expands into Little Lake Butte des Mortes, four miles in length (Plate XVI.) At the lower end of this lake the present river channel begins, and continues all the way to Depere. This channel is merely a young valley cut by the river in the red till beds which were laid down in the larger Lake Winnebago. ' Were it not for the bed rock which is buried under a few score feet of till, the river would have cut a much deeper channel than it has. The Lower Fox has no tributaries of any size, but the plain adjacent to the river is cut by deep, narrow ravines in which small streams once flowed, but most of which are now dry. The Rapids There were eight sets of rapids in the river before it was im- proved for navigation. Their location and amount of fall are shown in the following table. TABLE I Rapids on the Lower Fox before Improvement (From Major G. K. Warren's Report. Executive Document No. 28, 44th Congress, 1st Session, 1876, p. 29.) Name Descent Distance Apart Depere Little Kaukauna Rapide Croche Grand Kaukauna Little Chute Cedar Rapids (Kimberly) Grand Chute (Appleton) Winnebago Rapids (Neenah-Menasha).. Lake Winnebago to Depere Feet 170 Miles 8 8 6.0 8 6.0 50 4.5 38 2.5 10 .75 38 4.0 10 4.25 28.00 PECULIARITIES OF THE FOX RIVER 19 Four-fifths of the total fall of these rapids is in a relatively short stretch, and three of them include 126 feet of the total fall of 170 feet between Lake Winnebago and Green Bay; these are Grand Chute at Appleton (38 feet fall), Little Chute, (38 feet fall), and Grand Kaukauna, (50 feet fall). To overcome the rapids and render steam navigation possible, 17 locks have been constructed.* Concentration of Fall In the stretch between the crest of the Menasha dam and the upper dam at Appleton, the total fall is only 10 feet, mostly concentrated at the Winnebago Rapids below Neenah-Menasha. In the 9-mile stretch between the upper dam at Appleton and the foot of the Grand Kaukauna, the fall is 134 feet, or an average of 15 feet to the mile. In the 21-mile stretch between the foot of the Grand Kaukauna and Green Bay the fall is 24 feet, or an average of only a little over one foot per mile. The most notable portion of the entire river is the 9-mile stretch from the head of the Grand Chute (Appleton) to the foot of the Grand Kaukauna, in which short distance is concentrated 80 per cent of the fall of the Lower Fox and hence 80 per cent of the great water power. At once the question arises — Why should 80 per cent of the river's fall be concentrated in a single 9-mile stretch? By consulting a map (Plate II.) it will be seen that this part of the river is that portion which is in Outagamie County, and that from the upper dam at Appleton, to the foot of the Grand Kaukauna, the river flows almost due east, while the rest of its course, both above and below, is almost due north. Is there any reason why this 9- mile portion of the river where it flows eastward should contain 80 per cent of the entire fall of the Lower Fox? Plainly there is. It is in this east-flowing stretch that the river is engaged in off- setting the accident which made it flow out of Lake Winnebago at the northwestern corner instead of the northeastern corner as, according to geological structure of the valley, it ought to do. As soon as the new-born Fox River, at the end of the Glacial Period, had found its way out of Lake Winnebago at the north- western corner, its flow was naturally in the direction of Green Bay, which is both north and east of the outlet of the lake. Now nearly all of the necessary eastward flow of the river is accom- * For list of these see page 36. 20 GEOGRAPHY OF FOX-WINNEBAGO VALLEY plished between the present cities of Appleton and Kaukauna. The river easily cut a channel through the soft till which partly fills the valley and soon was flowing on the bed rock below. FIG. 4. DIAGRAM SHOWING THE RELATIVE AMOUNT OF WATER- POWER AT DIFFERENT POINTS ON THE LOWER FOX RIVER The black bars extending upward represent developed power, and the unshaded ones extending downward represent undeveloped power. Note the concentration of power along the east-flowing portion of the river. See table II, p. 22. The underlying rock surface evidently slopes rather rapidly and unevenly toward the east and has a number of steep pitches where rapids occur and which give rise to the water powers. The PECULIARITIES OF THE FOX RIVER 21 presence of a deep, buried river channel near the cliff on the east side of the valley has already been mentioned (p. 16). The rapids between Appleton and Kaukauna are evidently due to the fact that here the river is flowing down the side-slope of this buried valley. And so it is due to the glaciers that Lake Winnebago exists at all, and it is due to a chance occurrence that the lowest place in the drift-dam which caused the Lake was at the northwest corner, causing the outlet to be at that point, and giving the Lower Fox a stretch nine miles long where it flows down the easterly slope of a buried valley and thus concentrates 80 per cent of its fall within nine miles, and creates an enormous water power. Had the outlet of Lake Winnebago chanced to be at the north- eastern corner, where the buried river channel is, then the river would have cut down through the soft red till into the old channel and the lake would long since have been entirely drained. Where the lake now is would be a level plain and through it would run a deep, narrow, Fox River channel, with steep clay banks. The fall of the entire Fox River would thus be more evenly distributed all along its course from Portage to Green Bay, and there would be few, if any, places where the fall would be sufficiently concen- trated to produce valuable water power. Thus, while it is quite a matter of accident that the Lower Fox has to flow out of Lake Winnebago at Neenah - Menasha, the 9 -mile east -flowing stretch of the river in Outagamie County, where 80 per cent of the water power is produced, is not an accident, but is the expectable thing in view of the eastward slope of the rock surface which lies buried beneath the till in the Valley. The accident by reason of which the Fox flows out of Lake Winnebago at the "wrong corner" is a fortunate one, worth hundreds of thousands of dollars a year to the industries of the Valley. The Water Power The amount of available water power along the river and the places where it is concentrated are shown in the following table: 22 GEOGRAPHY OF FOX-WINNEBAGO VALLEY TABLE II Water Power of the Lower Fox River* Neenah-Menasha 2,400 H. P. developed Appleton 8,400 H. P. developed Kimberly 2,200 H. P. developed Little Chute 4,000 H. P. developed Combined Locks 6,000 H. P. developed Kaukauna 7,400 H. P. developed (not all used) Kaukauna 6,000 H. P. undeveloped Rapide Croche 2,200 H. P. undeveloped Little Kaukauna (Little Rapids) 2,000 H. P. developed Depere 2,100 H. P. developed Total developed 34,500 H. P. Total undeveloped 8,200 H. P. Total 42,700 H. P. Uniformity of Discharge The annual rainfall of eastern Wisconsin rarely falls below 26 inches and seldom exceeds 37 inches. The proportion of the rain- fall that reaches the Lower Fox and is available for water, power is notably small because of the excessive evaporation from Lake Winnebago and the other lakes and marshes along the sluggish upper stretches of the river. At the Rapide Croche dam, where the U. S. Government maintains a gaging station, the river seldom discharges more than | of the rainfall of the 6200 square miles included in the river's catchment basin. It is said that on a hot summer day, the evaporation from the surface of Lake Winnebago is practically equal to the outflow of water through the river. Lakes in the course of a river steady the flow and prevent a rapid rise after a heavy rain. Sometimes the Upper Fox basin receives an excessive downpour and discharges a great amount of water into Lake Winnebago. The rapid rise of the water in the upper course of the river is not accompanied by an equally rapid rise in the lower course, because the inflowing water spreads out over the entire area of Lake Winnebago and raises its level but little. The outflow of the lake into the Lower Fox increases, * The figures are for theoretical horsepower; 20 per cent must be deducted to give actual horsepower. The figures are based upon an average flow of 150,000 cubic feet of water per minute which gives an average of 300 horse power for each foot "head." At high stages of water a much greater power is developed, and at the lowest stages the available power falls below this amount. The figures do not coincide exactly with those given in L. S. Smith's report on The Water Powers of Wisconsin, Bull. XX, Wis. Geol. & Nat. Hist. Survey, pp. 26-54. Wisconsin Survey Bulletin XLII. Plate V. WATER POWERS OF WISCONSIN Circles indicate power owned by a Water power company, and leased or sold to man- ufacturers. Squares indicate power owned by manufacturers. From map of the United States in Report of Commissioner of Corporations on Water Power Development in the United Slates (1912). PECULIARITIES OF THE FOX RIVER 23 of course, but this is gradual, and the high water stage is dis- tributed throughout a considerable period of time. Such terrific floods as the one which destroyed half of the city of Black River Falls in 1911 are quite impossible in the Lower Fox, and the rise and fall of the water is much more gradual than in any other large river in the state. Nothwithstanding this regulating influence of Lake Winnebago and the other lakes in the Fox River system, there are high stages in the Lower River during the spring or early summer, and then there is more water than the mills can use for power and the surplus is wasted. The maximum flow occasionally reaches 1,000,000 cubic feet a minute. In the late summer the flow of the water declines to its lowest stage and for a period of two or three months there may be too little for the needs of the mills and steam power must be used. For years a project has been under consideration looking to the building of dams for producing extensive storage reservoirs in the upper waters of the Wolf River. It is believed by some that in this way the flood waters may be stored and afterwards released when needed. The project has both advocates and opponents. But even under present conditions the water power of the Lower Fox is exceptionally large and exceptionally uniform when compared with that of other rivers of its size. 24 GEOGRAPHY OF FOX-WINNEBAGO VALLEY CHAPTER IV THE NAVIGATION OF THE FOX RIVER PAST AND PRESENT Part of a Famous Historic Route Exploration. For more than two centuries the kings of France laid claim, by right of discovery, to a vast but undefined area in North America which they called New France. French navi- gators chanced to discover the mouth of the St. Lawrence River (1534); by means of this river and the chain of Great Lakes, the canoes of the French explorers worked their way westward into the very heart of the continent. One of these explorers, named Jean Nicolet, sent out by Champlain, Governor of New France, discovered an arm of Lake Michigan (Green Bay) opening toward the west; he entered it hoping that it might lead to China which was supposed to be much nearer than it is, and in 1634 he landed at some point near the mouth of Fox River, probably at Red Banks.* Clothed in a gorgeous silken robe and with great pomp and ceremony, Nicolet met the Winnebago Indians, feasted with them, and smoked the pipe of friendship. Thus began the French regime in the Fox River Valley, fifty years before Philadelphia was founded, and a century before Oglethorp's colony settled on the coast of Georgia and founded Savannah (1733). Green Bay was reached by Europeans 135 years before Daniel Boone and the English colonists from the Atlantic seaboard had pushed across the eastern mountains and had made their trans-Allegheny settlements. The Importance of Rivers in History This fact raises the question "How did it come about that the French penetrated into the very heart of the continent before the English had gained even a narrow coastal strip along the Atlan- tic?" The answer fittingly introduces the idea of the chapter * It is maintained by some that the landing took place near the present site of Menasha. Wisconsin Survey Bulletin XLII. Plate VI. A.— SCENE BELOW THE LOWER DAM AT APPLETON By means of frequent dams, the Lower Fox River is transformed into a series of lake- like reaches which provide slack water navigation. B— THE UPPER DAM AT APPLETON Note the level upland which borders the river. The clay banks here are nearly 50 feet high; the river flows on a rock bed. NAVIGATION OF THE FOX RIVER; PAST AND PRESENT 25 which follows. The answer is — "The French found a great natural waterway, 2000 miles long, which led them from the Gulf of St. Lawrence to the head of Lake Superior." In an unknown, nearly untrodden, wilderness such as the white man found in North America, travel is difficult beyond anything which we can picture. On land an occasional Indian trail threaded its crooked way through the tangle of brush and timber. The fallen trees, the swamps, and the dense and thorny undergrowth made travel slow, and exceedingly difficult. In traveling through such a place, even the Indian trail was a luxury, for on the trail the explorer might carry a load of 50 pounds or more and possibly cover 20 or 25 miles in a day. But his outfit and the necessary provisions made load enough. To transport furs or goods for any distance by land on the backs of men was rarely profitable even when possible. Travel in a canoe was a marvel of comfort when compared with carrying a load on one's back. And so it followed as a natural consequence that in those early days the rivers and the lakes were almost the sole highways of exploration, travel, and trade. In such a wilderness as that which closed about the Great Lakes, the canoe routes were the only ones which tempted men. By these water routes the explorers pushed into new lands; the coureurs de bois* and the voyageurs reached the Indian villages on the river banks and traded with the Red men; the occasional black robed priest from the mission visited his scattered flock; and small squads of soldiers reached the little forts placed at strategic points on the rivers or lakes. Quoting from Professor Turner :f — "The rivers (of Wis.) not only permitted exploration, they also furnished a motive to exploration by the fact that their valleys teemed with fur-bearing animals. This is the main fact in connection with the Northwestern Exploration." "So powerful was the combined influence of these far-reaching rivers, and the 'hardy, adventurous, lawless, fascinating fur trade' that the scanty population of Canada was irresistibly drawn from agricultural settlements into the interminable recesses of the continent." "In short, this trade (in furs) may be regarded as the force that caused the first detailed exploration through the wilderness, * The coureurs de bois or forest rangers were mainly French or French-Canadians en- gaged in fur-trading with the Indians. Voyageurs were usually employees of the fur-trading companies, acting as porters and boatmen. t Turner, F. J., The Character and Influence of the Fur Trade in Wisconsin, Proc. Wis. Historical Society, 1889, pp. 52-98. 