S"^">^« ^xs^ >«»>. »^s-Witf>i->«Wl!w fefe BMti»!iiS^^ New York State College of Agriculture At Cornell University Ithaca, N. Y. Library Cornell University Library GC 21.V24 1883 The water world; a popular treatise on th 3 1924 014 571 479 Cornell University Library The original of tiiis book is in tine Cornell University Library. There are no known copyright restrictions in the United States on the use of the text. http://www.archive.org/details/cu31924014571479 The Water World; ©/l |g©pul eti? "rpezciise. ON THE BROAD, BROAD OCEAN. ITS LAWS ; ITS PHENOMENA ; ITS PEODUCTS AND ITS INHABITANTS ; GKAPHICALLY DESCRrBINO ITS CURRENTS, TIDES, WAVES; ITS WHIRLPOOLS, WATER-SPOUTS, TYPHOONS AND TRADE WINDS; ITS CORAL KEEPS, PEARLS, SHELLS, SPONGES, FISHERIES ; ITS ANIMAL LIFE, MINUTE AND MAMMOTH, FROM THE BUT- TERFLIES OF SUB-MARINE FORESTS AND MEADOWS, TO SHARKS, WHALES AND SEA DRAGONS; WITH CHAPTERS ON STEAMSHIPS, LIGHT - HOUSES, LIFE SAVING SERVICE, &C., &C., &C. BY PROF. J. W. VAN DERVOORT. WwQiimmmty Ellmmtwmtm^.^ SOLD ONLY BY SUBSCRIPTION. 1884. UKION" PUBLISHING HOUSE, NEW YORK. Cincinnati, O. •*■>< Atlanta, Ga. MY ESTEEMED FRIEND, MR, JAMES MONTEITH, AS A TESTIMONIAL OF HIS SUCCESS IN POPULARIZING THE SCIENCE OP GEOGRAPHY IN THE UNITED STATES, THIS VOLUME IS RESPECTFULLY DEDICATED. 301847 Entered according to Act of Congfress, in the year 1883, by tlie UNION PUBLISHING HOUSE, In the office of the Librarian of Congress, at Washington, D. G. Earth has not a plain So boundless or so beautiful as thine ; The eagle's vision cannot take it in ; The lightning's glance too weak to sweep its space. Sinks half-^way o'er it, like a wearied bird ; It is the mirror of the stars, where all Their hosts within the concave fimamerd. Gay marching to the music of the spheres. Can see themselves at once. — Campbell. Introduction. TERY little, comparatively, has heretofore been writ- ten on this subject. This is most singular when it is consid- ered that this majestic ocean, " whose mighty heart throbs in S3'mpathy with the pulse of God," covers more than three- fourths of the entire globe. We write about the ocean be- cause it is a subject of univer- sal interest, and for the reason that a knowledge of its laws, phenomena, and inhapitants is conducive to right-living and enjoyment. It has been our aim to write for the people and by avoiding technical terms clothe the sub- ject in such language as shall make it interesting and easily comprehended by all. INTMODUOTION. 7 We have endeavored to fill these pages, not with dry and uninteresting facts compiled from the cyclopsedia, but with living, breathing thoughts, which, if rightly entertained, will lessen some of the weariness of daily life, give a greater im- pulse to right living, and cause us to revere and adore a Creator who has multiplied, everywhere in nature, countless objects and future well-being. Of our fifty millions of people, many will live and die without ever having heard the voice of the sea. All want to see it ; all are interested in its majestic power and the life with which it teems. To those who are denied the privilege of witnessing it for themselves, as well as to the dwellers on its border, do we send this pen picture. " God gave this beautiful world — the whole of it — to subdue and enjoy." We have denied ourselves a great boon and benefit by heretofore confining our research too exclusively to the narrow earth. We see the sun rise, approach its meridian, and decline in the West ; we are interested in the changing seasons, to know when to sow, to reap and to rest ; we are interested in the beautiful flowers, growing shrub, fruitful' vine, and majestic forests ; we are interested in the animal species, both wild and domestic ; and this is right and reason- able, for such knowledge is enjoined and is necessary for our well-teing and prosperity. Moisture is as necessary to animal and vegetable life as is the heat radiated from the sun. The rain and the dew come not by accident. Over the whole world the rain-fall is about the same, year in and year out. So interesting and wonderful is the machinery that pumps out of the ocean, day by day, all the waters conveyed to it by the rivers, and distributes it over the land back to the sources of the rivers again, that the reader can but enjoy and be profited by a contemplation of the causes that produce such marvellous effects. This subject, together with the Gulf Stream,— that 8 mXRODUGTION. wonderful equalizer of terrestrial climate — all the currents, aerial and oceanic ; the tides, trade winds, typhoons, mon- soons, saltness and specific gravity of the sea, and other laws and phenomena, will be found described and treated in detail in their proper places in this book. Modern research haa defined absolutely many things that heretofore have been but imperfectly understood. Arduous and protracted though the labor has been, we have carefully examined and weighed the conclusions of the late scientists, and therefore write with more confidence than as if we had depended entirely upon our own unaided observations. Under the divisions of Laws and Phenomena, quotations and conclusions will be found from a book entitled the " Phy- sical Geography of the Sea," by the late Capt. Maury. For this kindly courtesy we are indebted to Colonel Richard L. Maury, of Richmond, Va., son and legal representative of the late Capt. Maury. We have drawn to some extent from other sources for many of the incidents so graphically illustrating some of the subjects considered. In the chapter entitled " The Frozen Ocean," will be found something new respecting late expeditions, and much that is of varied and thrilling interest. In the considera- tion of the subject of "Deep Sea Dredging," and the "-Beds of the Waters," we have taken advantage of researches prosecuted by late Government expeditions, in arriving at the conclusions presented to the reader. We should be negligent did we not call attention to the subject of " Life in the Ocean," minute and mammoth. We have called attention to those that must be objects of universal interest, from the tiny polyp, the wonderful rock-builder of the ocean, to the " monarch of the deep." Neither have we contented ourselves by giving a mere bar- ren technical description, but we have alluded to their hab- its, their uses in creation, methods, dangers and exciting in- cidents relative to their capture. The forests of the deep INTROD UGTION. 9 are infinitely more densely inhabited than the mountains of the earth. God has created nothing in vain. Bach being has its use in the scale of creation, and nowhere can we see His works in such perfection as in the vast deep. Here we see perfect and marvelous adjustment; we see such exquisite care displayed in the sustenance of an infinitesimal creature ; we may also see what important agents are these little crea- tures in preserving the equilibrium of the ocean. Surely such contemplations must cause man to think more and better of himself, for he realizes that G-od thinks much of him. There is reverence in such thoughts. We believe we have not exceeded the license of an author in the preparation of this volume. We trust the reader may be as much entertained and benefited by the perusal as has been the author in the preparation of this book. If so, "The Water World" shall not have been written in vain, but may go forth on its humble mission of exalting the handiwork of the Creator.. J. W. V. Mount Vernon, N. Y. CONTENTS. CHAPTER I. THE OCEAN— ITS LAWS AND ELEMENTS. Page Vastness and sublimity of creation — The sea a laboratory — The many wonderful objects it contains — The ocean essential to the exist ence of man and vegetation — If the existing waters were increased only one-fourth — There is perhaps nothing more beautiful — What is water? — The saltness of the ocean — Why was the sea made salt? — Currents — The Gulf Stream — Its influence on climate — Utilizing currents to carry messages — Brig towed by the under- current — Recent invention — Gulf Stream the great "weather breeder" of the North Atlantic — Its influence on commerce — Tides — Wind waves — The crossing of waves — Variety of color — Milky sea — Luminosity of the sea — Divisions of the ocean — Atlan- tic, Pacific, Indian, Arctic, and Antarctic — Extreme breadth of Atlantic — Its relation to civilized countries — Mediterranean Sea — The central ocean of the ancients — Pacific discovered by Balboa — Indian Ocean. , 23 — 43 CHAPTER II. THE FROZEN OCEAN. Instances of extreme cold in the Arctic regions — Human endurance of cold — McClure and Parry — Dr. Kane — Esquimaux — Arctic voy- agers — Ice dwellings — Attempts to discover a shorter passage to India across the Northern seas — Sir John Franklin — His sad end — Relics of the expedition discovered — Discovery of the Northwest passage — Release from a perilous position — The Arctic and Antarctic circles — The reason of the cold in the polar re- gions — Dangers from floating ice — Fearful incident in the frozen seas — Frozen to death — Expedition of Capt. Francis Hall — H>» search for Franklin — His appeal to Congress — The "Polaris" CONTENTS. 