26 GEOGRAPHY OF FOX-WINNEBAGO VALLEY opened up the waterways, and led to the earliest outlying estab- lishments in this country." "Stockade trading posts were established at such key points as a strait, a portage, a river mouth, where also there was likely to be an Indian village." In the settled parts of French Canada the farms were narrow strips of land facing on the rivers and often reaching indefinitely back into the interior. No one cared for a farm unless it faced on a river or lake as city lots face on streets. It is said that at one time, every settler's house in New France could be seen by paddling a canoe up the St. Lawrence and Richelieu rivers. The long water route of the St. Lawrence and the Great Lakes reached almost to the Mississippi, the great waterway leading into the interior of North America from the south. Between these two lay the territory which now makes Wisconsin. The Historic Waterway Branching off from Lake Michigan on the west was Green Bay, offering safe sailing and shelter for the little boats of the explorer, trader and missionary. From Green Bay the Fox River led to within a mile and a quarter of the Wisconsin at its big bend. Here, by a short portage, the canoes were carried to the Wisconsin and thence they reached the Mississippi. Of all the canoe routes between Lake Michigan and the Mississippi, the Fox- Wisconsin was the most used, and remains to this day the most historic. The importance of this water route is suggested by the large number of historic events in which it shared, some of which are mentioned in the following paragraphs. In 1654 the French adventurers, Radisson and Goseilliers, came to Green Bay, ascended the Fox, and crossed the portage to the Wisconsin. In 1673 the now famous explorer - priest, Marquette, and the fur trader, Joliet, followed this same route on the memorable journey in which they discovered and explored the Upper Mississippi; ten years later, Le Sueur followed the same route. It soon became a regular route of the French fur traders, and the fur trading post at Green Bay was one of the most widely known and most profitable in the Northwest. At Depere was established in 1671, the historic old Jesuit Mission of St. Francis Xavier. Along the Fox occurred some of the bloodiest battles in early Indian warfare in the West; in one of these battles, nearly a thousand Indians belonging to the Fox nation perished. NAVIGATION OF THE FOX RIVER; PAST AND PRESENT 27 Later (1766) Jonathan Carver in search of the Northwest Passage (?) passed through the Fox-Wisconsin route; and in 1809 the party of John Jacob Astor, founder of the Astor fortune, used this same route on its way to the Pacific coast for the found- ing of the important fur-trading post, Astoria. Throughout the 127 years of French control, down through the 25 year period of English control, and on to the days of the American railroad in the '60's this nature-made highway of travel between the Great Lakes and the Mississippi was a link in a great continental waterway — a part of a Pathway of Empire. , L r ._J ■ WINNEBAGO ., OSH/TOSH ffONI FIG. 5. PRINCIPAL TOWNS OF THE FOX-WINNEBAGO VALLEY The size of the circle is in proportion to the population of the town. See table X, p. 41. The Fox River as a Commercial Waterway The steep gradient of the Lower Fox— 170 feet in 35 miles- would ordinarily take the river out of the navigable class for all but small boats. There were many rapids and some violent ones, and it now requires seventeen locks to enable boats con- 28 GEOGRAPHY OF FOX-WINNEBAGO VALLEY veniently to pass the frequent rapids. Two factors tended to make the river a much-used waterway; one, the easy portage of less than two miles between it and the Wisconsin; the other, the outlet which it gave to a rich fur-yielding region. The French, who really dominated northern Wisconsin long after New France fell, were interested almost exclusively in the fur trade with the Indians. Boats were the only practicable means by which furs could be brought out and goods for exchange taken in, and even a rapid river like the Lower Fox was far better than laboriously carrying loads along Indian trails. Methods of Navigation During five periods of time, five different methods of naviga- tion have succeeded one another on the river: 1. the Indian canoe, propelled by paddles; 2. the French batteau, propelled by oars; 3. the Durham boat, pushed by poles; 4. the steamboat, and 5. the barge and steam tug. Canoes and Batteaus. At first only light canoes were used; they could readily be lifted out of the water and carried around rapids or even from one river to another, and could navigate shallow water and narrow channels. The French batteaus were larger, usually thirty feet long; and they were rowed by from four to ten French-Canadian voyageurs, beating time to their boat songs; these boats came into use later and were employed in con- nection with canoes throughout the French period. Professor Turner thus describes transportation by the canoe: "There are the rapids to be run, the portage where the canoe must be emptied and where each voyageur must bear his two packs of 90 pounds apiece, and there are the decharges, when the canoe is merely lightened and where the voyageurs, now on land, now into the rushing waters, drag it forward till the rapids are passed. There is no stopping to dry, but on until the time for the hasty meal, or the evening campfire underneath the pines. Every two miles there is a stop for a few minutes' smoke or 'pipe,' and when a portage is made, it is reckoned in 'pauses,' by which is meant the number of times the men must stop to rest."* * Turner, F. J., The Character and the Influence of the Fur Trade in Wisconsin, Proc. Wis. Hist. Soc. 1889, p. 80. Wisconsin" Survey Bulletin XLII. Plate VII. A.— SCENE AT APPLETON One of the 17 locks in the Government canals around the rapids of the Lower Fox River. The waterway is one of great scenic beauty and is much used by pleasure boats. B.— ONE OF THE GOVERNMENT CANALS AT APPLETON The canals are higher than the river and the drop between canal and river gives the water power. NAVIGATION OF THE FOX RIVER; PAST AND PRESENT 29 The American Fur Company is said to have sent up the Fox River flotillas which included from fifty to one hundred canoes and batteaus. The Durham Boats. By 1825 the Durham boats, originally devised for use on the Pennsylvania rivers, had largely displaced the batteaus. They were larger and carried more freight with proportionately fewer men. They were ten to twelve feet broad, forty-five to sixty feet long, carried twenty-five to thirty tons of freight and were propelled by six to twelve men using poles.* These boats drew only eighteen or twenty inches of water and so were well adapted to river navigation. Daniel Whitman's Narrative describes a trip up the Fox by a Durham boat in 1821. At Grand Kaukalo (Kaukauna) they had to unload and cart the goods about one mile, the Indians going into the water, pushing, lifting and hauling the boats over the rapids, then reloading and poling them up to the Grand Chute (present Appleton). There they had to unload and carry the goods up a hill and down the other side above the Chute, which was a perpendicular fall of three or four feet. When the boats had been hauled over the rapids by the Indians, they were reloaded and then pushed ahead and poled from there to Fort Winnebago. At "the portage" (the present city of Portage) boats and cargoes had to be transported by land over a distance of between one and two miles. Dr. R. G. Thwaites says the Creoles charged $10.00 for transporting a boat across the portage and fifty cents a hundred pounds for the cargoes. The Canal Epoch In 1825 the most important and most celebrated canal in the United States was completed. This was the Erie Canal in New York State connecting Lake Erie with the Hudson River, and through that river with the Atlantic Ocean at New York City. This waterway was so successful that canal-building came into sudden favor and scores of canals were projected and many of them built; most of these were in the states which touch the Great Lakes or the Atlantic Ocean. The Improvement of the Fox As early as 1829 — four years after the opening of the Erie Canal — an agitation was begun in the Fox River Valley for the improvement of the Fox- Wisconsin waterway so that it might be * Arndt, J. W., The Early History of Green Bay and the Fox River Valley. Depere, 1894. 57 p. 30 GEOGRAPHY OF FOX-WINNEBAGO VALLEY used by steamboats, which were then becoming common. In 1836 the U. S. government engineers made a survey of the mouth of the Fox River and three years later, a survey of the river itself. Six years afterward the War Department made a survey of Green Bay. Finally, in 1846, Congress granted a large amount of public land in the Territory of Wisconsin and stipulated that the funds derived from the sale of this should be used for the purpose of making a waterway navigable from the mouth of the Wisconsin to Green Bay. A canal was to be built at the portage between the Fox and the Wisconsin, and both rivers were to be cleared of logs, snags, and sand bars; overhanging trees were to be cut away, and the rocks at the frequent rapids in the Lower Fox were to be blasted out, or canals with locks were to be built around the rapids. The State's Attempt In 1849 — twenty years after the agitation began — the State of Wisconsin commenced work upon the improvement. At first the public land sold rapidly, and for a year or two things appeared promising; a lock at the Depere rapids was completed and opened for navigation in 1850. The short canal joining the two rivers at the portage was completed and a little dredging of the river channels was done. But land sales soon declined, the money ran out and the project nearly came to a halt. The state officials declined to continue the undertaking as a public enterprise, and in 1852, after spending $400,000 on the work, the state turned it over to a private company, called the Fox and Wisconsin Im- provement Company. Navigation During the Period of Improvement The Durham boats continued in general use on into the '50's, when a portion of the Fox was opened to steamboat navigation. In the early '50's there was an epidemic of plank roads — real or projected. One was built to connect Kaukauna and Menasha. Steamboats ran from Green Bay to Kaukauna and heavy freight was then hauled by teams over the plank road to Menasha. In 1853, for example, the railroad iron for the Rock River Union Railroad (now the C. & N. W.) came from the East by way of the Great Lakes to Green Bay, thence up the Fox to Kaukauna, thence by plank road to Menasha and thence by barges to Fond NAVIGATION OF THE FOX RIVER; PAST AND PRESENT 31 du Lac* It is said that the big wheat crop of 1855 kept 100 teams making daily trips between Menasha and Kaukauna. The most difficult rapids of the Lower Fox were between Kaukauna and Appleton, and steamboat navigation was carried on both below Kaukauna and above Appleton several years /hptf/afroo /s> 7hot/semcts o j /o & lo tfje is to «s so ss to o s /o & zo :s jo js — Qz 9) o o c o 1 N 0) O C Q_ o o > X. o o J O O <3 X in 1 IE LJ 600' 500' 10 20 30 40 50 Miles PROFILE OF FOX-WISCONSIN WATERWAY FROM PRAIRIE DU CIIIEN TO PORTAGE TO GREEN BAY The U. S. Government has expended about $4,000,000 on this waterway. NAVIGATION OF THE FOX RIVER; PAST AND PRESENT 33 of four states, was held at Prairie du Chien (1868). The delegates drew up a memorial to Congress in which they declared that "The immediate opening of said channel is demanded by the interests of the people of the entire country; the work is one of national importance, required as a channel of commerce, as a ligament to bind together the states, insuring national unity and as a defense in case of war." It is interesting to note that during our Civil War a commission was appointed to consider the feasibility of making Lake Winne- bago a U. S. naval station; it was urged that by enlarging the Fox and Wisconsin rivers, gun boats from both the Mississippi and the Great Lakes could assemble in Lake Winnebago and thus greatly add to our national safety in case of war with Great Britain. In fact, one of the reasons frequently presented why the United States government should make the Fox -Wisconsin waterway navigable, was the great service which such a water route would be in case of war, particularly a war in which Canada was involved. The other reason urged was that by connecting the Mississippi with the Great Lakes by a waterway of con- siderable size, the grain-growing states of the West would have direct and much needed water connection with the manufac- turing states of the East. Between 1866 and 1875 Major G. K. Warren, acting for the government, made the most thorough investigation of the problem that has ever been made. His report, * issued in 1876, is unusually full and conclusive. He concluded that the constant formation of sand bars in the lower Wisconsin River would always impede navigation and render its use uncertain, if not impossible. And so the half-century-long dream of constructing in Wis- consin a great national waterway which should connect the Father of Waters to the Great Lakes gradually faded. The chief difficulties lay in the Wisconsin River, not in the Fox. Yet, for of all the disappointments, the improved Fox was of great service in the development of the parts of the state tributary to it. By means of it thousands of immigrants were able to enter the interior counties and bring in the needed household effects and farming implements. By it large quantities of wheat, flour, lumber, shingles and other products reached outside markets. Period of Greatest Use The sixties and seventies were the decades of most active steamboat building in the valleys of the Fox and Wolf rivers. * Executive Document, No. 28, 44th Cong., 1st Session. Foz Biver — i 34 GEOGRAPHY OF FOX-WINNEBAGO VALLEY In his chapter on "Steamboating on the Fox River" in Lawson's History of Winnebago County, Thomas Roach lists the steamboats built between 1844 and 1908. A summary of his detailed account gives the following: Steamboats built between 1844 and 1849 2 Steamboats built between 1850 and 1860 18 Steamboats built between 1861 and 1870 21 Steamboats built between 1871 and 1880 10 Steamboats built between 1881 and 1890 8 Steamboats built between 1891 and 1908 .:.. 3 Total 62 According to the same authority, the boats were built at the following places : Built at Menasha 3 Built at Neenah 4 Built on the Wolf River 8 Built on the Lower Fox and Green Bay 6 Built on the Upper Fox 14 Built at Oshkosh 27 62 The majority of these boats eventually went to the Mississippi River. Period of Government Control The United States government has enlarged and improved the locks, maintains navigation about eight months in the year, has lock-tenders at all of the locks, has a gaging station at Rapide Croche and has an office in charge of an engineer* at Oshkosh. No tolls are charged. The maintenance of navigation at public expense is defended on the ground that navigable waterways are effective in securing lower freight rates on the railroads. That this is true of the Fox River waterway to a certain, though not large extent, is at- tested by some shippers and receivers of freight in cities along the river. Coal is now the only commodity shipped in large quantities on the river. It is brought by barges from Green Bay to Appleton, Oshkosh and other places for upwards of 25 cents a ton less than the railroads charge, yet the railroads carry much * Capt. L. M. Mann, from whose records many of the statistics in this chapter were obtained. NAVIGATION OF THE FOX RIVER; PAST AND PRESENT 35 more of the coal used in the Valley than does the river. More- over, the railroad rate on coal from any of the Lake Michigan ports to Wisconsin cities which are not in the Fox River Valley (Madison for example) is the same as it is to cities in the Fox River Valley. If, then, the competition of the waterway keeps freight rates on coal lower for places along the river, it must also Dollars City S, 700,000 — fisHi /wo •3j300,C00WBKM Af/fm/Y£-rrs: 3~:&x>,eee mmmmmmm u^f/erswaxc ■■ZSOO, ooo MHIMBHB a7*0/soa/ $900,000 ■■■■■■ Bno/T S,9&0,000WK^KKKBRM M?wrotvoc e, eoo, ooo H^^H^^M o/rerc.v B#r 6, 300,000 ■■■■■■■■ W/fi/5/lc 6,60o,ooo wmamm^mma .sv&rfr/eR 6. 