11 sailed — Award of Paris Geographical Society — The Jeannette expedition — The deplorable news — Return of the survivors — Problems to be solved 43 53 CHAPTER III. ICEBERGS. Icebergs among the wonders of the ocean world — Grand and im- posing — Imitating every style of architecture — Differ in color — Strange and sudden formations — Many of great height — Origin — Greenland — Glaciers — Their immense length — Birthplaces of ice- bergs — Moved by powerful currents — Dangers from icebergs on their floating voyages — Terror excited by them among the early navigators — Awful sublimity of the floating ice mountains — Hair- breadth escape — Supposed loss of the "President" and other vessels from collisions with icebergs — Danger of mooring vessels to icebergs — A picnic on an iceberg — The "Resolute" exploring ship — Formation and destruction of ice — Beautiful provision of Nature 58—68 CHAPTEE IV. LIFE IN THE OCEAN. Sublime ideas of the infinite — Mystery of life — Two great powers — Death is the foster mother of life — Life maintains life — Exuber- ance of life — The ocean in its profound est depths — Sea influ- ences — Seashore deposits — Source of greath wealth — Unity and diversity 69— -74 CHAPTER V. MINUTE ANIMAL LIFE. Vastness of organic life in the ocean — Food to the larger marine animals — Abundance in the Northern seas — Sea nettles — They color the waters— Microscopic determinations— A naturalist's * calculation of the number of animalculse- Animals in a drop of water — Illustrates the immensity of creation— Seaweeds— Ani- mated worlds — Minute creation governed by the same laws as larger— Jelly-fish— Abound in the South Atlantic— Curious shapes— Sea-worms— Sea-mouse— Its beautiful color— Curious 12 CONTENTS. Pag? arms of marino worms — Nereids — Beautifully colored — White rag worms — Sea-leech — Leapiug-worms — "Jumping Johnnies" — Butterflies of the deep 74—84 CHAPTER VI. CORAL— THE EOCK BUILDERS. Beauty of color — Its curious form in the ocean — Formerly supposed to be marine plants — Discovered to be the work of minute ani- mals — Coral wonders described — How their habitations are made — Coral examined under the microscope — Continents built by the polyps — Wonderful instinct of the coral workers by building walls on the windward side — Qualities and varieties of coral described — Manufacture of false coral — Superstitions re- specting the changing of color — Perils of the coral reefs — An incident of shipwreck , , 84 — 96 CHAPTER VII. PEARLS. Rare and valuable objects of creation — Perilous employment of the divers — Condemned criminals formerly employed — Character- istics of the pearl divers — Shark charmers — Pearl fishing in the Gulf of Manaar — Off the Bahrem Islands — Cingalese divers — Separation of the pearl from the oyster — Extent of the pearl fishery in Ceylon — System pursued at the Pearl Islands — Oriental pearls — Their preparation for market — How pearls are formed in the oyster — Amusing account given by Pliny — Suppositions re- specting pearls — Curious methods pursued by the Chinese — The pearl oyster not the only mollusk which produces pearls — Pearls found on the British coasts — Incidents — Extravagant fancy of the ancients — Names applied to various kinds — Largest pearls on record — Runjeet Sing and his string of pearls 96 — 106 CHAPTER VIII. SPONGES. Ancient use of the sponge for helmets, etc. — One of the most valuable spoils taken from the ocean — Long undecided .whether sponges CONTENTS. 13 belonged to the animal or vegetable kingdom— Ranked as ^"^"^ "zoophytes" or animal plants— Aristotle's definition of the sponge— Finest qualities come from the Ottoman Archipelago- Sponge fishery at the island of Calymnos— Numbers of persons engaged in the sponge fishery-Depth at which sponges are found— Methods pursued in diving— Average quantity taken— Preparation for market— The sponge in its natural state— Growth and increase of the sponge— Article of commerce— Digestion and respiration— Preservation of the sponge fisheries 106—1 14 CHAPTER IX. SEALS. Arctic summer the proper season for seal fishing — Divisions of labor by the Esquimaux— Seal's flesh their chief food— Ancient super- ■ stitions— Use of blubber— Methods of capturing the seals— Seal fishing the great employment of the Greeulanders— Dangers at- tending— Different species of seals— The sea-calf— Peculiar cliar- acteristics- Enemies of seals— The bearded or great seal— The hoop-seal— The fur seal— Description , habits, and use— Seals fond of music— Tame seals— Incidents— The marbled seal— Con- trast between seals of northern and southern seas — Sea elephant Sea lions — The sea leopard — The otories 114 128 CHAPTER X. WHALES THE MONARCHS OP THE OCEAN. Peculiarities in whales — Distinct from fishes and land animals, though resembling both — Description — Strength and utility of its tail — Size qf the head — Smallness of the throat — Food of the whole — Whalebone — Tongue of the whale — The skin — The blub- ber — Quantity of oil taken from a whale — Ears, eyes, and fins of the whale — Age when they attain their growth — Anecdotes rela- tive to the capture — Different species — The northern rorqual — The smaller rorqual — The sperm whales — The white whales — The deductor — Great capture of whales — Fight between a whale and a grampus — Other enemies of the whale — Anecdotes — Attach- ment of whales to their young. 128 — 140 Pag* 14 CONTENTS. CHAPTER XL THE WHAliE FISHERY AND ITS PERILS. Description of sliips employed in the whale fishery— Hard work in the Polar seas— Mode of fisliing— The harpoon— Struggles of the whale— Disappointment of a Dutch whaler — Dead whales — Cut- ting up the whales— Whale fishery in the southern seas— Inci- dent to the Essex in the Pacific Ocean — Ship destroyed by a collision with a whale — Story of a Dutch harpooner — New Zealand Tom— Incident in the Pacific to the whaling vessel Independence — Paying out the rope — Incident to the whaling vessel Aimwell — ^Loss of the Princess Charlotte — ^Wonderful escape of the Trafalgar— Calamities of a whaling squadron — The Rattler— The Achilles 140—154 CHAPTER XII. SHARKS THE PIRATES OP THE OCEAN. Fossil sharks — ^Enormous teeth — The white shark — Its extreme vo- racity — Great tenacity of life — Its preference for human flesh — Horrible tragedy — Habit of bounding out of the sea — Punishing a shark — ^Manner of catching sharks in the South Sea Islands — Captain Basil Hall's account of the capture of a shark — Worship of sharks by the inhabitants — Rapacity of the shark — Hooks for shark fishing — ^Fearful incident to the crew of the "Magpie" — The hammer headed shark — The smooth shark — Dog fish — Angel * fish — Greenland shark — ^Basking shark — Taken for the sea ser- pent — Pilot fish — Companion to the shark — ^Pilot fish described. 154 — 173 CHAPTER XIII. SEA-HORSES AND NARWAHLS. The morse walrus or sea-horse — Description — Immense slaughter of them — For what purposes — Ferocity when attacked — Affec- tion for its young — Battles between the walrus and the Polar bear — The sword fish a fierce enemy — Sea unicorn — Described — Color — Their habits — Mode of catching them — Herd in flocks — Playfulness — Its speed , , 172 igg CONTENTS. 15 CHAPTER XIV. NAUTILI THE FLOATING NAVIGATORS OF THE OCEAN. The nautilus " the ocean mab " and " fairy of the sea " — The fish de. scribed by Prof. Owen — Real method of its propulsion — The paper nautilus— Its supposed sails — Glaucus a real rover on the ocean — A wonderful builder — Intelligrence displayed — Pearly nautilus — Gem of the deep — The argonaut — Sea bladder or Por- tuguese man-of-war — Beauty of its colors — Appear like prismatic shells — Their stinging properties— Specimens of fossil nautili in the British museum — Ammonite — Most beautiful of all fossils — Petrified snakes— The cuttle fish — One of the feasts of fisher- men^Their ink bags — Prodigious size of some species — Mode of fishing with the cuttle fish described by Columbus— Belongs to a period before the flood 182 197 CHAPTER XV. MODES OP FISHING IN VARIOUS COUNTRIES. Use of nets dates from the earliest times — Great improvements of late in the manufacture of nets-^ Variety of nets used by fisher- men — Description of them — Fishing by electric light — Birds trained to catch fish — Their wonderful sagacity — South Sea Islanders expert fishermen — Singular mode of taking the needle fish — Fishing by the light — Indians' method of taking the candle fish — The white porpoise— Pishing for the sea pike — The tunny fishery — Sturgeon fishery — Couger-eel fishery — Great conger-eel described — Sand-eel fishery — Mackeral fishery — Nets employed — Herring fishery — Modes of fishing — Curing herring — Dog fish — Hake — Pilcherd — Sprats and white bait, and how taken — The Sardine — Cod fishery on the banks of Newfoundland — The modern cod sinock — The haddock — The coal fish — Common hake — The turbot — The turtle — Modes of taking them — Crabs — Mode of taking them — Hermit crab — King crab — Prawns and shrimps — Mussels — Mussel farms — Oyster farming — Age at which the oyster is ready for the table — Its best qualities — The enemies of the oyster— Lobsters 197—247 CHAPTER XVI. ODDS AND ENDS ABOUT PISHES. Strange and varied characters of fishes — The money of commerce in some countries — Form of fishes — The tail the great organ of 16 CONTENTS. Pagb motion — Air or swimming bladder — Respiration — Baits made attractive by scents — Nostrils of fishes — Taste — Toucli — Scales — • Eyes — Teeth — Hearing — Brain — Eggs — Uses of fish — Curative properties of certain