700,000 ■■■■■^^B Appterc/v e,soo,ooo mmmmmmmaam roNoee/t/K / 1,300,000 ■^■■■■■■BBSBMBE SHEeores?/* /■?, too, ooo i^HBBHBBHBBHBHBHBSHHI L/rCftosse /< ^ cvd ■■■■■■BBHEBBH Oswosh Z3,zoo,ooo WBBKKKKEKKM^EBMSHKBBUKKKHMKKKBnnKD&KtNosHsi z-f; 700,000 ■■■■■■■■■■KZaVSaOBOBBBaBBBBSMBBi FIG. 7. DIAGRAM SHOWING THE VALUE OF MANUFACTURES IN WIS- CONSIN CITIES OF 10,000 TO 40,000 POPULATION. (Census of 1910). accomplish the same service for cities throughout the whole southern and central portions of the state, for these cities enjoy the same railroad rates on coal from Lake Michigan ports as those given to the Fox River cities. No regular lines of steamboats now run on the Lower Fox. On the Upper Fox and the Wolf, 2 or 3 small steamers or power boats make more or less regular trips. One runs from Omro to Berlin twice daily and two run from Oshkosh up and down the Wolf. A line of barges, largely but not wholly engaged in carry- ing coal, runs from Green Bay to up-river points, mainly to Oshkosh. The tonnage of freight carried on the river has re- mained practically stationary in recent years, being 812,000 tons in 1905, and 822,000 tons in 1913. Excursion steamers carry parties from time to time up or down the Lower Fox, and many small pleasure boats use the river. The total number of lockages made by the 26 locks in the entire waterway has doubled since 1900, due to the increased use of pleasure boats, especially gasoline launches. In 1913, the 26 locks all taken together were opened and closed over 20,000 times, which would give an average 36 GEOGRAPHY OF FOX-WINNEBAGO VALLEY of 800 to each lock, or about three per day during the season of navigation. However, the number of boats passing through the various locks differs widely. The lock at Depere was used 1283 times during 1913, those at Appleton, about 700 times, the one at Berlin, 1336 times and the one at Portage, 116 times. TABLE III Locks in the Lower River At Neenah-Menasha 1 lock 8.6 feet fall At Appleton.. 4 locks 35.5 feet fall At Kimberly 1 lock l 9.7 feet fall At Little Chute 1 lock 14.4 feet fall At Combined Locks 2 locks 21.8 feet fall At Kaukauna 5 locks 50 feet fall At Rapide Croche 1 lock 8.6 feet fall At Little Kaukauna Hock 7 feet fall At Depere . 1 Hock 9 feet fall 17 locks TABLE IV Number of Lockages on Fox River for the Calendar Year 1890 Lock Lockages Lock Lockages Depere 700 657 547 696 747 674 686 706 469 469 417 418 465 350 403 Appleton 2nd 406 Little Kaukauna - Appleton 1st 564 Rapide Croche. Menasha. 773 Kaukauna 5th Eureka 649 Kaukauna' 4th. _ Berlin _ White River. 625 160 165 396 Little Chute 4th 158 Little Chute 3rd 98 Little Chute 2nd . 185 51 Cedars (Kimberly) Total Appleton 4th 12,634 NAVIGATION OF THE FOX RIVER; PAST AND PRESENT 37 TABLE V Number of Lockages on Fox River for the Calendar Year 1913 Lock Depere Little Kaukauna Rapide Croche Kaukauna Fifth Kaukauna Fourth Kaukauna Third Kaukauna Second Kaukauna First Little Chute Fourth Little Chute Third Little Chute Second Little Chute First (guard lock) Cedars Appelton Fourth Appleton Third Lockages 1,283 904 729 605 610 610 653 657 593 688 689 686 642 Locks Appleton Second Appleton First. _ Menasha Eureka Berlin White River Princeton Grand River Montello Governor Bend. Fort Winnebago Portage Total Lockages 643 715 1,157 1,038 1,336 348 440 996 483 850 1,955 116 20,019 TABLE VI List of Articles Transported on the Fox River During the Calendar Year 1890 Articles Tons Articles Tons Articles Tons 211,350 8,976 28,668 33,446 1,354 16 506 600 5 10,900 Pig Iron Stone 2,886 23,146 1,560 17,528 5,990 35,034 400 2,005 158 1,702 Grain . 30 Lumber Potatotes . Apples . Cranberries Beer.. 150 Cordwood _ Pulpwood Shingles. ... Gravel Sand. 23 40 Lime. 33 Brick . Fish 75 Stave Bolts. Sewer Pipe Salt. Live Stock Merchandise. _ Total 200 2,510 Broomsticks Coal. . Flour Mill Stuffs 389,291 38 GEOGRAPHY OF FOX-WINNEBAGO VALLEY TABLE VII List of Articles Transported on the Fox River During the Calendar Year 1913 Articles Amount Short tons Valuation Beer Brick Building Material. Butter and cheese. Cement Cinders Coal Cordwood. Fish Grain, flour, and feed. Hay Lath and shingles. Lime Logs Lumber Meat. Merchandise, general- Potatoes Pulp plaster Salt Sand and gravel Stone, building Sugar... Sugar beets -- Total. 985 barrels. 11,069 barrels... 400 cubic yards. 878 cords. 1,397,000 634 barrels 530,640 feet 3,999,300 feet b.m. 42,600 bushels. 1,205 barrels 40,498 cubic yards. 287 cords 50 barrels 177 9,209 48 144 2,490 120 39,862 1,756 4 3,007 498 187 63 2,123 5,198 31 902 1,278 42 169 60,747 3,444 9 3,130 134,638 $7,578 31,079 721 46,857 24,351 400 229,370 4,390 735 94,525 7,474 5,038 475 4,245 113,787 4,650 54,132 21,306 525 1,325 50,632 1,722 875 18,780 $724,972 NAVIGATION OF THE FOX RIVER; PAST AND PRESENT 39 TABLE VIII Expenditures for Operating and Keeping in Repair Canals and Other Public Works Along the Fox River Total expenditures to June 30, 1902 (H. Doc. No. 421, 57th Cong., 2d sess., p. 328) $993,974.12 Fiscal year ending June 30 — 1903 68,482.59 1904 50,861.52 1905 46,427.20 1906 44,983.29 1907 104,565.07 1908 45,171.78 1909 52,940.17 1910 55,449.28 1911 50,921.48 1912 56,206.67 1913 59,296.45 1914 56,073.32 Total $1,685,352.94 Average yearly cost of operation and care since 1884 $56,000 00 Average yearly cost of improvement (40 years) $80,000 00 40 GEOGRAPHY OF FOX-WINNEBAGO VALLEY TABLE IX Appropriations for the Improvement of the Fox- Wisconsin Waterway* Total to May 14, 1886 (H. Doc. No. 421, 57th Cong., 2d sess., p. 328) ^ 693, 993. 97 Aug. 4, 1886 *129,403.10 Aug. 5, 1886 (for Fox River) 56,250.00 Feb. 1, 1888 n00,024.53 Feb. 1, 1888 2 1,067.09 Feb. 1, 1888 '10,539.25 Aug. 11, 1888 (for Fox River) 100,000.00 Oct. 19, 1888- n5,318.26 Sept. 19, 1890 (for Fox River) 100,000.00 Sept. 30, 1890 l "156,552.70 July 13, 1892 (for Fox River) 75,000.00 July 28, 1892 '109,022.33 Mar. 3, 1893 *30,985.50 Aug. 18, 1894 (for Fox River) 37,500.00 Aug. 23, 1894 J 2 6,263.34 June 3, 1896 3 3,000.00 June 3, 1896 (for Fox River). * 6 37,500.00 Mar. 3, 1899 (for Fox River 6 7 8 27,500.00 June 13, 1902 (for Fox River) 9 70,000.00 Mar. 3, 1905 (for Fox River) .... 35,000.00 Mar. 2, 1907 (for Fox River) lo 35,000.00 Mar. 3, 1909 (for Fox River) 20,000.00 June 25, 1910 "25,000.00 Mar. 4, 1913 20,000.00 Oct. 2, 1914 10,000.00 Miscellaneous receipts 9,819.49 Total cost of Improvement to 1914 $3,914,739.56 Less items returned to U. S. Treasury 2,543.38 $3,912,196.18 Portion expended on the Wisconsin River 591 ,161.39 * From Ann. Report, U. S. Engineer 1914, Appendix J. J. 1 Including all appropriations for Wisconsin River. 2 For payment in connection with the subject of flowage damages. 8 For investigation of subject of property rights of the United States in connection with the improvement of Fox and Wisconsin Rivers. 4 $1,500 used on Wolf River. 6 $3,500 used for a harbor of refuge, east shore of Lake Winnebago. 8 $2,000 used for further improving harbor of refuge, east shore of Lake Winnebago. 7 $2,500 used for retaining wall, Kaukauna. 8 $3,000 used on Wolf River. 9 $40,000 used for construction of a dredge, $5,000 on Calumet and Stockbridge Har- bors, and $10,000 on Wolf River and on Miller Bay, on west shore of Lake Winnebago. 10 $5,000 used in Brothertown Harbor, east shore of Lake Winnebago. 11 $3,000 used on Wolf River. CITIES AND INDUSTRIES 41 CHAPTER V CITIES AND INDUSTRIES TABLE X Four Principal Chains of Cities in Wisconsin On Lake Michigan (9 cities) Kenosha 21,371 Racine 38,002 So. Milwaukee 6,092 Cudahy 3,691 Milwaukee 373,857 Port Washington 3,792 Sheboygan 26,398 Manitowoc 13,027 Two Rivers 4,850 Total (1910) 491,080 In Rock River Basin (8 cities) Beloit 15,125 Janesville 13,894 Edgerton 2,513 Stoughton 4,761 Madison 25,531 Ft. Atkinson 3,877 Jefferson 2,582 Watertown 8,829 Total (1910) 77,112 In Fox River Valley (8 cities) Fond du Lac 18,797 Oshkosh 33,062 Neenah 5,734 Menasha 6,081 Appleton 16,773 Kaukauna 4,717 Depere 4,477 Green Bay 25,236 Total (1910) 114,877 In Wisconsin River Valley (7 cities) Portage 5,440 Grand Rapids 6,521 Stevens Point 8,692 Wausau 16,560 Merrill 8,689 Tomahawk 2,907 Rhinelander 5,637 Total (1910) 54,450 Population of Counties (1910) Fond du Lac 51,610 Winnebago 62,116 Outagamie 49,102 Brown 54,098 42 GEOGRAPHY OF FOX-WINNEBAGO VALLEY FOND DU LAC Modern cities are essentially business centers, using the word "business" in its broadest sense as including manufacturing, trading, reshipping, and all similar activities. There are cities which, like Pittsburgh and Paterson, are mainly engaged in manufacturing, while others, our great seaports for example, are also engaged in vast commercial enterprises. No matter what the chief activities of a city are, one factor is always a dominant one in its growth, and that factor is transportation. It may be by water, or rail, or both; but neither manufacturing nor trade can thrive in any place which does not have good transportation facilities. Hence the villages that have grown into cities are those which either chanced to be, or else were deliberately located at, sites where lines of transportation naturally would be established. The mouths of rivers, the junctions of navigable streams, the ends of lakes, and certain other positions on rivers, lakes, and seas, are favorable places for commercial centers. There are, of course, many other factors in the making of a city besides that of transportation. On Lake Winnebago there are three places which a person would select as favorable points for cities — at the head of the lake, at the foot, and at the point where the main river, the Fox, enters it. And true to expectation, cities are located at these three places on the lake and not- else- where. Yet we shall see that each city has had its own domi- nant reasons for growth. By its position Fond du Lac belongs to the commercial type of cities, rather more than to the manu- facturing type. This is true in spite of the fact that it is, in proportion to its size, extensively engaged in manufacturing. In the same way, Chicago, though the second greatest manu- facturing city in the United States, belongs to the commercial type, on account of the wonderful web of transportation lines that center there, and center there for natural and evident reasons. All of the railroads from the Northwest and Central West, seeking a point upon which to converge for the exchange of traffic, find the southern end of Lake Michigan the natural place of meeting. Had it not been for the little harbor at the mouth of the Chicago River, the extreme southern end of the lake would be the most favorable point for the city. A very- small part of the traffic which enters and leaves Chicago, how- ever, makes any use of the lake. The same conditions hold true in a smaller way of Fond du Lac at the southern end of Lake Winnebago. In the lumbering U m 7j . , % imBmlSIp" mi;; mm FJOOO0SO1 i mmiht jjjllljg mm •<■ , .'I i ^yp;... «*, 3 55 C ^8 O * * W JS-* ■a a 8 P •i « 55 W > *5 < 3 ■s« a 55 be p s 1 o t» s < -3 P *.§ <3 P Q Q "8 ■a •S 55 W ?« '- fe hJ ?* -5J O A •2 fe to (L -d * * 1* s a © - D c/3 O < D Q Z o- •< M K >. Wfe z c Z B HIS 5° S° K° z" w w K fc W ffi H Z o o CITIES AND INDUSTRIES 45 products, caskets, refrigerators, and furniture. The seventh and largest plant was originally built for tanning leather for the immediate neighborhood, and used hemlock bark for the tanning. The tannery no longer depends upon tan bark, and the furniture factories depend only partially upon wood from Wisconsin, yet the fact that 7 out of 9 large factories either now have or have had in the past an intimate connection with the forest resources of the state indicates how strong an influence those forests exerted in shaping lines of manufacturing. As time passes, and the Middle West grows in population, a greater diversification of industries will follow. In this change Fond du Lac is already sharing, as is shown by the establishment of a typewriter factory, steel working plants and others which do not use wood as their chief raw material. The city's principal advantage in location is its position in a region of which it is the natural center. What Chicago is to //7fere/r6a/?\ FIG 8 DIAGRAM SHOWING THE HUB-LIKE POSITION OF FOND DU LAC WITH REFERENCE TO RAILWAY LINES the Middle West, Fond du Lac is to the rich farming region around it, a collecting and distributing point. Southward radiate four railway lines; northward reach two main railway lines and an interurban, while branch lines extend both east and west from the city. Its business emblem might properly be 46 GEOGRAPHY OF FOX-WINNEBAGO VALLEY a wheel with Fond du Lac as the hub, and eight railway lines as spokes. (See Figure 8). The United States census of 1910 gives Fond du Lac 97 manufacturing establishments, most of which are small. In 1914, there were 40 manufacturing concerns employing from 25 to 500 persons each, including eight which employed upwards of 75 persons, and four of the eight employed 300 or more persons. A canvass made by the Business Men's Association indicated over 4000 employees in manufacturing plants. All of the plants are owned and controlled by local men, most of them long-time residents of the city; this is a con- dition highly favorable to the stability and permanence of the industries. The city takes some pride in the fact that it has never had a boom. Its present growth is normal and it seems assured of continuance. One fact quite apart from the industrial life of the city seems deserving of note — it is the number and character of the city's excellently housed institutions. The architectural quality of several of these structures is unusual for a city of 20,000 people. St. Paul's Cathedral (Church of England) and the Grafton School buildings in connection with it, the Public Library, St. Mary's Church, and two of the recently built protestant churches are structures whose architectural dignity would attract notice in a city of any size. The buildings of the convent and hospital of St. Agnes, occupying practically two city squares, the Masonic Temple, and several other buildings, give the city a certain atmosphere which is expected only in communities of greater maturity. North Fond du Lac Just beyond the city limits is one of the largest industries connected with Fond du Lac. Here the Soo Line has established one of its' large groups of repair shops, and a little city of nearly 2500 people has grown up in a few years. The Chicago & North Western Railroad also has shops here, though much less extensive than those of the Soo Line. Wisconsin Survey Bulletin XLII. Plate XI. A.— THE FIRST RUEPING TANNERY (1854), FOND DU LAC Compare with Plate X. B., C— TWO PORTIONS OF THE MOORE-GALLOWAY LUMBER MILLS AND YARDS, FOND DU LAC X w < EL, J X H B CQ > P CO CITIES AND INDUSTRIES 47 OSHKOSH Its Situation It has been pointed out that because of Fond du Lac's situation at the head of Lake Winnebago, it belongs to the class of cities of which Chicago, at the head of Lake Michigan, may be taken as the type. Oshkosh has been above all else a lumber manu- facturing city, and that places it in the manufacturing, rather than in the commercial class. Nearly all of the lumber centers from Maine to Minnesota have grown up at sites which are essentially similar; some of the mills made use of waterpower, but usually that was a minor consideration, because the waste wood furnished fuel for making steam. White pine is a light wood and readily floated on the rivers; this is the least expensive method of transporting logs from the woods to the mills. Lum- bering in eastern Wisconsin reached its height before railroads were numerous, and hence when river transportation was more important than now in all lumbering operations. The ideal place for a saw-mill center was at some point on a river down to which the logs might be driven, and from which point the lumber would find ready transport to the city markets. If this point had transportation facilities by both rail and water, that was an added advantage and increased the importance of the place. A third consideration was the boomage capacity of the river. When logging is done on a large scale and several companies are driving logs on the same river, the logs get mixed, and at some point above the mills they must be held in quiet water, like a pond or lake, and sorted. Such a place constitutes a boom, and the enormous number of logs driven down the Wolf demanded a boom of exceptional size. Now let us see how many of these essential features the city of Oshkosh possessed. 1. It was built at the mouth of the Upper Fox River whose main tributary, the Wolf, penetrated one of the largest and most magnificent white pine forests in Wisconsin*. It was therefore favorably placed for securing the logs. * The U. S. census of 1880 (Vol. 9, p. 555) says, "The timber originally on the Wolf and Oconto rivers was especially fine. This has been largely cut (1880). On the Wolf river the timber was very heavy. Instances are known of 10 to 12 million feet of pine lumber having been cut from one section in the Lower Wolf region. The principal points of lumber manu- facturing were on Lake Winnebago, at Oshkosh and Menasha, which take the product of the Wolf and Fox River pineries, and at Green Bay and Oconto, which drive logs from the Oconto River." H. C. Putnam estimated 600,000,000 feet of standing timber in the Wolf River basin in 1880. The forests had been well cut 25 miles back from Fox and Wolf rivers and Lake Winnebago by that time. 48 GEOGRAPHY OF FOX-WINNEBAGO VALLEY 2. The city lies in the main valley of eastern Wisconsin through which important lines of railroad were sure to be built. There was also transportation by water south, west, and north. 3. It had unequalled boomage capacity. At one time Bay Boom, off Lake Winneconne, was the greatest log boom in all the northern lumber country, when eight tugs were required to sort and assemble the logs belonging to the various companies. Clearly, the city at the mouth of the Upper Fox could scarcely escape becoming a lumber center of the first magnitude, for it possessed each of the three essential qualities — access to the pineries by river, ample boomage capacity, and convenient access to markets by both rail and water. Not less than forty places in Northern Wisconsin have been important saw-mill centers — Marinette, Oconto, Green Bay, Wausau, Stevens Point, Grand Rapids, Merrill, Black River Falls, Eau Claire, Chippewa Falls, La Crosse, Ashland, and others— yet the situation of Oshkosh has made it one of the foremost cities of the group. La Crosse, with its highly favorable position on the Mississippi, is the only one of the old lumber centers which was and still remains a close rival of Oshkosh in size and industries. Other Cities of the Same Type In its situation and its history, Oshkosh belongs to the type of cities of which Bangor and Augusta in Maine, Albany in New York, Grand Rapids and Saginaw in Michigan, and Minneapolis in Minnesota, are representatives. All of them have been white- pine centers for reasons similar to those which made Oshkosh. All grew into importance at points on rivers where the assembling of logs was easy, and from which the lumber could be advan- tageously shipped away both by rail and by water. Early History of the City The first white settlers came in 1836, but Indian villages and fur traders' posts had existed in the vicinity long before. The canoes of Nicolet, Perrot, Marquette, La Salle, Radisson, Du Luth, Hennepin, Allouez, and a half score other noted Frenchmen had passed and repassed the point; in the vicinity councils had been held, treaties made, and battles fought for nearly two centuries before a permanent white settler made his home on the site where Oshkosh now stands. X w < J X W J P > D Z O >N *"'i •;' > , ^M' nW* z$ iff I >v IN- ' FJ m m~ ** "f;»«~ III « B9- * •? pH £ m> »•- '--»., '■ act , 7 H \ . -Hi-* ' > I o S o CITIES AND INDUSTRIES 49 By a vote of the few people in the immediate region, the name of Oshkosh, a Menominee Chief, was selected in 1840, and in 1842 Winnebago County with a population of 135 was organ- ized. Ten years later the village had grown to nearly 2500 popu- lation and was incorporated as a city (1853). The rival village of Algoma was absorbed three years afterwards. In 1859 the first railway train (on the present Chicago & North Western) reached Oshkosh and awakened great enthusiasm and high hopes. Be- tween this date and 1875 no less than five fires swept away large parts of the city, but each disaster was followed by a prompt rebuilding. While this bespoke a remarkable faith and determi- nation on the part of the people, the repeated rising of a new city from the ashes of the old, was a tribute unconsciously paid to the site upon which the city stood. There simply had to be a city here in those days when the Wolf Biver pineries were pouring their wealth down to the shores of Lake Winnebago. The same cause which made the first city, made the second and the third and so on to the sixth. It probably would have made a seventh and an eighth, for the pine logs continued to come down the river until the '90's. By 1860, the population had passed 6000, and five years later had risen to 10,000. In 1871 a branch of the present Chicago, Milwaukee & St. Paul Bailroad entered the city and in 1882 the Wisconsin Central, now the Soo Line, came. Following the great fires of 1874 and 1875 the city lost population. The census of 1880 showed over 1000 less than that of 1875, but a gain was again shown in 1885 and the city has had a steady but not rapid growth since. The establishment of the State Normal School in Oshkosh has made the city an educational center for a large surrounding region. The Development of the Manufacturing Industries From first to last Oshkosh has been a wood-working center. Its position with reference to the forests of eastern and northern Wisconsin has made this the one logical industry, and in it the capital and energy of the city have found their chief employment. The first saw-mill was built in 1847 and the first grist mill a year later (in Algoma). In 1849 the industries had expanded to include a steam saw-mill, a shingle mill, and a small sash and door factory. Lumbering in the up-river pineries had begun as early as 1839-40. A notable expansion came during the '50's and still more during the '60's. In 1856 the founder of the present Paine Lumber Company, now the largest industry in Fox River— S 50 GEOGRAPHY OF FOX-WINNEBAGO VALLEY the Fox. River Valley, began operations. The early saw mills were small, and the muley saw was in use. This gave way to the more efficient circular saw, as it in turn gave way to the band saw. By 1867 there were seven logging companies driving logs down the river to Oshkosh; between 1500 and 2000 men were employed in these operations and the lumber output of the city was rising toward 100,000,000 board feet a year — practically all white pine. This was the period of many small mills. In 1857 the Daily Courier says there were 18 saw mills running nearly 100 saws, and the Oshkosh city directory of 1868 says there were then 22 saw mills, 14 shingle mills, 6 planing mills and sash and door factories, a stave and barrel factory, a match- splint factory, a match factory, and two broom handle factories. It was also a period of very active boat-building along the water front. In 1866, 25 barges and two steamers were built and taken to the Mississippi River. In the 20 years between 1850 and 1870 forty steamboats were built on the Fox and Wolf rivers and Lake Winnebago, the major part of them at Oshkosh. The rapid growth of the city's industries led the optimistic compiler of the city directory to predict in 1868: "Within another decade by the western shore of beautiful Lake Winne- bago, will stand the second city in the State of Wisconsin with 75,000 population." Flour mills, so important in Neenah and Appleton, were never important in Oshkosh. The water power of the Lower Fox favored these mills and left Oshkosh to its lumber interests. By 1870, 150,000,000 feet of logs were being handled in Oshkosh, some of which went to the mills at Fond du Lac and some to Neenah and Menasha. It is said that half of the working men of Oshkosh worked with logs and lumber. The Wisconsin Lumberman of December, 1873, gives the names of 58 manu- facturers and dealers in lumber in Oshkosh. The same authority (Feb. 1875) gives the names of 80 lumber camps on the Upper Wolf and its branches. Barr, in his chapter on Oshkosh in Lawson's History of Winnebago County, says there were "nearly 30 saw mills in the city at one time." He says, "The most important industries of this thriving community, the leader in the manufacture of lumber, are located on the marshes of its village days, which have become solid earth through fifty years' accumulation of slabs and sawdust." It is said that between 1850 and 1875, sailing schooners were engaged in carrying lumber and other commodities not only on Lake Winnebago, but even on the rivers. Occasionally rafts of logs and lumber were towed X w CM H a D m w > K c/3 o" o> se H «! «■ rH " D ffi _ n fc — CO A w > »■ H £.2 -q-q .si «MI O 4>m < 0) CITIES AND INDUSTRIES 51 to the Mississippi by way of the Fox and Wisconsin rivers. The first mills cut only rough lumber, and nothing but the choice timber was used. The waste was enormous, but scarcely avoid- able under the conditions that then existed. Gradually the timber near the rivers was cut away; logging operations pushed farther and farther up the Wolf and its tribu- taries. After the Civil War the Wolf above Shawano was improved by clearing the channel and building dams to store the water to be released when needed to float the logs down the river. Over 40 such dams were built. The increasing scarcity of pine forced many mills out of business; only a few were able to continue in Oshkosh, and those underwent a steady evolution from mere lumber and shingle mills to mills in which the work was carried to more and more refined stages. The logs were sawn in the saw mill, planed in the planing mill, and worked into sash, blinds, doors, moulding, and all of the forms required for interior and exterior finishing. White pine was the chief wood used, and it is still used, though it now enters into but a minor part of the products of the mills. Wisconsin had and still has a wealth of hardwood forests, including oak, birch, maple, ash, and elm. Gradually the surviving mills turned to hard wood, and now the making of hardwood flooring, doors, furniture, and an endless variety of ornamental "mill-work" constitutes the leading type of wood-working in the city. Present Industries There are (1914) about 120 manufacturing establishments — large and small — in Oshkosh; 80 of these employ less than 25 persons each; 24 mills employ between 25 and 100 persons each, and 12 mills employ numbers ranging from 100 to 2000. The largest mill is that of the Paine Lumber Company, whose most valuable products are of hardwood, though a great deal of pine is still used. This company is one of the largest manufacturers of veneered doors in America. Their logs now come by rail from their own timber lands (150,000 acres) in the northern part of Wisconsin. Their plant includes over 30 buildings and their yards and docks extend a mile along the water-front of the Fox River.* (Plate XV). * Their dry kilns have a capacity of a million board-feet of lumber. The saw mill has a capacity of 100 million board-feet of lumber a year. This is nearly equal to the output of the entire city in the days when Oshkosh had 26 mills. The veneer mill can turn out 45 mil- lion feet a year, and the facilities for making doors of all grades permit of an output of a 52 GEOGRAPHY OF FOX-WINNEBAGO VALLEY There are many other mills, foundries, and factories engaged in the manufacture of a variety of products, but they are all overshadowed by the magnitude of the wood-using industries. The almost complete devotion of the city's large industries to the use of wood as the principal raw material may be seen from the fact that only one of the 12 factories which employ 100 or more persons does not belong to the wood-working class. This one makes grass matting, rugs, etc., using a grass which grows along the marshy banks of the Upper Fox River. Of the 11 other large mills, 6 make sash, doors, etc., 2 make furniture, 1, carriages, 1, trunks, and 1, matches; the last named is the second largest manufacturing industry in the city, employing about 700 people and having a capacity of 5 or 6 carloads of matches daily. Transportation The situation of Oshkosh on the Fox-Winnebago waterway has been of material benefit to the city in the past and is still of bene- fit, though considerably less so than it was formerly. The only commodity which is now brought in in large quantities by way of the Lower Fox and Lake Winnebago is coal. A line of coal barges runs between Oshkosh and Green Bay; the barges, towed by tugs, carry 200 or 300 tons of coal at a freight rate about one- third less than the railroad charges. Two main lines of railway — the Chicago & North Western and the Soo Line — also a branch of the Chicago, Milwaukee and St. Paul, and three interurbans running north, south, and west, serve the city. Oshkosh is the largest city in the Fox River Valley, having in 1910 a population of 33,000. During the past 20 years it has grown steadily at the rate of about 500 a year, or 5000 a decade. Both the State Factory Inspector and the U. S. Census of 1910 give approximately 7000 as the number of persons engaged in manufacturing; the value of manufactured products in that year was $15,000,QOO, giving the city fourth rank among the cities of Wisconsin (Milwaukee, Racine, Kenosha, Oshkosh). million and a half doors annually. In addition, the sash and moulding mills have a capacity of a million sash, and 25 million feet of moulding a year. The principal pine products of the mill require the best of material and this leaves a quantity of less valuable wood to be used in some way. This is largely used for making wooden packing-boxes. The company maintains branch offices and display rooms in ten cities from New York and Atlanta to Dallas and Portland. > M 0, W 13 a m w > K D o o WISCONSIN SURVEY BULLETIN XLII. PLATE X vl TOPOGRAPHIC MAP OF NEENAH AND MENASHA AND ADJACENT REGION From Neennh Shoot, TJ. S. Geological Survey The brown lines ( contour lines) and numbers in brown indicate elevation in feet above sea level; all points on the same contour line have the same elevation; the difference in elevation represented by the successive contour lines is Orfeet Scale: I inch "about I mile l0 WISCONSIN SURVEY BUIXKTIN XLII, PLATE XVI — I/' a 7S ~\ •■ «• -^^um***^. hi0P : ;: ■■■■■% ' ' WmMMhjj Warn i ! ' 1 31 TOPOGRAPHIC MAP OF NEBNAH AND MENASHA AND ADJACENT REGION From Neenah. Sheet, TJ. S. Geological Survey The brown lines {contour lines) and numbers in brown indicate elevation in feet above sea level; all points on the same contour line have the same elevation; the difference in elevation represented by the successive contour lines is Htfeet Scale; I inch = about 1 mile CITIES AND INDUSTRIES 53 NEENAH AND MENASHA From a business and industrial standpoint, Neenah and Menasha are one city. Only an arbitrary line separates them. The larger part of Menasha lies on the north side of the Fox River, and the smaller part on Doty Island. (Plate XVI). Neenah occupies the balance of the island and the south side of FIG. 9. DIAGRAM SHOWING THE RELATIVE CAPACITY OF THE PULP AND PAPER MILLS IN THE VARIOUS PLACES The mill at Depere, for example, has a capacity of 32,000 pounds a day. Weight, not value, is the basis of comparison. See table XIII, p. 81. (From Post's Directory 1913). the river. The principal railroad station (C. & N. W.) is on the island, and is called Neenah and Menasha. Unsuccessful efforts to unite the two cities have been made; the rivalry, once strong, is disappearing on account of the inevitable interweaving of business interests. In 1910 Menasha was the larger city, having a population of 6,081 against 5,734 in Neenah; in 1900 and 1890 Neenah was slightly the larger. 