fish — The torpedo — Violent shocks — Electric apparatus described — Effects produced on fishermen — The elec- tric eel — Its physical properties — The sting ray — Enormous fins — The great and little weever — Stinging powers of the physalis — Sucking fishes — Sea owl — Snail — Lumpsucker — The sea lam- prey — Its powerful sucker — Lampreys fed on human flesh — The gunard fish — Peculiarities — Many species remarkable for beauty of colors — The sea scorpion — Sticklebacks — The flying gunard — Emits phosphoric light — Flying fishes — Musical fish — The devil fish — Its enormous size and strength — Devil fish taken in Dela- "ware Bay — Monstrous skates— The fishing frog or angler — Description — Mode of attracting its prey — Capture of an immense saw fish — An East Indiamau attacked by a sword-fish — Dolphin — Atlantic species — Cat-fish — Sucking fish — Sea peacock — Blue fish — The true dolphin described — Pursue the flying fish — The common mackerel a beautiful fish — The John Dory — The boar fish — The opah or king fish — The red mullet — Purchased at enormous prices — The basse or sea perch — The Mediterranean Apogon — The lettered seranus — The choetocion — The Archer — A favorite with the Chinese — The Eiband shaped fish family — The butterfly fish — Wrasses, or old wives of the sea — The rain- bow — Parrot fish — The scarus — The sea horse — The chimera or rabbit fish — Repulsive form — Beauty of colors intended for the admiration of man. ,,,,,, 247 295 CHAPTER XVII. SHELLS. Wonderful shaping and moulding of shells — The structure of shells adapted to the requirements of the inhabitant — Apparatus of two shelled animals — Power over the valves — Concholojjy — Shells formerly regarded as toys — Shells of southern Europe — Greater portion of shell animals carnivorous — Shells of tropical America^ Western coasts of Africa — The harp shell — The cockle — The cowry — Beautiful and rare shells found on the coasts of Austra- lia — Deep sea shells — Lowest part of the earth consist of shell remains — Shells used for making roads — Helix or snail genus The clam or bear's paw — Varieties of shells — Formation of CONTENTS. 17 shells — Sea shells perform an important part in the economy of nature— Use of shells multifarious— Trumpet shell— Shell fish as an article of food — Giant clams — Porcelain shells — Roaring buckie harp shells— Fountain shells— Razor shells— Trough s^iells 395—309 CHAPTER XVIII. SEA BIRDS. Number and variety of marine birds — Roosting places— The gull family — General description — Some gulls expert in breaking the shells of moUusks — Tricks played by seamen on gulls — The skuas — The petrels — Among the most interesting of marine birds — The storm petrel — Sea swallows — The albatros — A great fish eater — The divers — Expert fishers — Tlie guillemots — The great ausk — Puffing or sea parrot — The penguins — Darwin's de- scription of the "jackass" penguin — The cormorant — Trained to fish by some nations — The pelican- -Peculiar pouch for storing fish — The ganet — Assemble at breeding times in myriads on the bass rock — The hooper or wild swan — The great sea eagles — The osprey and its fishing habits — The tropic sea birds — The frigate bird — Its tyrannical treatment of the booby 309 — 339 CHAPTER XIX. SUPERSTITIONS CONNECTED WITH THE OCEAN. Seamen naturally superstitious — Incidents regarded as prodigies — Phantom ship — Power of raising tempests at sea by witchcraft — Incident to James VI. of Scotland — Wind pillars — Double sight — Apparitions at sea — Rats leaving a ship — Omens for good or evil — Crows as guides to mariners — The ancient mariner — Carry- ing dead bodies in ships— Good luck— Bad luck— Curious re- flections — Sea divinities of the ancient times 339 — 353 CHAPTER XX. MARINE PRODIGIES. The Krasken a wonderful sea monster — Able to pull men-of-war to the bottom of the ocean— The sea serpent— Marvelous stories re- 18 OONTENTB. Page lated by our sailors— Account forwarded to the admiralty— Fishes of the ribbon family may give rise to what are called sea serpents Mermaids and women— Icelandic description of a mermaid — P. T. Barnum's famous exhibition — The manatee — The dugong —The stellerua— A mermaid shown in London in 1823 353—363 CHAPTER XXI- MONSTERS OF THE DEEP— SEA DRAOONS, Gigantic reptiles inhabiting the ocean before the deluge— Huge sea lizards — Limestone rocks at Lyme Regis — Dragons in story books — Description of the sea lizafd — Head like a crocodile— Numer- ous immense teeth — Enormous eyes — Body like that of a fish — The plesiosaurus — Peculiarities of this huge monster — Head like a lizard — Teeth of a crocodile — Neck of enormous length — Body rounded like that of a marine turtle — Its habits described — The teleosaurus — The great pirate of the ocean — Armed to the teeth — Its enormous jaws — Able to swallow animals as large as an ox — The moesusaurus — Thought to be a crocodile 863 — 368 CHAPTER XXII. SUBMARINE SCENERY- ANIMAL AND VEGETABLE. The earth has its counterpart in the ocean — Glory of submarine scenery — In the tropics — China seas — Deepest colors of fishes and marine vegetation in the tropical seas — The Indian Ocean — Splendid colors of tropical fishes — Flowers of the ocean — Abun- dance and beauty of marine fauna — Wonders of coral scenery — Coput medusae, or basket fish — Anemones the loveliest ornaments of sea-gardens — Sea anemones a hungry class — Clearness of the waters of the red sea — Sea slug and sea cucumber — Waters of the North Sea remarkable for its transparency— Submarine forests and meadows — A sea covered with weeds — Enormous expanse of the Atlantic Ocean covered with vegetation — Seaweeds brought from a great depth— The true seaweed — Beauty of smaller varie- ties — Marine plants vie with land-flowers — Seaweeds as food Numerous applications of seaweeds 368—390 CONTENTS. 19 CHAPTER XXIII. THE BED OF THE OCEAN. DEEP SEA SOUNDINaS. Beauty of the tropical ocean — Average depth of the sea — Long a diffi- cult question — First determined by the U. S. navy — Mode of taking soundings — Brooks' sounding apparatus — The telegraph plateau — No currents below 3,000 feet — No decomposition at extreme depths — The sea a great nursery — Animal life at extreme depths — Preservxtion of marine life — Conclusions of Professors Bailey and Ehreuburg — Deep sea dredging expeditions — Food of deep water animals — Limestone formations 390 — 418 CHAPTER XXIV. PHENOMENA OF THE OCEAN. Optical illusions in Arctic seas — The mirage — Vivid description by Dr. Hayes — Aurora Borealis, or "Northern Daybreak" — Origin supposed to be electrical — Other luminous meteors — Halos and mock suns — The ice blink — Tide rip and Sea drift — Evaporation and precipitation — Formation of water-spouts — Perilous escape from a water-spout — Tornadoes and typhoons — The trade winds — Explanation of atmospheric currents — Their functions — The monsoon — Its beneficial effects — Hurricanes and cyclones — De- scription of the Bore and Egre — Sub-marine earthquakes and volcanoes — Islands rising from the sea — Cause — Red fog, or shower-dust , , , , 413 — 444 CHAPTER XXV. OCEAN STEAMSHIPS. Universal interest respecting the "ocean palaces" — Fulton's "Cler- mont " — Her size and rate of speed — Her first trip from New York to Albany — Terrific appearance — Contrasted with modern steam- ships — The Anchor Line of Steamships — The City of Rome — The largest passenger steamer afloat — Her remarkable dimensions — minute description of her interior 444 — 449 CHAPTER XXVI. THE SIGNAL SERVICE. Various modes of signaling — Field telegraph trains — Instruction of oflScers and men for the service — Branches taught — Number of 20 CONTENTS Pagh Stations with equipments— Inauguration of the "Weather Bu- reau " Co-operation of Agricultural and other societies — Rapid expansion of the worlc— Improvement of instruments — Superior to European systems — Mode of preparing the daily weather-map — Predicting rise and fall of great rivers— Great benefit to inter- state commerce — Storm signals described — Universal benefit of the Signal Service — International code of flag-signals — Incidents illustrating the service 449 — 475 CHAPTER XXVII. THE LIFE-SAVING SERVICE. Development of the system — Number of stations — Appliances — Patrol men on duty — Wreck of the "J. H. Hortzell" — The "Life Boat Coming" — A terrible journey — Relief at hand — The "short- cut" — The frightful spectacle — The perilous descent — Prepar- tions for the rescue — The breeches-buoy — Life car attached — The crew saved — Wreck of the schooner "A. B. Goodman" — To the rescue — Sublime heroism displayed 475 — 498 CHAPTER XXVIII. LIGHTHOUSES AND BEACONS. The "Pharos" — The oldest lighthouse — One of the seven wonders of the world — Colossal statue of Apollo rt Rhodes — Lighthouse on the Bddystone rocks— Originally built by Winstanley— His sad fate — The Bell-Rocii — The " Skerry vore" on coast of Scotland — Minot's Lodge lighthouse — Modes of signaling in fogs — Coal or wood fires formerly used — Later adaptations — The electric light — Life in a lighthouse — Appointments to position of keeper — How obtained — The sea veteran 498 513 LIST OF ILLUSTRATIONS. PAGE. Frontispiece 2 Aurora Borealis in Artie Regions. 