54 GEOGRAPHY OF FOX-WINNEBAGO VALLEY Neenah-Menasha as a Type City Geographically the two cities should be considered together. It is not so easy to assign them to a single type as it is Oshkosh or Fond du Lac. In one important particular they belong to the type of which Detroit is an example-— that is, a city situated at the outlet of a navigable lake, and at a point where land and water routes naturally cross. The island at the outlet of Lake Winnebago makes a convenient place for railways to cross the river, a natural "cross roads of traffic." Three railroads — the Chicago & North Western, the Chicago, Milwaukee & St. Paul, and the Soo Line, and also two interurbans — focus upon the island and reach out north, south, east, and west. The Fox River is maintained as a government waterway between Lake Winnebago and Green Bay. This is now of minor importance but it was a factor in the making of the cities in earlier days. The situation of Detroit, practically at the outlet of Lake Huron, is not unlike the situation of Neenah-Menasha. At Detroit, important land routes and water routes cross for reasons similar to those which exist at Neenah-Menasha. Though less well known than Detroit, Sault Ste. Marie, ("Soo") at the outlet of Lake Superior, is a nearly perfect type of the group of cities to which Neenah-Menasha belongs. The Soo, besides being an important cross roads of land and water traffic, has great waterpower. Canals with locks take boats around the rapids as they do at Neenah-Menasha. The importance of the great city of Constantinople, for cen- turies the political and commercial center of the Eastern Roman Empire, was due to like causes on a larger scale, namely to the converging of land and water routes upon a point where the crossing of the water was easiest. It is evident that the site of Neenah-Menasha is a perfectly natural one for a city, that the city is typical of a certain class of cities, and that it is illustrative of a law of city location and of city growth. The Water Power and Industries In the making of Neenah-Menasha, the waterpower of the Winnebago rapids has been the main natural factor. As early as 1835-6, and before any regular white settlement had been made there, the U. S. government attempted a mission station for the Indians on the south side of the river. A grist mill and a saw mill using the water power were built, but the project came to X w h J y, ca 3 C/". ffi l t/i D c ■*-> J o J s u (E >. < •o a- c a ■U h b o X m X CC * w > X 1 V, o> r. ca t w X V) H cl 43 Z o ej J <: z a Z w u CITIES AND INDUSTRIES 55 naught the following year through the purchase of the Indian lands by the government and the removal of the Indians. Flour-Milling. The first private mill was built in Neenah in 1848, the year of the building of the first house on the Menasha side of the river. Two years later the Menasha dam was built as a part of the Fox-Wisconsin improvement work. At this time the surrounding region was a dense hardwood forest. Between 1865 and 1885, when Wisconsin was growing wheat in enormous quantities, and before paper-making had reached large proportions, flour-milling was the great industry in Neenah. In his History of Winnebago County, Harney names ten flour and grist mills which were built between 1852 and 1868. In 1879 there were seven flour mills in Neenah and four in Menasha. The Neenah mills are said to have ground 1400 barrels of flour a day or 400,000 barrels a year, and the cooper shops of the city to have made 1500 flour barrels a day. It was here that the roller process of flour-milling was perfected and the roller machines patented. Neenah was the chief market and milling center for a considerable territory — especially that lying to the west and southwest, and was referred to as the Rochester of the West. Minneapolis had not yet attained fame as a milling center. When wheat failed, flour-milling declined and the substitution of some other line of manufacturing had to come. The presence of the waterpower, with Lake Winnebago as a storage reservoir, is a guarantee of the permanence of manufacturing at Neenah- Menasha, although steam power is used increasingly. Pulp and Paper. It has already been indicated that the manufacturing industries of all northern Wisconsin, and of the Fox River Valley in particular, have been to a remarkable degree wood-using industries. At one time there were eight saw mills operating in Neenah. The demonstration in the '60's that paper can be made from wood was followed in 1871 by the establish- ment of a wood pulp mill in Appleton. Neenah's first paper mill was built in 1865-6 (The Old Red Neenah Mill). In 1872 the firm of Kimberly, Clark & Company was organized and became the nucleus of the vast industry which has been built up by that company, now the largest paper manu- facturers in the West, with eight mills in the Fox River Valley and several elsewhere. In the same year that company built the Old Globe Paper Mill, which is still in operation. When built it made 3,000 pounds a day and employed .40 hands. In 1874 Kimberly, Clark & Company purchased the Old Red Neenah 56 GEOGRAPHY OF FOX-WINNEBAGO VALLEY Mill from Smith & Van Ostrand. This mill was torn down in 1890; the present Neenah mill was built on the same site. The present Kimberly-Clark mills in the valley produce nearly one- half million pounds of paper and 200,000 pounds of pulp a day. There are now six paper mills in Neenah with a combined capac- ity of 240,000 pounds of paper daily. All but one use water power, supplemented by steam. An endless variety of papers are made, nearly all of the higher grades, including book, writing, ledger, bond, crepe, and tissue. Menasha has five paper mills with a combined daily capacity of 250,000 pounds of paper and one sulphite fibre mill with a daily capacity of 50,000 pounds. All but one of these use water power supplemented by steam. Factories in Neenah. The State Factory Inspector in 1910 re- ported 35 mills and factories in Neenah; 28 of these employed less than 25 persons each, four employed between 25 and 100 persons each, and three employed between 100 and 200 persons each. The three Kimberly-Clark paper mills together employ over 200 per- sons and constitute the largest plant in the city. Paper-making is the predominating industry. There are four other factories of con- siderable size engaged respectively in the manufacture of woolen goods, shoes, stoves, and hardwood products, — especially ve- neered doors. The Bergstrom Stove Works began as an iron foundry more than 50 years ago. Neenah is a city of considerable wealth and there are more fine homes with beautiful grounds than are usually seen in a city of its size. Menasha Manufacturing in Menasha is larger in the aggregate than in Neenah. Of the 28 mills and factories, 17 are small and employ less than 25 people each; six employ between 25 and 100 people, four employ between 100 and 200 each, and one employs about 1,300. It is a notable fact that nearly every manufacturing in- dustry of importance in Menasha is connected directly or indi- rectly with either the paper or the wood-working industries. The only large metal-working establishment specializes in work for the paper mills. A rapidly growing industry of Menasha represents a third step in the evolution of the wood-using industries of the Valley. Wood is the raw material for the paper mills, and paper is the raw mate- rial for plants such as the Menasha Printing Company; its spe- cialty is the printing of great quantities of soap wrappers, gum Wisconsin Survey Bulletin XLII. Plate XVIII. -GOVERNMENT DAM ACROSS THE FOX RIVER AT MENASHA Head, about 9 feet; 2400 horsepower developed at ordinary flow. -MAP SHOWING RIVER, GOVERNMENT DAM, SHIP CANAL AND LOCKS AT MENASHA (A and B from Bulletin XX, Wis. Geol. and Nat. Hist. Survey). CITIES AND INDUSTRIES 57 wrappers, and bread wrappers. A half million bread wrappers and a million soap wrappers a day; 2 to 4 carloads of gum wrap- pers in a month, 12 carloads of daily-date calendar pads for one year, and single orders involving a billion wrappers, are indicative of the output of this one plant. The recent purchase of a paper mill by this company illustrates a principle of expansion of an industry, namely the advantage gained by controlling its own sup- ply of raw material. In the same way, paper companies frequently own pulp or fibre mills and these in turn frequently own their own timber lands. The Menasha Wooden Ware Company goes a step farther in another direction and owns 140 specially built cars for shipping its products, and has warehouses in Chicago, St. Louis, New York, and Milwaukee for storing and distributing its wares. The Wooden Ware Industry. The largest manufacturing con- cern in the Valley, with the exception of one in Oshkosh, is the Menasha Wooden Ware Company, whose buildings, yards, side tracks,, etc., cover 65 acres bordering the Fox River. It uses over fifty buildings besides the drying houses. The industry began practically with the founding of Menasha and has grown to be the largest wooden ware plant in the world. The founder of the company (Mr. E. D. Smith) commenced with a single lathe, made his own tubs, pails, etc., and peddled them with a one-horse wagon. Now the plant uses yearly six thousand cars of material, including 300 to 400 cars of wire and hoop iron; 75 per cent of the wood used is basswood cut from the company's 125,000-acre tract of timber lands in northern Wisconsin. All of the logs are now received by rail. No waterpower is used; the great quantity of wood waste resulting from the manufacturing processes supplies fuel. The following partial list of items indicates the magnitude of the operations. Its shipments aggregate a train-load a week. The plant uses 25,000,000 feet of timber annually; each year it makes enough candy pails to hold 120,000,000 lbs. of candy; enough fish pails to hold 12,000,000 lbs. of fish; enough pickle kits to hold 1,800,000 gallons of pickles; enough tierces to hold 50,000,000 lbs. of lard; enough lard half-barrels to hold 30,000,000 lbs. of lard, and enough lard pails and tubs to hold 60,000,000 lbs. of lard. 58 GEOGRAPHY OF FOX-WINNEBAGO VALLEY APPLETON Early History Although the Lower Fox River was one of the most used rivers of the old Northwest, it was 214 years after Nicolet landed at its mouth before the first white settler's house was built at the site of the present city of Appleton (1848). To those who during two centuries used the river for travel, the Grand Chute was only an annoyance and a source of danger; the river was merely a highway along which boats passed, nothing more. The rapids were a cause of delay, and under the conditions which prevailed in that period, they had no economic value, and offered no inducement to men to settle permanently by them; and so the water power, afterward the main cause of the city's growth, was not a factor in the origi- nal adoption of the site. Other settlements had already been made farther down the river, when in 1848, the first rude house was thrown together on the bluff overlooking the Grand Chute, as the 4-foot perpendicular fall was long called, and as the township is still called. It was the selection of this spot in 1848 as the site of the Lawrence Institute, now Lawrence College, that drew atten- tion to Appleton in the early days, and aided in attracting to it the high grade of New England and New York people who set- tled there. While the water power has made an industrial Apple- ton, the college has been keeping it an intellectual Appleton. The purpose of this report requires a discussion of the industrial de- velopment of the city, and hence of the part which the available water power has played in that development. The no less valu- able part which the college has played in the city's cultural life must be left all but untouched. It was the gift of $10,000 by Amos Lawrence of Boston for an institute of learning to be built on the Fox River, in Wisconsin, and the selection of the present site for that institution, that gave Appleton its start. When ground was broken for the first build- ing, the place was an utter wilderness; 10,000 feet of lumber used in the construction of the first building is said to have been brought from Deer Creek, 30 miles away. In 1849 the first mail was received, but there was neither flour mill nor saw mill. Neenah was the nearest place where either existed. In 1850 a wooden wing-dam was built into the river and a little saw mill was constructed. Three years later the first grist mill followed. The settlement grew rapidly; in 1853, five X w < x > > OS a VI z o h W ►J IX o w w c/3 T3 CITIES AND INDUSTRIES 59 years after the building of the first home, the community was organized into a village and had in the neighborhood of 1,000 population, 275 dwellings, 10 stores, 5 hotels, 3 saw mills, a sash factory, a lath mill, a cabinet shop, and a paper mill. Thus early did the New England mechanics turn to account those talents which had already made New England the manufacturer for the rest of the United States. By 1856 the river had been sufficiently improved to permit steamboats to pass with difficulty from Green Bay to Lake Winnebago, and the Aquila, already referred to (p. 31) had made the trip from Pittsburgh to Green Bay by way of the Ohio, Mississippi, Wisconsin, and Fox rivers. For a few years follow- ing this date, and before a railway had traversed the length of the valley (which was accomplished in 1862), the river was actively used for navigation and was of great value to the struggling communities near it. The railroad soon became a competitor and it is doubtful if, so far as navigation is concerned, the water- way has repaid the money spent upon it. Water Power On the other hand, the improvements which have made the water power available, have paid for themselves, and will do so, many times over. There are three dams at Appleton. Before improvement the total fall was considered to be 38 feet. The government profile gives a present fall of 36.7 feet in a distance of 1.2 miles and the total estimated power which may be developed at ordinary flow is 8,400 horse power.* The upper dam is built of stone and gives an average head of 14 feet and a total power of about 4,350 H. P., of which the Green Bay and Mississippi Canal Company controls 2,000 H. P. The middle dam is built of timber and is neither a part of the government work nor the property of the Green Bay and Missis- sippi Canal Company. West's Hydraulic Canal, one of the most valuable of the earlier improvements, receives water from the middle dam. The head at various mills ranges from 7 to 14 feet and at ordinary flow, about 2,050 H. P. is developed. The lower dam is U. S. government property, and is located three quarters of a mile below the middle dam. The average head is 8| feet and the ordinary flow of the river gives somewhat over * Smith, L. S., Water Powers of Wisconsin, Wis. Geol. & Hist. Survey, Bull. XX, p 43. 60 GEOGRAPHY OF FOX-WINNEBAGO VALLEY 2,000 H. P., which is controlled by the Green Bay and Missis- sippi Canal Company. Four locks enable boats to pass the various dams. Appleton is a type of the water power city. To this it owes most of its industrial growth and prosperity. The water power leased to the manufacturers by the Green Bay and Mississippi Canal Company — somewhat less than one-half of the water power used at Appleton — is charged for at an average rate of five or six dollars a horse power a year. This does not represent the full cost of the power to the users, yet the saving is undoubted- ly large, as it costs in the neighborhood of $40.00 a horse power a year to produce steam from coal in Appleton. The price paid by the users of the canal company's water power is said to be materially less than that charged in most parts of the country. The manufacturers who use the power have found it necessary to install steam as an auxiliary power; for the Fox River, while much more uniform in its flow than most rivers, is nevertheless subject to considerable fluctuations, and at low stages of the river the water does not supply the needs of the mills. As a rule the period of low water does not exceed 60 to 90 days in a year. Although the U. S. government allows the waterpower users to take only the surplus water available after the needs of naviga- tion have been met, so few boats pass through the locks that the needs of navigation are not large and most of the water may be used by the mills. Engineers have placed the annual saving from the use of water power at $20.00 per horse power in Wisconsin as a whole. On this basis, Appleton manufacturers are benefited $170,000 a year by the water power which they use, and this is equal to 5% on $3,400,000. Whatever the actual saving is, the fact remains that it is the advantage due to cheap power that has attracted to Appleton a score of manufacturing establishments, many of which probably would not have been there except for the water power. Early Manufacturing As is the case in most places, early manufacturing in Apple- ton was dependent upon raw materials produced in the vicinity, and to quite an extent the products were sold nearby. Poor transportation facilities make this condition necessary in any new country. The one raw product which early Wisconsin had in almost unlimited quantity was wood— pine, hemlock, and the hard Wisconsin Survey Bulletin XLII. Plate XX. A— LOWER PAPER MILL DISTRICT OF APPLETON Cars of pulp wood in the foreground; Fox River and the John Street Bridge in the middle ground; Wisconsin Tissue Paper Co.'s mill on opposite side of the River. B.— LIMESTONE QUARRIED IN THE FOX RIVER CHANNEL AT KAUKAUNA The River flows on a rock bed nearly all the way from Menasha to Green Bay. CITIES AND INDUSTRIES 61 woods — and it naturally followed that Wood was used in manu- facturing far beyond any other raw material. The Richmond paper mill was running in 1854. In 1858 there were five saw mills in the city and in 1861, 60,000 barrels of flour were shipped from Appleton. A woolen mill was in operation in 1862. By the '70's the manufacturing had attained considerable magnitude, using waterpower almost entirely. The following summary, published in the Annual Review number of the Appleton Post, shows approximately what the manufactures consisted of in 1880, 35 years ago. The values given were estimates, and are probably somewhat generous. TABLE XI Appleton Manufactures in 1880 (Estimates) Dollars Farming implements 70,000 Flour (6 mills) 890,000 Iron 355,000 Leather (2 tanneries) 85,000 Machinery 38,000 Staves and heading 110,000 Woolen goods 200,000 Dollars Furniture 75,000 Hubs and spokes 86,000 Lumber 80,000 Lime, brick, etc 30,000 Paper (4 mills) 850,000 Sash, doors, and blinds 75,000 Wood pulp 140,000 It will be noted from the above table that the manufacture of flour exceeded that of paper in 1880. At this time, the Fox River counties, and for that matter, all of the farming counties in Wis- consin, were raising wheat as the main crop. In the years around 1880, more land in Outagamie County was sown to wheat than to all other crops combined; 700,000 bushels a year were produced, or 70 times as much as is now grown in the county. Appleton was not only a flour-milling center, but it was also a wheat market, and old residents remember when the streets of the city were lined with farmers' teams hauling wheat. It is stated that at the height of the flour-milling activity, more than a million dollars worth of flour was ground annually. By the '90's wheat growing was declining very rapidly, mainly on account of the ravages of pests, and the exhaustion of the soil through the grow- ing of the same crop year after year. Most of the flour mills gave place to pulp and paper mills. Kimberly, Clark & Company, now the largest paper manufacturers in the Valley, were the owners of the large Genesee Flouring Mills. The shifting from flour-milling to paper-making in Appleton 62 GEOGRAPHY OF FOX-WINNEBAGO VALLEY presents an example of an economic principle of wide application, the readjustment of manufacturing in response to changing raw ma- terials. It goes on in every city and in every section as changes come which deprive manufacturers of their accustomed raw ma- terial and compel them to employ their capital, power, and expe- rience in new lines. The presence of the great water power at Appleton is a guarantee that if one kind of manufacturing is driven out of the Valley, another kind will replace it. Thus the basis of the city's industries is a permanent one under almost any conceivable circumstances. In the 14 lines of manufacturing shown in table XI it is interesting to note that wood formed the raw material for eight. Besides, the two tanneries used bark from hemlock and oak trees, and the iron smelter, the third largest in- dustry and the largest plant in point of value of output, used char- coal for fuel. The charcoal was made by charring wood in dozens of kilns scattered all through the surrounding region. Thus, even the iron industry depended upon wood, and when the wood was gone, the iron furnace went too. Present Manufacturing in Appleton According to the census enumeration of 1910, Appleton had 97 manufacturing establishments. The State Factory Inspector listed 73 establishments during the same year. Many of these are small. Fifty of the 73 manufacturing plants named by the Fac- tory Inspector had less than 25 employees each; 18 had between 25 and 100 employees; 3 had between 100 and 300, and 2 had be- tween 300 and 400. The numbers have increased somewhat, though not greatly, since that time. The Fox River Valley has become the center of the paper- making industry of the West, and Appleton has both the largest number of pulp and paper mills and the largest output of any of the Fox River cities. There are in the city eleven paper and pulp mills, nine of which manufacture pulp or paper, and two of which use paper in further manufacturing, such as coating or enameling. The former make almost every variety of paper including tissue, crepe, wrapping, manila, book, news, writing, envelope, ledger, bond, linen, and scores of special kinds for special uses; two of the pulp mills make ground wood pulp and two make chemically treated pulp, called sulphite fibre. These mills are capable of making 220,000 pounds of pulp and 270,000 pounds of paper every 24 hours. All of the mills which manufacture pulp or paper are located along the river and use water power, (supplemented by X X w < a, W pj D ffi W > z o o o ^ ■a w >, . 1 ^ Cu a. < ■a o * o o j w > h -a «! r/l J K -a W S i ° X X w < J X H W J J D ffl w C/3 ffl z w a ffi o c ft, w s H CITIES AND INDUSTRIES 73 Green Bay as a Lake and River Port The channel at the mouth of the Fox River is kept dredged for vessels drawing 19 or 20 feet of water, but this is not sufficient for the largest boats on the Lakes, and an effort for its further deepen- ing is being made. The present depth permits the entrance of TOA/N/JO£: OriS£SS£LS /tftft/lS/NG /?T GRSEAf B/7Y /saciBBBJBB /oo,ooo tons '887 ■■■■■■■ /32,000 » /902 ■MBBMBMH ZOOfiOO ■■ /?&9 wmmmt^mmmmm^mmmmmmmmmm 4/s,ooo » s X X m H X H W ►J D m > OS a ^S^fll < W w « o H < U O Q J <; o u CITIES AND INDUSTRIES 75 It is noticeable that the iron and steel working industries — ex- cept those which serve the paper mills — are not prominent in any of the cities between Lake Winnebago and the city of Green Bay. At that city, however, these industries are among the foremost, due in part at least, to the cheap coal, cheap transportation, and the marine activities of the city. There are nine establishments which operate either as foundries or machine - building plants, or both, and the products of several of these are widely sold. In addi- tion there are three railroad shops, that of the Chicago, Milwau- kee and St. Paul employing upwards of 500 men. The widely di- versified character of manufacturing is seen in the following par- tial list of factories, large and small : Glove factories 2 Knitting mills 3 Harness and saddlery 2 Overall factories 2 Candy factories 2 Canning and pickle factories 3 Brickyards (nearby) 3 There are also wholesale and jobbing houses, a large seed com- pany, and seven coal companies with coal docks; 1,300 business concerns are listed in the city directory. 76 GEOGRAPHY OF FOX-WINNEBAGO VALLEY GENERAL SUMMARY OF CITIES AND INDUSTRIES The existence of a chain of eight cities in 60 miles, from Fond du Lac to Green Bay, is evidence of the operation of some unusual geographical influence. The cities and their population are: Fond du Lac 18,797 Oshkosh 33,062 Neenah 5,734 Menasha 6,081 Appleton 16,773 Kaukauna 4,717 Depere 4,477 Green Bay 25,236 Total, 1910 114,877 These are not large cities and in the East would not occasion any comment, yet there is only one more important chain of cities in Wisconsin (the one along Lake Michigan), and few equally im- portant from an industrial standpoint in the states of the Middle West. All of these cities are actively engaged in lines of manufac- turing in which wood is the principal raw material. This is a direct outgrowth of the great supply of timber which naturally gravis tated into the Fox River Valley. In the quarter century follow- ing 1860, about 100 saw mills were operating in the Valley at one time; Oshkosh, Fond du Lac, and Mill Center, near Green Bay, were the main centers. The pineries of the Wolf and Oconto rivers supplied the logs, and the rivers and lakes were used for trans- porting them. Rough lumber and shingles were the principal products until the supply of white pine began to decline; then planing mills, sash, door, and blind factories, and other mills for the further finishing of the lumber became relatively more and more important. Gradually the smaller mills and those at lessfavor- able sites were abandoned. Many of them burned. The mills situ- ated at especially favorable locations, or those which were backed by larger capital and business ability continued longer, and a few continue to the present. Fond du Lac still has one large mill, Osh- kosh has three, and Green Bay has two. One or two smaller mills continue in most of the other cities. The white pine is practically all gone, and the rivers are used scarcely at all for transporting logs or lumber. The mills of Fond du Lac County have cut as high as 100,000,000 feet of lumber annually; those of Brown County, somewhat more than that, and those of Winnebago County, near- ly 200,000,000 feet.