417 Albatross 134 Archer Fish.' 228 Arctic Chimaearidar 263 Boats Stranded by the Tide 35 Breaking up of Icebergs 64 Boobie 322 Common Carp 238 ( 'ormorant 323 Cramp Fish 263 Coral 93 Drag Net 380 Diver at Work 401 Devil Fish 196 Electric Eel 354 Esquimaux Seal Hunters 117 Frozen to Death 51 II jet of Medusae 79 Flying Fish 270 Frog Fish 273 Father Lasher 290 Fight between Walrus and Polar Bears 180 Frightful Encounter with Sharks. 166 Gurnard 247 Greenland Whale 140 Gigantic Cuttle-Fish 191 Glol.e Fish 306 Great Auk 323 Golden Penguin 134 Hurricane 436 Halibut 306 Herring Fishing 338 Ichthosumus 365 Ice Blink 421 Luminosity of the Sea 40 Launching the Life Boat 480 Lamprey Eel 262 Lump Fish 316 FAOB. Montauk Lighthouse 505 Mirage 414 Northern Lights 61 Ocean Shells 301 Penguins 809 Pipe Fish 262 Piles Covered with Mussels 239 Pearl Divers at Work 99 Pearl Producing Shells 104 Potwal 128 Punt of the Marsh 339 Skate Fish 281 Sword Fish 294 Sea Shells 295 Swell at Sea 338 Stickleback and Star Fish 267 Shark Fishing 159 Stratagem of the White Bear 175 Submarine Scenery of the Indian Ocean 373 Sections of Ocean Cable 413 Steamship City of Eome 445 Ship in a Storm 463 Spring Tide 35 Ship Under Full Sail 23 Ship in the Ice 68 Submarine Scenery 73 Sponge Divers at Work 106 Sponge in its Natural State 110 Sea Lions , 124 Tree Coral 84 The Nautilus 183 The Albatross. 822 Whiting Fish 228 Wandering Chaetodon 219 Wahus 172 Water-spout, First and Second Stages 424 Water-spout, Third Stage 429 Water-spout in the Mediterranean. 414 lill... '. ■ '■£■ '\ 11 llNlllllllfillli '11' |ji||||r''i?l CHAPTER I. THE OOBAIT—ITS LAWS AND ELEMENTS. gN the beginning," the sacred historian informs us, " God created the heavens and the earth : and the earth was without form and void, and darkness was upon the face of the deep, and THE Spirit op God moved upon the pace OF THE WATERS." How wondrously solemn and grand are these inspired and holy words! What human imagination can fully realize their sublimity? In a few plain but soul-stirring sentences the great mystery of creative power is unfolded, and the mind gets bewildered in the contemplation of such vastness, beauty, and beneficence. We may exclaim with the royal psalmist, " Thou, even Thou, art Lord alone ; Thou hast made heaven, the heaven of heavens, with all their, host; the earth, and all things that are therein ; the seas, and all that are therein; and Thou preservest them all." On the second day, or generation, uprose progressively the fine fluids or waters of the firmament, and filled the blue ethereal void with a vital atmosphere. , The third day, or generation, the waters more properly so called, or the grosser or more compact fluids of the general mass, were gathered together into the vast bed of the ocean, and dry land began to make its appearance. No subject, surely, could be more delightful than the study of the " world of waters " and its strange inhabitants, and there is none upon which the mind of man has been more absorbed in inquiry and research. 24 B88ENTIAL TO THE BXI8TEN0E OF MAN. We never tire of the sea ; it is a laboratory in which de- lightful processes are continually being wrought out for our admiration and use. Its flora and its fauna, its waves and its tides, its salts and its currents, all afford grand and profit- able themes of study and thought. But, as interesting as they are separately, and as wonderful, too, they are not half so marvelous as the offices which, with their aid, the sea performs in the physical economy of our planet. Viewed in this light, the ocean, its inhabitants, and its vapors, is a mechainism constructed by the All Wise, of per- fect workmanship. It is so fixed and true in its work that nothing can throw it out of gearing ; and yet its returns are so delicate that the task of preserving them is allotted to the minutest of eea dwellers, and to agents apparently the most subtle and fickle. They preserve its intricate relations, making its adjust- ments, in beauty and sublimity of effect, to vie with the heavens. These marvelous wonders proclaim, in songs di- vine, that they, too, are the work of holy fingers. We may but imperfectly represent this great body of water and the many wonderful objects it contains, but any deficiencies may be supplied later, when the open book of nature is read by thoughtful minds eager for knowledge. The ocean is essential to the existence of man and of all vegetation ; it is the great moderator and equalizer of terres- trial climates, purifying the atmosphere that we breathe, and sending off a perpetual supply of vapors, which condense into clouds, and are the sources of moisture and fertility to the soil. We must also think of the facilities afforded for an intercourse with distant nations. It has been remarked that contact with the ocean has unquestionably exercised a bene- ficial influence on the cultivation of the intellect and form- ation of the character of many nations, on the multiplication of those bonds which should unite the whole human race, on COMPOSITION OF WATER. 25 the first knowledge of the true form of the earth, and on the pursuit of astronomy, and of all the mathematical and physi- cal sciences. Since Columbus was sent to unbar the gates of ocean, man has boldly ventured into intellectual as well as geo- graphical regions before unknown to him. How perfect, Infinite One, are all thy works, and how shortened our aspirations ! If the existing waters were increased only one-fourth of their present area, they would drown the earth, with the exception of some high mountains. If the volume of the ocean were augmented only by one-eighth, considerable por- tions of the present continents would be submerged, and the seasons would be changed all over the face of the globe. Evaporation would be so much extended, that rains would fall continually, destroy the harvests, fruits, and flowers, and overturn the whole economy of nature. There is, perhaps, nothing more beautiful in our whole system than the process by which the fields are irrigated from the skies, the rivers are fed from the mountains, and the ocean restrained within bounds which it never can ex- ceed so long as that process continues on the present scale. The vapor raised from the sea by the sun floats wherever it is lighter than the atmosphere ; condensed, it falls upon the earth in water. And what is water? It is composed of two important gasses — oxygen and hydrogen — these being, probably, the two most abundant and essential substances in nature, as regards ourselves and our earth. These, when combined, become converted into vapor, many gallons of them in this state forming one small drop of fluid water. It is the simplest of combinations, and the compound most resembling a simple element ; the most uni- versal solvent at all temperatures; the most widely dis- tributed substance in nature ; the most powerful agent ; the 26 SALTWBSS OF THE OCEAN. most perfect representation of perpetual motion, penetrating' everything, passing everywhere, always present, in sight or out of sight, and everywhere producing a marked effect. "When it is remembered that a very large proportion of the weight of every living being, animal or vegetable, consists of water, and that for life to continue at all, an incessant supply of fresh fluid is required, the necessity of water will be fully understood. The Saltness which distinguishes the waters of the ocean is explained by the circumstance that chloride of sodium (common salt) and other dissolvable salts, which form essen- tial ingredients of the earth, are being constantly washed out of the soil and rocks by rain and springs, and carried down by the rivers ; and as the evaporation which feeds the rivers carries none of the dissolved matter back to the land, the tendency is to accumulate in the sea. We know that beds of rock-salt, of enormous thickness, form part of the crust of the globe ; and we may infer that immense banks of salt exist in the bed of the deep. The uniformity of this saltness is preserved by the constant movement of the waters, caused by the regular and perpetual action of the winds. It has been said that if all the salts of the sea were spread equally over the northern half of this continent, it would cover the ground to the depth of one mile 1 What force could move such a mass of matter on dry land ? Yet, the machinery of the ocean, of which it forms a part, is so wisely, marvelously, and wonderfully compensated, that the most gentle breeze that plays on its bosom — the tiniest in- sect that secretes solid matter for its sea-shell — is capable of putting it instantly in motion. Still, when solid and placed in a heap, all the mechanical contrivances of mankind, aided by the tremendous forces of all the steam and water power of the world, could not move so much as an inch in centuries of this matter, which the sunbeam, the zephyr, and the in- fusorial insect keep in perpetual motion and activity. EFFECTS OF ITS SALTNES8. 