* In all of the centers except Oshkosh, most of the mills had been closed down by the end of the seventies. Owing * A medium sized frame dwelling requires about 15,000 feet of lumber; hence 200,000,000 feet would build between 12,000 and 14,000 houses, or enough to house a city of 50,000 to 75,000 people. CITIES AND INDUSTRIES 77 to its exceptionally favorable location, Oshkosh continued active operations on into the eighties, but with increasing emphasis upon FIG. 11. DIAGRAM SHOWING THE AMOUNT OF CAPITAL INVESTED IN MANUFACTURING IN 1910 IN EACH OF THE CITIES HAVING A POPULATION OF OVER 10,000. (U. S. Census 1910). Compare Appleton and Oshkosh in this diagram with the same cities in Fig. 12. finished products and a diminishing output of rough lumber. After the white pine had been cut, enormous quantities of hemlock, basswood, and the hard woods still remained, and these have be- come the basis of the present wood-working industries of the Val- ley. Furniture factories are using large quantities of oak, birch, 78 GEOGRAPHY OF FOX-WINNEBAGO VALLEY and maple; carriage and other vehicle factories are using hickory, elm, ash, and oak; cooperage mills are using elm, basswood, oak, FIG. 12. DIAGRAM SHOWING THE NUMBER OF PERSONS ENGAGED IN MANUFACTURING IN EACH OF THE CITIES HAVING A POPULATION OF OVER 10,000 IN 1910. (U. S. Census 1910). Note by comparison with Fig. 13 that the wood-working industries of Oshkosh use a much larger force of men than do the paper industries of Appleton, but that Appleton uses much more mechanical power. and a variety of other woods; single factories in Neenah and Osh- kosh have a capacity of 800 and 1,500 doors a day, using both hard and soft woods; the wooden ware factory at Menasha makes annually several million pails and tubs, mainly from basswood. CITIES AND INDUSTRIES 79 Then there are box factories using inferior grades of pine, excel- sior mills, shingle mills, and a long list of other mills engaged in nearly every variety of wood-working. FIG 13 DIAGRAM SHOWING THE PRIMARY HORSE POWER EMPLOYED IN MANUFACTURING IN EACH OF THE CITIES HAVING A POPULATION OF OVER 10,000 IN 1910. (U. S. Census 1910). ^TTPulp'andlpaper manufacturing requires a larger use of power than the other lines of industry .;«« Note Appleton, for example. Thirty or forty years ago there were many small tanneries using thejhemlock and oak bark. Only one of these survives in the Valley, the one at Fond du Lac, and it has far outgrown its 80 GEOGRAPHY OF FOX-WINNEBAGO VALLEY » early local character and now buys its hides and tanning extracts and sells its four million dollars' worth of leather in the markets of the world. At one time the making of charcoal (from wood) was an industry of importance, and iron furnaces used this charcoal in smelting iron ore which was brought in from Mayville, Dodge County, or from the Upper Michigan mines. Appleton and Depere had smelters of large capacity. From 1860 to 1885, wheat was the principal crop grown in Wisconsin and flour mills flourished in every city in the Fox- Winnebago Valley, notably in Neenah and Appleton. In about 1870 there were seven flour mills in Neenah, four in Menasha, and six in Appleton, all using water power. As wheat growing declined, most of these flour mills were either converted into paper mills, or were replaced by them, and these now form the one dominant industry along the Lower Fox. This vast industry is the outgrowth of two geographical factors — (1) the pulp-wood of the northern forests, and (2) the water- power of the Fox River. The wood pulp which is used in cheaper grades of paper is made by grinding wood, mainly spruce. The grinding process requires a great deal of power, and since water- power is the cheapest kind, these mills naturally locate at places near the forests and at points where water power is available. The Fox River Valley met these two requirements, and has become the greatest pulp- and paper-making district in the West. As the Wisconsin forests have been culled of their spruce, the making of ground-wood pulp has been shifting away from the Fox River to the Upper Wisconsin, and into Canada. Now the manu- facture of sulphite pulp, made by treating chipped wood with chemicals, is replacing the manufacture of ground wood and is bringing about a corresponding change in the kind of paper which is made in the Valley. Some years ago print, or newspaper, was the kind most largely made. This has given way to the manu- facture of better and better grades, such as book, ledger, and bond papers. At present, nearly every variety of paper known to the market is made . in the Valley. The output is enormous. Appleton, for example, has 13 pulp and paper mills with a com- bined daily capacity of 220,000 pounds of pulp, and 230,000 pounds of paper. The location, number, and capacity of the mills are shown in the following table (see also Fig. 9) : CITIES AND INDUSTRIES 81 TABLE XIII Location, Number and Capacity of Pulp Mills and Paper Mills in the Fox River Valley, (1913) (Data from Post's Directory) City Number of mills. Daily capacity in pounds Pulp Paper Pulp Paper Neenah 1 5 1 1 1 5 1 1 16 6 4 8 1 1 3 1 3 27 260,000 Menasha 60,000 220,000 120,000 100,000 180.000 200,000 64,000 170,000 Appleton 230,000 Kimberly 220,000 Little Chute Combined Locks Kaukauna 200,000 140,000 Little Rapids Depere 32,000 Green Bay 60,000 150,000 1,004,000 1,402,000 Many of the other industries in these cities depend directly or indirectly upon the paper mills. Some of them manufacture machinery, screens, felts, etc., for the use of the paper mills, while others use the products of these paper mills for further manufacturing; such, for example, as the making of paper napkins and towels; gum, soap, and bread wrappers, and paper specialties of great variety. Some of the mills handle orders reaching a billion printed wrappers of a single kind. From Neenah to Green Bay the traveler is seldom out of the sight of a paper mill or its tall chimney. (See Plate XXI.) Nearly all use water power, but a few of the newest mills are using steam or electricity only. More than four-fifths of the water power used along the Fox River is used by the paper and pulp mills. Green Bay is distinctively a lake port, and its widely varied industries show a smaller proportionate use of wood than those in any of the other cities, yet the wood-using industries are larger Fox River— 7 82 GEOGRAPHY OF FOX-WINNEBAGO VALLEY than any other single group. The iron-using industries are more important in Green Bay than in any other city in the Valley, due to cheap coal and the natural activities of a port. A list of the fOA/O DC/L/9C i *8,200,000 j I I J FIG. 14. DIAGRAM SHOWING THE VALUE OF MANUFACTURED PRODUCTS MADE IN EACH OF THE FOUR CITIES HAVING A POPULATION OF OVER 10,000 IN 1910. (U. S. Census 1910). cities and their leading lines of manufacturing shows how largely the wood-using industries predominate: CITIES AND INDUSTRIES 83 Fond du Lac Leather, furniture Oshkosh Lumber, doors, matches Neenah Paper, hardwood products Menasha Woodenware, paper Appleton Paper, pulp Kaukauna Pulp, paper Depere Paper, iron products Green Bay Iron products, paper, lumber A widely distributed phase of maufacturing exists in the creameries and cheese factories, which are sprinkled over the entire Valley and whose products reach a larger sum than is generally supposed. MAP OF THE CITY OF APPLETOH, WISCONSIN. 84 GEOGRAPHY OF FOX-WINNEBAGO VALLEY CHAPTER VI AGRICULTURE Fond du Lac County The Land. Originally the larger part of the area now in- cluded in the county was covered with hardwood forest, but very little timber now remains. The wooded area does not exceed one-twelfth of the whole. Almost the entire county (96 per cent.) is farm land, and an average of seven acres in every ten are im- proved land, that is, have been brought under the plow. The waste land, relatively small in amount, is due for the most part to marshes. In some cases these are the last stages of shallow lakes which are slowly diappearing. At one time, shortly after the close of the Glacial Period, a quarter of the present land of Fond du Lac County was covered with shallow lakes which gradually changed into swamps as vegetation grew inward from the shore; some of the swampy areas have passed into rich black loam. By artificial drainage, most of the marsh land still remaining can be reclaimed. Condition of Agriculture Judged by the American standard, agriculture is in a high state of development throughout the county. In the pro- portion which farm land bears to the total area, Fond du Lac County ranks with the leading four counties of the state, and is one of a group of ten counties which lead the state in average value of land. Four-fifths of the farms are occupied and worked by their owners, one of the evidences and one of the causes of agricultural prosperity. Reasons for the High Agricultural Development There are four main natural causes for the high development of farming in the county. The same reasons would apply to many of the farming counties of eastern and southeastern Wisconsin. AGRICULTURE 85 1. The land is essentially a plain. Very little of it is too hilly to be cultivated. Aside from the escarpment of Niagara limestone, FIG. 15. MAP SHOWING THE RELATIVE VALUE OF FARM PROPERTY IN FOUR COUNTIES. EACH FULL-SIZED CIRCLE REPRESENTS $5,000,000. (U. S. Census 1910). almost the only hills are due to glacial deposits, and none of these are high. 2. Much of the soil is derived from decayed and pulverized lime- stone, a kind of rock which yields a strong, fertile soil. 3. The slope of the land, insures reasonably good drainage, thus limiting the area of swamps. 86 GEOGRAPHY OF FOX-WINNEBAGO VALLEY 4. The average rainfall (over 30 inches) and the length of the grow- ing season* (nearly 150 days) are favorable conditions. Besides these four natural causes there are others which are due to man's work in producing favoring conditions for agriculture. Some of these are: 1. Good railroad facilities. 2. Farmers of more than average industry and progressive- ness. 3. The widespread practice of dairying, a type of farming which maintains the fertility of the land. The Soil The entire county has been over-ridden a number of times by glaciers, and all of the soil is either directly or indirectly of glacial origin, or it is formed of deposits of till laid down in former FIG. 16. THE VALUE OF ALL FARM PROPERTY IN FOND DU LAC COUNTY IS ABOUT 45 MILLION DOLLARS, DISTRIBUTED OVER FOUR ITEMS AS SHOWN IN THE ABOVE DIAGRAM glacial lakes. At times Lake Winnebago has extended farther south and west than it does now as has already been explained in Chapter III. During one or more of these stages red clay was de- posited, and upon the withdrawal of the lake from the previously submerged area, this lake-clay mixed with some coarse material * The growing season extends from the last severe frost in spring to the first in autumn. AGRICULTURE 87 became the basis of the soil of the region (see fuller discussion, p. 16). The red color is due to the oxidized iron or iron stain in the soil. About one-eighth of the soil of Fond du Lac county is of this lake-bed origin, derived from deposits of the larger Lake Win- nebago. The fact that the soil is directly or indirectly of glacial origin does not mean that it is uniform in character. The Geological and Natural History Survey has made a soil map of the county; this shows eight different soil series, including 17 soil types. The most important one of these covers 38 per cent of the county. It is a silt loam, grayish brown, soft, smooth to feel of, and contains 95 per cent of very fine sand, silt, and clay. Peat and muck, com- posed of partially-decayed vegetation which grew in swamps, cover an eighth of the surface, and a dark-colored loam, rich in decayed vegetable matter, occupies the low ground in many places. This soil covers about 11 per cent of the county. Oate 7Z/>oo acras rt<7# 7£ooo acres I \8ar/etf 4t$OO0 oaten j Offier Crops I Orchards o/k/ [Corn | /bs fores I 4aooo . acnes I ■ I" T ■Suatfr Beefy I a\^&* //OO acnes I ^-\ fiftea/fcooecft J." *! Mxxtft7/7?r7A7 L/7M£>-\ OV/MPffOlgD frffftf Hoc/ *f4,oooacns$ Oafe S3,ooo crc/es Co/~/7 28,000 or//y/><2sfonss) J3,ooo acres Afor? form land 7700a acres FIG. 22. DIAGRAM SHOWING THE USE THAT IS MADE OF THE 413,000 ACRES OF LAND IN OUTAGAMIE COUNTY. (Census of 1910). Non farm land is that used for roads, cities, railways, etc. the great difference in the character of the soil which is derived from limestone and from sandstone. Soil derived from limestone is very largely clay and silt, — fine grained, and rich in plant foods; while soil derived from sandstone is mostly sand, which is deficient in plant food and hence is less productive. This dif- ference is plainly apparent in different sections of Outagamie County. Eight townships in the western and northwestern part AGRICULTURE 95 of the county, while containing many good farms, also contain a high proportion of sandy and swampy land. This inferior land is in the sandstone belt previously mentioned. The eastern and southern townships are underlain by limestone and their soil is mainly derived from this rock or similar rock a little further east. A considerable area in the southeastern part of the county was covered by the glacial lake which occupied the whole Fox River Valley from Green Bay southward beyond Fond du Lac, and in which was deposited the red clay which is so noticeable through- out the Valley. Value of Farm Property The difference between the sandy and poorly drained land which is common in several of the northern and western townships, and the clay loam soil which predominates in the southern and eastern half of the county, comes out in the value placed upon these lands for assessment purposes; all of the property in the former 10 is given a "true value" of a little less than 11 million dollars, while about an equal area in the 10 southern and eastern town- ships is valued at over 20 millions; city and village property is not here included. Nearly two-thirds of the value of all farm property is in land. Outagamie County is a dairy county and that means good buildings, and especially, good barns; 22 per cent of the value of all farm property in the county is in the build- ings; this is well above the average for the state as a whole, even though Wisconsin is a dairy state and ranks high in the average value of its farm buildings. Cattle are the leading farm animals; hogs and sheep are raised but not in large numbers. The average value of farm property per acre for the county as a whole in 1914 was about $80, as compared with $83, for Brown County, $90 for Winnebago, and $100 for Fond du Lac. The poorer showing made by Outagamie County is mainly due to the sandy and swampy character of the land in certain townships, previously referred to. The eastern and southern part of the county (and some sections in the rest of the county) rank with the best farm lands of the state and sell for as high as $150 per acre. The proportionate value of the four main items of farm property is shown in the diagram (Fig. 21). 96 GEOGRAPHY OF FOX-WINNEBAGO VALLEY Principal Crops The total land area of the county is a little over 400,000 acres, of which two-thirds is improved. The unimproved land is partly in the former Oneida Reservation tract, which is now organized under township government and is being brought under cultiva- Thovsends of rfcres /S09 /873 02* a * M JO M 2B O 4 oa/eio&isjljs f>ge Sar/ey hf/xat Corn Oafs FIG. 23. DIAGRAM SHOWING THE CHANGE IN THE CROPS GROWN IN OUTAGAMIE COUNTY IN 1879 AND IN 1909, THIRTY YEARS LATER Note wheat particularly. tion ; and partly in the undrained lands in the western and north- western half of the county. The magnificent pine forests which once existed are all gone and only about 85 square miles of scattered timber remains and that is largely second growth. All of the usual grains are grown, but oats lead, with corn second. Barley is not a leading crop, rye is unimportant, and wheat, once all important, is grown only on a small scale. Hay actually leads in acerage, as is shown in Fig. 22; potatoes are grown much in excess of local demand. The extensive practice of dairying requires that a considerable area be devoted to pastures, probably not less than 20 per cent of the total farm land. Dairying Outagamie County stands high in dairying, ranking 13th or 14th among the 71 counties of the state in total number of dairy cows (40,000). There are thirty creameries, about fifty cheese factories, and (in 1913) one large milk condensing factory in New London, which is on the western boundary. There are produced annually in the county the enormous quantity of 38 to 40 millions quarts of milk, one half of which is made into cheese. The general advance in the value of farms and the increasing rural prosperity are in a large degree due to the practice of dairy farming. AGRICULTURE 97 BROWN COUNTY General Conditions of Farming The soil of about three-fourths of the county is red till or clay loam. The remaining quarter, mainly the old Oneida Reservation and the townships bordering on Green Bay, is more or less sandy. In the vicinity of the city of Green Bay this FIG. 24. THE VALUE OF ALL FARM PROPERTY IN BROWN COUNTY IN 1913 WAS 126,600,000, DIVIDED AS SHOWN IN THE ABOVE DIAGRAM sandy loam is ideal for truck gardening and this type of farming is more generally practiced than in any other part of the Fox River Valley. Two other factors combine to stimulate truck gardening in this region: (1) the high proportion of Belgians* in the population, a people who are trained in this kind of farming, and (2) the excellent market for garden products in the mining regions of the Upper Peninsula of Michigan. Thousands of acres near Green Bay are devoted to the raising of peas, beans, beets, tomatoes, etc., for the canning factories, to cucumbers for the pickle factory, to sugar beets for the beet sugar factory at Marinette, and to cabbage. The soil is of glacial origin; most of the county is nearly level; a part of the eastern tier of townships * There are about 1,800 Belgians in Brown County, nearly half of the total number in the state. Fox River— 8 98 GEOGRAPHY OF FOX-WINNEBAGO VALLEY is on the Niagara limestone upland and here is found the prize farming township of the county, Morrison. Though there is no railroad or city in this township, its farms have the highest average value of any strictly rural township in the county. There is a somewhat higher percentage of unimproved land in Brown County than in any other of the four counties here considered. The Soil and Crops The land area of the county is about 340,000 acres, of which 60 per cent is improved farm land. Scattered woodland amount- ing to 50,000 acres still remains. The largest number of acres (63,000) devoted to any one crop is given up to hay; this is due both to the high percentage of clay soil, which is best suited to the grasses, and to the large number of cattle which are kept. Only three of the grains are grown to a large extent, oats, barley and rye (See Fig. 25). Rye is a crop which thrives in sandy soil, and over 10,000 acres of this crop are raised annually on the sandy areas. The decline in corn-growing as we go northward from Fond du Lac County to Brown County is rather striking. Fond du Lac M7J/ er Crops I §1 sjoooacms I 3! r hbod/ancf SO.OOO acres i** _ _ -i \r7oe/0.3ooa\Mia& \ I \Jioooa 1 J Other Ch/mproyecf £a/7c//n farms ■JS.ooo acres /Von farm land 33.s28 117 181 151 323 '19 126 1120 Twenty-fifth Third Twenty-sixth Forty-second First Third First 21878 II 189 Forty-fifth. Excessive flowage damages (Attor- ney General) Wolf River, Lake Poygan to mouth Forty-fifth Third Forty-fifth. Third Second... Third First. 