27 "Why was the sea made salt ? If the sea were not made salt, the rays of the sun could not so readily penetrate it. This penetration of the waters by the sun's rays produces expansion. The force or dynamical power resulting from this expansion, or the spreading up and outward of the waters, increases the circulation of the currents. Were the waters of the sea fresh instead of salt, we should probably have no such thing as a Gulf Stream nor marine climate ; the torrid zone would have been hotter and the frigid zone colder ; and the climate of England would have vied with Labrador for inhospitality : all for the lack of the watery circulation. With no salts in the seas, evaporation, volume of our rivers, and the quantity of rain, would all have been different. The thunderbolt of the heavens, the sheet light- ning of the clouds, and the fitful flashes of the storm, all have their beginning principally in the salts of the sea. With a few exceptions, such as the Red Sea, Great Salt Lake, etc., the salts of the sea are everywhere the same. They could not be made so, were they not well shaken to- gether. The circulation of the currents of the sea is quite as perfect and wonderful as the circulation of the blood in our bodies. Evaporation in some waters is more rapid than in others. Water can hold only a given amount of salt in solu- tion. We cannot see that the quantity of salt deposits is increasing. It reasonably follows from all this that there must be a system of circulation in the waters, whereby an equilibrium is produced, making each and all of the Avaters of the same degree of saltness. The currents which produce these results do not flow from chance, but in accordance with physical laws, assisting to maintain the order and pre- serve the harmony which is so apparent in every depart- ment of God's handiwork. The coral islands of the Pacific were built up of matter which a certain kind of animal quarried from the ocean. These rivers of the sea become the hod-carriers of the little animal. 28 CURRENTS OF THE OCEAN. If the currents of the sea were not employed to carry off from this animal the waters that have been emptied by it of their lime, and to bring to it others supplied with more, it is apparent that it would have died for want of something to eat long before its work was completed. But for the benign current, the emptied drop ef water would have remained, not only as the grove of the little builder, but as a monu- ment recording a monstrous failure in the beautiful system of terrestial adaptations. It may be reasonably concluded that the marine animals, whose secretions are so constituted as to alter the specific gravity of the water, to disturb its equilibrium, to originate currents in the ocean, and to control its circulation, are not in any place nor doing this work by accident. Nature is sublime and perfect in adaptation through all her domain. Currents, which exercise so great an influence on the cir- culation of the waters, and in producing remarkable changes in the form of coasts, are described as constant, periodical, and variable ; the two latter classes being determined chiefly by the winds and tides. The first motion (ff the ocean waves is derived either from the attraction of the sun or moon, or from winds which blow over the surface of the waters; the second arises from the sun, which directly through its heat, and indirectly by scorching dry winds, produces evaporation, to a great extent, of the parts most exposed to its influence ; and by its similar action on the atmosphere, causes a transference of this vapor to remote latitudes, where it descends as rain, and by destroying the equilibrium of the ocean, gives rise to currents. The prin- cipal currents of the ocean are four, two warm, and two cold ; these originate, the former among the islands of the Archipelago and in the Gulf of Mexico, and the latter in the Arctic and Southern Oceans. The most important and best known of ocean currents, the OuJf Stream — the river in the ocean, one of the most mar- THE OXILF tiTllEAM. 29 velous things in this world of waters — derives its nam© from the Gulf of Mexico. The general direction of thia stream is in the arc of a great circle, towards England, by which it is divided; one branch, jjassing to the west and north, reaches the coast of Norway, and can be perceived on the southern borders of Iceland and Spitzbergen. The waters are of a deep indigo blue, and are so distinctly marked that their line of junction with the common sea- Avater may be traced by the eye. The existence of the G-ulf Stream can also be readily as- certained by means of a thermometer, the temperature be- ing so elevated. It is this warmth which tempers and softens the climate of all Western Europe. It is the influ- ence of the Gulf Stream upon the climate that makes Ireland the Emerald Island of the sea, and clothes the shores of England with evergreen robes ; while in the same latitude, on our side of the Atlantic, the shores of Labrador are fast bound in fetters of ice. How wonderful is this benefi- cent operation of Providence, when we think that this warm stream felt on England's shores, which are thus bathed with water heated under a tropical sun, comes from a distance of four thousand miles ! Nor is its influence thus circum- scribed. In mid-winter, oif the inclement coasts between Cape Hatteras and New Foundland, ships, when beaten back from their harbors by fierce north-westers, loaded down with ice, and in danger of founding, turn their prows to the east, and seek relief and comfort in the Gulf Stream. In high northern latitudes, after having run three thousand miles towards the north, it still preserves even in winter the heat of summer. With this temperature, it spreads itself out for thousands of square miles over the cold waters around, and covers the ocean with a mantle of warmth that serves so much to mitigate in Europe the rigors of winter. With a breadth of about fifty miles in its narrowest por- 30 THE GULF STREAM. tions, the Gulf Stream has a velocity, at times, of five miles an hour, pouring on like an immense torrent. The cause of these phenomenal ocean river currents, up to the present time, is only conjectured, and the nature and extent of this work will hardly warrant any extended theo- retical discussion. Bach current seems to have a circulation of its own, i.e., an upper and lower stratum. In the warm currents, the Tipper portion only is warm, while beneath runs a counter cold current. In the cold currents, the order of stratums is reversed. There is a constant tendency of polar waters toward the tropics, and of tropical waters toward the poles. It is a custom often practiced by seafaring people to throw a bottle overboard, having inside a paper, stating the time and place at which it is done. These minute little voyagers leave no trace behind them, and therefore their routes cannot be exactly ascertained, though we can approx- imate closely, knowing where they were cast and where they were found. Charts have been prepared showing the routes of over one hundred bottles, by drawing straight lines from the starting to returning point, with the time elapsed. Prom this it appears that the waters from every quarter of the Atlantic tend towards the Gulf of Mexico and its stream. Good circumstantial evidence exists to prove that bottles cast overboard in the Gulf Stream have performed the entire tour of that current. Other currents as well as the Gulf Stream are utilized in a similar manner. As an instance of this we quote the in- structions of Mr. G. M. Robeson, Secretary of our Navy, to Capt. Francis Hall, of the Polaris expedition in 1869, as fol- lows: " To keep the Government as well informed as possible of your progress, you will, after leaving Cape Dudley Digges, throw overboard daily, as open water or drifting ice may permit, a bottle or small copper cylinder, closely sealed, con- OULF STREAM UTILIZED BY NAVIGATORS. 31 taining a paper, stating date, position, and such other facts as you may deem interesting. For this purpose you will have prepared papers, containing a request, printed in sev- eral languages, that the finder transmit it by the most direct route to the Secretary of the Navy, U. S. of A." Toward the end of the seventeenth century, a Dutch brig, pursued by the French corsair, Phoenix, was overhauled be- tween Tangier and Tarifa, and seemed to be sunk by a sin- gle broadside ; but in place of going down, the brig, being freighted with a cargo of oil and alcohol, floated between the two currents, and, drifting toward the west, finally ran aground in the neighborhood of Tangier, more than twelve miles from the spot where she had disappeared under the waves. She had therefore floated that distance, driven by the action of the under current, in a direction opposite to that of the surface current. Recent invention has wrought out an improved plan of Avarming houses in winter by hot water. A furnace heats the water ; this heated water and steam is conveyed by pipes to the place to be warmed. This convenient mode of warming our ofiices and dwell- ings was probably suggested by two things: first, because of its utility ; and, second, the fact that we have a similar heating apparatus in nature, in the warm waters of the Gulf of Mexico. The heater is the torrid zone ; the Gulf and the Caribbean Sea are the boilers ; the Gulf current is the means of conveyance ; from New Foundland to Europe is the reser- voir. According to Maury, " the quantity of heat discharged over the Atlantic by the Gulf Stream in a winter's day would be sufficient to raise the whole column of atmosphere that rests upon Prance and the British Islands from the freezing point to summer heat." How benign is the influence of this wonderful stream, and how a contemplation of it leads one to revere its creator. " He treadeth upon the waves of the sea, and is seen in 32 INFLUENCE UPON CLIMATE. the waters of the deep. Yea, He calleth for its waters, and poureth them out on the face of the earth," Investigation as to the causes of the severe storms raging so frequently in certain portions of the Atlantic, and which have proved so disastrous to navigation, led to the conclusion that they were caused by the irregularity between the tem- perature of the Gulf Stream and neighboring regions, both in the air and water. " To use a sailor's expression, the Gulf Stream is the great ' weather breeder ' of the North Atlantic." It is a " storm fiend " that out-tops the " stormy capes," and out-vies the furious storms of the North Pacific and China Seas. Storms from the right and left of the Gulf Stream break in upon it; and, turning about, rush along with it, leaving be- hind a steamy mist, caused by the cold water and warm air coming in contact, to mark its course. Formerly the Gulf Stream exercised a greater influence npon commerce than it does at the present day. Up to the last century, the navigator guessed as much as he calculated the place of his ship. For three centuries navigators had been crossing and re- crossing this Gulf Stream daily, without using it as a means of giving them their longitude, or warning them of their ap- proach to this continent. Before the warmth of the Gulf Stream was known, a voy- age from Europe in winter to portions of our own coast was exceedingly perilous. Gales and snow storms would be met which would set at naught the seaman's skill. His vessel be- comes incrusted with ice and her crew benumbed and helpless. She remains obedient only to her helm, which almost in- stinctively guides her to the Gulf Stream. She crosses its magic boundary and is embraced by its healing presence. The ice vanishes from her garments ; the weary sailor laves in its healing properties, being invigorated by its genial warmth. He is now ready to make another effort to enter EFFECTS OF CURRENTS UPON NAVIGATION. 33 his port, perhaps to be as rudely driven back again. But each breathing spell renews his energies, until at last he may enter his haven in safety, though many, in this terrible contest, may sink to rise no more Other currents as well as the Gulf Stream materially af- fect navigation. While an intimate knowledge of them is necessary, in order to avoid the danger of mistaking the true position of a vessel, its progress to port may be facili- tated by falling in with a local stream, or steering clear of it, according as its direction is favorable or adverse. The effect of currents was perceived long before anything was known of their direction and velocity, and Columbus was strengthened in his belief that land might be reached across the Atlantic westward, by substances which had drifted from that quarter. After the commencement of his great undertaking, when, day after day, nothing had been seen but a shoreless horizon, and hope had nearly expired in his own breast, while his crew were on the verge of open rebellion, the effect of the oceanic currents restored his con- fidence and allayed their clamors. A branch of thorn, with berries on it, appeared ; a reed was picked up, and a staff artificially carved — intimations that an inhabited land lay before the adventurers, which was at length revealed to their gaze, and terminated forever the mystery which had rested upon the western flood. A Tide is a wave of the whole ocean, which is elevated to a certain height, and then sinks after the manner of a common wave. The interval between the two positions forms the tide. The principal cause is the attraction of the sun and moon, the latter being the more potent agent. The sea rises or flows, as it is called, by degrees, about six hours ; it remains stationary about a quarter of an hour ; and then retires or ebbs during another six hours, to flow again after a brief repose. Thus every day, or the period elapsing between successive returns of the moon to the meridian of a 34 TIDES. place — which is twenty-four hours, fifty minutes and a half — the sea ebbs and flows twice, much less, indeed, towards the poles than within the tropics, where the waters lie under the direct influence of the lunar attraction. It is in the southern hemisphere that the tidal wave originates, and from thence moves northward, influenced in its direction by the motion of the earth. Almost excluded from the North- ern Pacific by the barrier of islands and coral reefs which stretch across from Australia nearly to South America, the effect of the tides, excepting on the west coast of that con- tinent, is little felt in that ocean. In the Indian Ocean, compressed between Africa on the north and Australia and Sumatra on the east, it bursts in full strength on the shores of Hindoostan, In the narrow channel of the Atlantic the tidal wave progresses northward with great rapidity, and on the shores both of Europe and America, producing, as in Southern India, the Bore, which is described in the chapter on the " Phenomena of the Ocean," The highest floods and the lowest ebbs occur at the period of new and full moon, near the equinoxes, in March and September, when the moon is nearest the earth. Winds have also a powerful influence over the tidal cur- rents, especially in narrow seas, keeping them back when blowing from an opposite quarter, and quickening their flow when pursuing the same direction; but the motion of the water in the tide-wave is totally unlike that in an ordinary surface-wave, such as the wind produces ; and it differs, also, in affecting the whole depth of the ocean equally from the bottom to the surface, while the wind-waves, even in the most violent storms, agitate it to a very trifling depth. In the deep water of the ocean, the tidal-wave does not exceed twelve feet in height. The ancients knew that the time of high water, and also the height of the tide, were in some way connected with the age of the moon. It was the illustrious Sir Isaac Newton 'illilNG 1 IDE 36 Wll/'n- WA VES. who made the first attempt to explain the phenomena of the tides, on the principle of the influence of gravitation, the grand agent in the movement of the universe. What are called wind-waves are small at their first origin, commencing with a mere ripple, or, as the sailors term it, a " cat's-paw." But each wave, as it advances, acquires in- creased height by the continued pressure of the wind. Thus it is that the larger waves are not developed in narrow seas, or where the wind blows off the land; they require breadth of water and continued pressure for their formation. The greatest waves known are those off the Cape of Good Hope, under the influence of a north-west gale (the storm-wind of that region), which drifts the swell around the Cape, after traversing obliquely the vast area of the South Atlantic. In such gales, the waves attain a height of above forty feet, so that two ships in the trough of the sea, with such a wave between them, lose sight of one another from their decks. Off Cape Horn, also, the waves reach upwards of thirty feet in height. In our own seas, they rarely exceed eight or nine feet. The crossing of waves, instead of dividing the water into parallel ridges, causes the pitching and rolling so distressing to passengers and trying to vessels. When more than two series of waves cross one another, they give rise to the term chopping seas. Whatever relates to the color of the ocean is a matter on which many and various opinions have been expressed. Very curious is the statement of Martyn, one of the early voy- agers, attributing these changes in the sea to the color of the skies : " If," he says, " the sky be clear, the sea looks as blewe as saphire ; if it is covered somewhat with clouds, the sea is as greene as an emeralde ; if there be a foggy sunshine, it looketh yellow ; if it be quite darke, like unto the color of indigo ; in stormy and cloudy weather, like blacke sope, or exactly like unto the color of blacke leade." VABIETY OF COLORS OF THE SEA. 37 The Greenland sea varies in color from ultramarine blue to olive green, differences which have been found, on exam- ining the water, were due to the presence of innumerable minute animals. The red, brown, and white patches of the Pacific and Indian Oceans, are attributed to the presence of swarms of animalculfe, and the colors of the Red and Yellow Seas to matters of vegetable origin. On both sides of the island of Ceylon, during the south-west monsoon, a broad expanse of the sea assumes a red tinge, considerably brighter than brick-dust ; and this is confined to a space so distinct, that a line seems to separate it from the green water which flows on either side. On examining some of this water with a microscope, it proved to be filled with animalculee, prob- ably similar to those which have been noticed near the shores of South America, and whose abundance has imparted a name to the Vermillion Sea off the coast of California. Captain Kingman passed through a tract of water twenty- three miles in breadth, and of unknown length, so full of minute (and some not very minute) phosphorescent animal organisms, as to present the aspect at night of a boundless plain covered with snow. Some of the animals were ser- pents six inches in length, of a transparent jelly-like nature. This appearance is