21879 U880 11881 1552 Wolf River 1978 Flowage damages 2148 Forty-eighth. 11880 1978 253 2»3 Forty-seventh Forty-seventh. First. First. nS82 1884 21884 11885 2182 Senate 292 First , 1882 1899 Project of 18843. 2041 Senate , .... House House House House 2181 224 n52 128 178 nn Fiftieth. First Fond du Lac Harbor and Lake Fifty-first First 11890 2389 Fifty-first Second Second Second 11893 U893 11893 21897 21898 11898 2779 Stockbridge Harbor, Lake Winne- 2782 2783 Stockbridge Harbor, Lake Winne- Eutire river — United States prop- House 2389 1356 120 231 2815 Fifty-fifth High Cliff Harbor, Lake Winnebago. . First Retaining wall along Fox River at ■No maps. "Contains maps. *From Ann. Report Chief of Engineers 1914, Appendix J. J. 3Baais of project adopted by Congress. MAPS 105 MAPS The United States Geological Survey publishes a special map of Lake Winnebago, showing by contour lines the topography of the country immediately around the lake, including maps of Fond du Lac, Oshkosh, and Neenah-Menasha; size 18x36 inches; price 20 cents. Also the same in two separate maps; the Fond du Lac sheet includes the southern half of the lake and the adjacent coun- try, and the Neenah sheet includes Oshkosh, Neenah-Menasha, and the northern half of the lake ; price 10c each. Address Director U. S. Geological Survey, Washington, D. C. The U. S. Lake Survey publishes a map of Lake Winnebago, giving details of depth, and character of shore line, etc. Price 15 cents. Address U. S. Engineer's Office, Oshkosh. The Wisconsin Geological and Natural History Survey, Madi- son, issues a large geological and road map on the scale of 6 miles to the inch. Mounted on cloth, with rollers, price $1.00. Address Supt. of Public Property, Madison. The Wisconsin Railroad Commission, Madison, publishes a Railroad Map of the State on the scale of 10 inches to the mile, distributed free to citizens of the state. INDEX Agriculture, 84. Brown county, 97. Fond du Lac county, 84. Outagamie county, 93. Winnebago county, 89. Alden, Wm. £, quoted, 16, 17. American Fur Company in Wisconsin, 29. Appleton, 58. birdseye view of, plate XIX. early manufacturing, 60. fall of river at, 18. history, 58. lower paper mill district, plate XX. manufactures in 1880, 61. manufactures, present, 62. map of, 83. pulp and paper mills, list of, 63. type city, 64. views at, plates VI, VII water power at, 22, 59. Arndt, J. W., quoted, 29. Astor, John Jacob, in Wisconsin, 27. Astor and Navarino united, 71. Barr, Edward, quoted, 50. Bay Boom, 48. Berlin, Wisconsin, 14. Bibliography, publications dealing with Fox- Wisconsin Valley, 100. maps, 105. U. S. government documents, 103, 104. Brick-making, near Depere, 69. Brown county, agriculture, 97. crops of, 98, figure 25. dairying in, 99. farming conditions in, 97. farm property of, figure 24. organized, 71. size of farms, 99. soils of, 98. stock-farming in, 99. value of farm property, map, 85. Calumet, 43. Canoe travel, early importance of, 25. Canoes and batteaus on Fox River, 28. Capital invested in manufacturing, Fox- Winnebago Valley, map, 77. Carver, Jonathan, in Wisconsin, 27. Cedars Dam, 67. Charcoal, importance in early iron smelting, 68. Counties of Fox-Winnebago Valley, population, 41. Cities of Fox-Winnebago Valley, princi- pal industries of, 83. Cities and industries of Fox River Valley, summary of, 76. Cities of Wisconsin, population, 41. Coal, carried on Fox River, 34. Combined Locks dam, 67. water power at, 22. Coureurs de bois, 25. Depere, 68. clay beds near, 16. fall of river at, 18. historical facts, 68. industries, 68. river scene, plate XXIV. water power at, 22. Doty, James D., state named by, 71. Doty Island, plate XVI. Durham boats on Fox River, 29. Erie Canal, 5. gives impetus to canal building in Wisconsin, 29. Erosion, factors affecting, 6. slowness of, 6. Falls and rapids, cause of, 6. Farm scenes, plate XXVIII. Flour-mills in Fox-Winnebago Valley 55,61,69,74,80. Fond du Lac, 42. architectural quality of buildings, 46. early industries, 43. first railroad into, 44. growth of, 43. historical facts, 43. lumber mills and yards, plate XI. manufacturing in, 45, 46. map of region, plate IX. present industries, 44. railroad center, 43, figure 8. Reuping tannery, plate X. saw-mills of, 44. strategic situation of, 42. transportation, importance of, 42. type city, 42, 43. Fond du Lac county, agriculture, 84-88. farm products, 87. farm property, 85, 86. saw-mills of, 76. soil of, 86. Fort Howard, built, 71. Fox Indians, war with, 26. Fox River average fall of, 14. INDEX catchment basin of, 22. close approach of, to Wisconsin River, 14. commercial waterway, 27. drainage map, plate IV. early canoe routes, 26. early navigation on, 28, 29. exploration of, 24. freight carried on, 35. history of improvement, 29. historic events connected with, 26. importance in fur trade, 28. increase of lockages on, 35. list of locks, 36, table, p. 36. maximum flow of, 23. navigation of, past and present, 24, 28, 35. opened to steamboat navigation, 31, 32. peculiarities of, 13. survey of, 30. uniformity of discharge, 22. upper course, 14. Fox River waterway average yearly cost of improve- ment, 39. average yearly cost of operation, 39. expenditures for operating and maintaining, 39. list of articles carried on (1890), 37, (1913), 38. U. S. appropriations for, 40. Fox- Winnebago Valley, capital invested in manufacturing, map, 77. causes of, 8, 10, 11. cities of, 41. cross section of, fig. 1. drainage map, plate IV. erosion of, 10. forests of, 12. geological map, plate III. glaciation in, 9. glacial lake in, 14. industries, summary of, 76. manufacturing, persons engaged in, map, 78. natural resources of, 12. origin of, 7. physical features of, 7, 11. power employed in manufacturing, map, 79. principal towns of, figure 5. pulp and paper industries, cause of growth, 80. red till and clay in, 16. relative size of cities in, figure 5. relief map, plate II. trading posts in, 26. value of manufactured products, map, 82. Fox- Wisconsin waterway period of government control, 34. period of greatest use, 33. sold on foreclosure, 32. taken over by U. S. government, 32. Freight carried on Fox River, (1890), 37, (1913), 38. Freight rates, influenced by water trans- portation, 34. French, the, interest in fur trade, 28. French explorations, 24. Fur trade, importance of, 25. Fur trading posts of Wisconsin, 70 Gatun Dam, Panama, 15. Geographical environment, man and his, 1. Geography, applied, aim of, 2. content of, 1. Geography, physical, content of, 1. Glacial lobes in Wisconsin, 9, figure 2. Glacial period, the, 9. Glaciation of Fox- Winnebago Valley, 9. Glaciers, deposits left by, 6, 15, 16. effect upon rivers, 6, 14, 15, 17. Grand Kaukauna, fall of river at, 18. Great Lakes, importance of to Wiscon- sin, 26. Green Bay, 69. commanding position of, 72. diversified industries of, 72, 74, 75. early industries, 71. early settlement of, 24. first railroad, 71. fur trading post at, 69, 70. harbor scenes, plates XXV, XXVI, XXVII. history, 69, 70. Nicolet at, 69. paper mills, 74. port, 73. saw-mills, 71. tonnage of vessels arriving at, 73. type city, 72. Green Bay and Mississippi Canal Co., water rights of Fox River, 32. Green Bay lobe of Wisconsin glacier, 17. Groseilliers, in Wisconsin, 26. Ground moraine, origin of, 15. Harney, Richard J., quoted, 55. Ice age, the, 9. Illinois territory, Wisconsin part of, 71. Improvement of Fox-Wisconsin water- way begun, 30. opened to navigation, 30. turned over to private company, 30. Indian trails, importance of, 25. Industries and cities, summary of, 76. INDEX Interglacial periods, 9. Iron smelting in Fox River Valley, 68. Iron-using industries, in Green Bay, 82. Joliet, in Wisconsin, 26. Kaukauna, 65. birdseye view, plate XXII. dam, canal and lock, plate XXIII. early history, 65. limestone quarry, plate XX. water power and industries, 22, 66. Kimberly, 66. fall of river at, 18. mill at, plate XXI. water power at, 22. LaCrosse, as a lumber center, 48. Lawson, P. V., quoted, 34. LeSueur, in Wisconsin, 26. Little Chute, 67. fall of river at, 18. water power at, 22. Little Lake Butte des Mortes, 18. Little Rapids, 68. fall of river at, 18. water power at, 22. Lockages on Fox River, number of (1890) 36, (1913) 37. Lower Fox River, channel of, 18. characteristics of, 17. concentration of fall, 19, cause of, 20. length of, 18. only important north flowing river in state, 13. profile of, plate VIII. rapid fall of, 17. rapids of, statistics, 18. total descent of, 18. Mann, Capt. L. M., statistics furnished by, 34. Manufactured products of Fox- Winne- bago Valley, value, map, 82. Manufactures, in Wisconsin cities, value of, 35. Manufacturing, persons engaged in, Fox-Winnebago Valley, map, 78. Marquette, in Wisconsin, 26. Martin, Doborah B., quoted, 72. Menasha (see also Neenah-Menasha) manufacturing in, 56. paper mills in, 56. sketch map of river, plate XVIII. U. S. government dam, plate XVIII Wooden Ware Company, 57. Michigan, Lake, origin of, 9. Michigan territory, Wisconsin part of, 71. Military roads, from Green Bay, 71. Navarino and Astor united, 71. Neenah, as a flour-milling center, 55. capacity of paper mills, 56. Kimberly-Clark Co., 55, 56. manufacturing in, 56. mill scene in, plate XVII. paper and pulp making, 55. Neenah and Menasha, 53. favorable location of, 54. flour-milling in, 55. historical facts, 54. industrial unit, 53. type city, 54. U. S. contour map of, plate XVI. water power at, 22, 54. New France, relation of Wisconsin to 5,24. Niagara limestone, 8, 15. Nicolet, Jean, 24. North Fond du Lac, 46. Oshkosh, 47. boat-building in, 50. development of manufacturing, 49 fires in, 49. first railroad, 49. frowth of, 49. istory, 48. logging scene at, plate XIV. lumber center, 47, 50. organization as village, 49. origin of name, 49. Paine Lumber Co., 51, plant, plate XV. panoramic view, plate XII. present industries, 51. present railways of, 49, 52. saw-mills in, 50. transportation facilities, 52. type city, 48. rank as manufacturing city, 52. view in 1863, plate XIII. wood-working center, 49. Outagamie county agriculture, 93. crops of, 96, figure 22. dairying, 96. farm property, 95, figure 21. glacial drift in, 94. livestock in, 95. soil of, 93. value of farm property, map, 85. Paper mills of Fox River Valley, list of, 81, capacity of, 81. Paper and pulp centers, map, 53. Pineries of Wolf River, 12. Plank roads, public interest in, 30. Population of Fox River counties, growth, figure 6. Portage, canal at, 14. Power employed in manufacturing, Fox- Winnebago Valley, map, 79. INDEX Pulp mills of Fox River Valley, list of, 81, capacity of, 81. Pulp and paper centers, map, 53. Race factor in geography, 2. Radisson, in Wisconsin, 26. Rainfall of eastern Wisconsin, 22. Rapide Croche, fall of river at, 18. U. S. gaging station at, 34. water power at, 22. Rapids and falls, cause of, 6. Red clay in other parts of Wisconsin, 17. Red till, origin of, 16. Relief map of Wisconsin, plate I. Rivers, importance of in history, 24. Roach, Thomas, quoted, 34. Rocks, the differing character of, 8. influence upon topography, 8. uplift of, 7. Rocks of Wisconsin, origin of, 7. Saw-mill centers of Wisconsin, 48. Schooners, sailing, on Lake Winnebago, 50. Stage of development, a factor in geog- raphy, 3. Steamboats built on Fox River, list of, 34. early, on Fox River, 31. St. Francis Xavier, mission of, 26. St. Lawrence River, relation to explora- tion of Wisconsin, 24, 26. Summary of cities and industries, 76. Taycheedah, 43. Terminal moraine, 9, 15. Thwaites, Dr. R. G., quoted, 29. Till sheet, origin of, 15. Turner, Prof. F. J., quoted, 25, 28. Upper Fox River, 13, 14, plate VIII, 35. locks and lockages, 36, 37. Valleys and mankind, 4. in American history, 5. due to erosion, 5. of the old world, 4. Van den Broek, Theodore, founder of Little Chute, 67. Voyageurs, 25. Warren, Maj. G. K., reports on Fox- Wisconsin waterway, 18, 33. "Walk in the Water", arrival of at Green Bay, 71. Water power of Fox River, 19, 21, 22, figure 4, table II (p. 22), 54, 59, 60, 64, 66, 67, 69. Water powers of Wisconsin, map, plate West De'pere, 68. Wheat growing in Fox- Winnebago Val- ley, 80. Whitman, Daniel, quoted, 29. Winnebago county agriculture, 89. crops of, 90. dairying, 91. soil of, 90. value of farm property, 88, 89. saw-mills of, 76. Winnebago, Lake. considered for U. S. Naval station, 33. dimensions of, 14. effect upon floods, 22. evaporation from, 22. former extent of, 17. height above sea level, 17. importance of position of outlet, 21. .maps, plates II, III, IV. origin of, 15. outlet of, 16. past and present, 14. relation of red clay to, 16. shallowness of, 15. steamboats built on, 34. Winnebago, Fort, 29. Winnebago Indians, met by Nicolet, 24. Winnebago rapids, fall of river at, 18. Winnebago Valley, cross-section of, figure 1. Wisconsin River improvement, cost of, 40. Wisconsin territory created, 71. Wooden ware industry in Menasha, 57. Wood-using industries, change in, 51. Wolf River, course of, 14. dams on, 14, 51. log driving on, 14. lumber camps on, 50. navigation of, 12. pineries, 12, 47. proposed storage reservoirs in upper course, 23. Wrightstown, 67.