noticed by Dr. Collingwood as a " milky sea," the whole surface composed of a white fluid-like milk. The contrast of the ocean, thus colored, with the dark sky, is very striking. This proceeds from a great variety of marine organisms, some soft and gelatinous, and some minute shelly animals. They mostly shine Avhen excited by a blow or by agitation of the water, as when a fish darts along or oar dashes, or, in the wake of a ship, when the water closes on its track. In the latter case are often seen what appear to be lamps of light rising from under the keel, and floating out to the surface, apparently of many inches in diameter. One of the most remarkable of these luminous creatures is a species of 38 LUMINOSITY OF TEB 8BA. shell animals with muff-shaped bodies upwards of an inch in length, which, when thrown down on deck, burst into a glow so strong as to appear like lumps of white-hot iron. There are few subjects of study more interesting than the luminous appearance presented by the sea under various circumstances. That the soa, the great extinguisher of fire, should be turned into flame — that the darkness of night should be illuminated by the luminous glow which bathes every ripple and breaks over every wave — that globes of light should traverse the ocean, or that lightning flashes should coruscate no less in the billows of the sea than in the clouds of the air — are all facts which seize on the imagina- tion. Nor is the interest lessened by the knowledge that all these phenomena are produced by animals whose home is in the great waters ; that not only do the fiery bodies of large animals give out steady patches of light, but that of the myriad animalculee with which the sea teems, like motes in a sunbeam, each contributes its tiny scintillation, the ag- gregate forming a soft and lovely radiance. A vivid description of a luminous sea is given by an emi- nent French naturalist, as follows : " It exhibited to us in all its splendor the glorious phe- nomena of its phosphorescence. For more than an hour the waters around us seemed to be kindled into a blaze of light,. as if they had borrowed some of the hidden fires of Strom- boli. The waves, as they broke along the rocky shores of Sicily, encircled it with a glowing band of light, while every projecting cliff was circled with a wreath of fire. Our boat seemed as if it were opening for itself a passage through some glowing and fused liquid, while in its wake it left a long track of light, each stroke of the oar brightening the bosom of the waves with a broad silver gleam. The water that was taken up in a bucket presented the appearance of molten lead, as it was poured back into the sea. Every- where over this brilliant surface of calm light, myriads of LUMINOSITY OF THE SEA. 39 dazzling green sparks and globes of fire were flashing, quivering, and dying amidst the undulations of the waves, and these sparks and globes of fire were so many living beings. At certain times of the year these microscopical beings acquire the property of emitting light at each mus- cular contraction ; and hence every movement in these ani- malcule is made apparent by a luminous flash." Mr. Edmonds alludes to the luminous waters frequently witnessed in Mount's Bay : " On these occasions, particularly when the night is dark, if a fish rise from the calm water, a most brilliant and beau- tiful effect is produced. Were you, from a boat, to look down into the sea while fishes were darting to and fro, their paths would be luminous, and the deep would be traversed by streams of light as bright and beautiful as those of stars shooting through the sky. If you draw in your fishing-line, it will appear as a line of fire, and the fish at the end of it like a ball of fire coming near you. A net suspended in the sea appears ' like a brilliant lacework of fire,' and the fishes ma}'' be seen carefully avoiding it. When fishermen by night wish to know whether any fish are near, they stamp on the bottom of the boat, and instantly, if there are any beneath, they will be seen darting away in all directions." To these observations may be added the interesting de- scription of this phenomenon, as witnessed in the vicinity of the Plata by the distinguished Darwin : " One very dark night the sea presented a very beautiful and singular appearance. There was a fresh breeze, and every part of the surface which, during the day, is seen as foam, now glowed with a pale light. The vessel drove be- fore her bows two billows of liquid phosphorus, and in her wake she was followed by a milky train. As far as the eye reached, the crest of every wave was bright, and the sky above the horizon, from the reflected glare of these livid flames, was not so utterly obscure as over the vault of the '}' PRINCIPAL DIVISIONS OF THE OCEAN. 41 heavens. Farther south, the sea is seldom phosphorescent, probably owing to the scarcity of organic beings in that part of the ocean. The same torn and irregular particles of gelatinous matter seem, in the Southern as well as in the Northern Hemisphere, to be the common cause of this phe- nomenon. The particles were so minute as easily to pass through fine gauze, yet many Avere distinctly visible by the naked eye. The water, when placed in a tumbler and agi- tated, gave out sparks, but a small portion in a watch-glass scarcely ever was luminous. All these particles retain a certain degree of irritability. My observations gave a dif- ferent result. Having used the net one night, I allowed it to become partially dry, and twelve hours after, having occasion to use it again, I foiind the whole surface sparkle as brightly as when first taken out of the water. It does not appear probable, in this case, that the particles could have remained so long alive. When the waves scintillate with bright green sparks, it is generally owing to minute shell- covered animals ; but there can be no doubt that very many other pelagic animals, when alive, are phosphorescent. The phenomenon is the result of the decomposition of the or- ganic particles, by which process the ocean becomes purified." Having briefly glanced at some of the most important features of the world of waters, it may not be amiss to call attention to some of its principal divisions, and these are five: the Atlantic, Pacific, Indian, Arctic, and Antarctic Oceans. Although no one portion is completely set off from the rest, it has been found desirable to arrange it into these divisions. The extreme breadth of the Atlantic system is about five thousand miles, and its narrowest part about sixteen hun- dred miles. The extent of its shores is immense — above fifty thousand miles — several thousand more than the Pacific and Indian Oceans combined. The Atlantic, from its relation to civilized countries, and as the most frequented highway 42 DISCOVERT OF THE PAOIFIC. of communication for commerce, is regarded as the most im- portant, and is, consequently, much better known than the Pacific. Its waters wash the eastern coasts of North and South America, and the western coasts of Europe and Africa. Its northern and southern extremities are the Polar waters. The Mediterranean Sea, one of the arms or tributaries of the Atlantic, with which it is connected by the Straits of Gibraltar, is one of the greatest inlan<' seas of the world. Its shores were the successive seats of the governments of the earth for thousands of years. It was the central ocean of the Ancients, on which all the early discoveries and hardships of navigation were experienced. The Pacific was discovered by Balboa, in 1513, not quite four hundred years ago. The causes that led up to this im- portant discovery, and the effect it produced upon what was then called the Old World, are matters of common his- tory, and need not be related nor discussed here. As a high- way of commerce, it does not compare with its sister, the Atlantic, though each decade increases its importance in this respect; for the light of the Gospel, and the rigor of modern research, and commercial enterprise, is gradually but surely opening up a lively correspondence and communication be- tween the civilized inhabitants of North and South America bounding its eastern shores, and the benighted hosts of Asia on its west. The Indian Ocean, an arm of the Pacific, and embraced by Africa on the west, Asia on the north, and Australia on the east, possesses a remarkable interest, inasmuch as the earliest voyage on record, made by the navy of Solonic, was- taken on its romantic waters. CHAPTER 11. THE FROZEN OCEAN. ■'HOSE of us who pass our days in a sun-favored and temperate portion of the earth, with every comfort we could desire around us, the green face of nature only covered at brief wintry intervals with a mantle of snow, and a wide-spread fertility attesting the bounty of an indulgent Providence, cannot realize the dark and repelling picture of the frozen North. We can only fancy, with a shudder, a winter of nine months reigning over the boundless regions of ice ; and we might wonder how human nature is able to support such an intensity of cold with its attendant privations, did we not know that the inhabitants of this bleak climate, accustomed to hardships which we could not endure, pursue an exist- ence which we might consider miserable, but which they, active, self-reliant, and with but few wants to satisfy, except the cravings of hunger, are contented with, and would not, probably, exchange for what we might consider a hap- pier lot. It is astonishing what amount of cold can be endured by the human frame. Dr. Kane, one of the Arctic navigators, records, 7th of February, 1851, a frost three degrees below the freezing-point of mercury ! Only a few degrees above this, the crew of the ship engaged in the expedition per- formed a farce, called " The Mysteries and Miseries of New York." One of the sailors had to perform the part of a dam- sel with bare arms, and when a cold flat-iron, which was 44 HUMAN ENDURANCE OF GOLD. employed in the play, touched his skin, the sensation was like that of burning with a hot iron. On the 22d of the same month (Washington's birthday), there was another theatrical performance. "The ship's thermometer outside was at 46° ; inside, the audience and actors, by aid of lungs, lamps, and hangings, got as high as 30°, only sixty-two de- grees below the freezing-point, perhaps the lowest atmos- pheric record of a theatrical representation. It was a strange thing altogether. The condensation was so exces- sive, that we could barely see the performers ; they walked in a cloud of vapor. Any extra vehemence of delivery was accompanied by volumes of smoke. Their hands steamed ; when an excited Thespian took off his coat, it smoked like a dish of potatoes." As another instance of extreme cold in these fearful re- gions, it may be mentioned how, under a temperature of 15° below zero. Captain M'Clure, one of the most adven- turous of Arctic explorers, spent the night of the I3th of October, 1851, on the ice, amid prowling bears, and that without food or amunition, his only guide being a pocket compass, which, however, the darkness, aided by mist and drift, rendered useless. He, nevertheless, wiled away the time by sleeping three hours on " a famous bed of soft dry snow," and by wandering ten miles by the crow's flight, over a surface so rugged with ice and snow as to endanger his limbs. It was at the close of a walking expedition of nine days, on a very short allowance of food and water, he accomplished his desire of reaching the winter quarters of the expedition, so as to ensure a warm meal ready for his men when they arrived at their destination. Edward Parry mentions his experience of Arctic rigors thus: " Our bodies appeared to adapt themselves so readily to the climate, that the scale of our feelings was soon re- duced to a lower standard than ordinary, so that after being some days in a temperature of 15° or 20°, it felt quite EFFECTS OF THE OOLD. 45 mild and comfortable when the thermometer rose to zero — that is, when it was 32° below the freezing-point I" One of Dr. Kane's crew put an icicle into his mouth to crack it, when the thermometer was at 28°; one fragment stuck to his tongue, and two to his lips, each taking off a bit of skin, hurning it off, if this term might be used in an inverse sense. The same writer observes, " that at 25° the beard, eyebrows, eyelashes, &c., acquire a delicate, white, and perfectly enveloping cover of venerable hoar-frost. The moustache and under-lip form pendulous beads of dangling ice. Put out your tongue, and it instantly freezes to this icy crusting, and a rapid effort and some hand-aid will be required to liberate it. Your chin has a trick of freezing to your upper jaw by the biting aid of your beard. My eyes have often been so glued as to show that even a wink may be unsafe." One day Dr. Kane walked himself into "a comfortable perspiration " with the thermometer seventy degrees below freezing-point ! A breeze sprang up, and instantly the sen- sation of cold was intense. His beard, coated before with icicles, seemed to bristle with increased stiffness, and an un- fortunate hole in the back of his mitten " stung like burning coal." On the next day, Avhile walking, his beard and mous- tache became one solid mass of ice. Inadvertently he put out his tongue, and it instantly froze fast to his lip. This being nothing new, costing only a smart pull and a bleeding afterwards, he put up his mittened hands to " blow hot," and thaw the unruly member from its imprisonment. Instead of succeeding, his mitten was itself a mass of ice in a moment; it fastened on the upper side of his tongue, and flattened it out like a batter-cake between the two disks of a hot griddle. It required all his care with the bare hands to release it, and then not without laceration. Such is the relation of the rigors experienced by Arctic navigators in the frozen regions. The Esquimaux, on the 46 EARLY ARGTia YOTAOERS. approach of winter, cut the hard ice into tall square blocks, with which they construct their dwellings. They pass their nights covered with bear and seal skins, near a stove or lamp, every portion of the hut being closed against the piercing cold. Their provisions are often frozen so hard as to require to be cut with a hatchet. The whole of the inside of tlie hut sometimes becomes lined with a thick crust of ice ; and, if a window is opened for a moment, the moisture of the confined air it immediately precipitated in the form of a shower of snow. "Without interest and adventure to stimulate the energies and excite the curiosity of mankind, these gloomy regions might not, probably, have been penetrated by the brave seamen who have imperilled their lives amidst those icy waters or on the inhospitable coasts, and whose explorations have developed and tested more heroism and skill • than, perhaps, the exploration and discovery of all the rest of the world since the age of Columbus. But for these Arctic voy- agers, we should have been ignorant of the strange and wonderful countries of the North, and their inhabitants. These voyages originated in an attempt to discover a shorter passage to India across the Northern seas. In 1553, an ex- pedition of three vessels for this purpose left England. The results to two of these ships were most disastrous; the crews, seventy in number, and the commander of the expe- dition. Sir Hugh Willoughby, being frozen to death. Since this period, upwards of a hundred expeditions have been made in search of the North-west Passage — that is, a navi- gable channel from the Atlantic to the Pacific Ocean, round the northern margin of America. Among the heroic leaders of these expeditions are the conspicuous names of Parrj-^, John and James Ross, Back, Franklin, Beecher, Austin, Kel- lett, Osborne, Collinson, M'Clure, Eae, Simpson, M'Clin- tock, Haj'es, Kane, Hall, and other famous men. The fate of the unfortunate Sir John Franklin, one of the MODERN EXPEDITIONS. 47 bravest and boldest of the Arctic explorers, is well known : how, in 1845, when nearly sixty years of age, he started on his last and fatal voyage to the frozen regions, with the ships "Erebus" and "Terror." The vessels were seen three months afterwards, but for eleven years their fate remained a mystery, although twenty expeditions were sent, at the cost of a million sterling, to discover traces of the missing crews. In 1857 the "Fox," commanded by the gallant M'Clintock, was fitted out, at the expense of Lady Franklin, on the same mission ; and in 1859, the sad end of Franklin and his associates was ascertained. The " Erebus" and " Terror" had been beset by ice and abandoned in 1848; the commander himself had died the year previously (11th of June), and was thus spared the agony of witnessing and sharing the sufferings of his crews, all of whom had, it is presumed, perished on those fearful shores. Many sad and interesting relics of the Franklin expedition were recovered and brought home. The discoverers obtained their infor- mation in a remarkable manner : lying amongst some stones, which had evidently fallen off from the top of a pillar, was a small tin case, deposited on this spot by the crews of the abandoned vessels and containing a record of the long-lost expedition. It was in one of the attempts in search of Franklin and his companions that the discovery of the North-west Passage was effected in 1850, by the successful though perilous ex- ertions of Captain M'Clure, who had shared in the Arctic expedition of Captain Back in 1836, and in the voyage of James Ross in 1848. Captains M'Clure and CoUinson were sent out in the "Investigator" and the "Enterprise." The course of the latter vessel was chiefly in open waters, close to our shores ; but M'Clure steered in a more northern route, and encountered fearful perils from the ice in those storm-bound regions. During four years he underwent trials and exposures, which would have daunted many a 48 DISCO VESr OF TUB NORTH- WEST PASSAGE. navigator, however accustomed to these dangers. His ves- sel, several times beset by ice, was at length so firmly locked in, that M'Clure, seeing no hope of release, decided upon sending thirty of his crew to make their way home- wards ; some by way of North America, up the Mackenzie River, and the others by Cape Spencer, Beechey Island ; while he himself, with the remainder of the officers and crew, would stay by the ship, spend a /oMr^A winter in those dreary regions, and then, if not relieved, endeavor to retreat upon Lancaster Sound. Such was the arrangement, when an incident occurred that thrilled their hearts with joy. The captain and his first lieutenant were walking near the ship conversing, when they perceived a figure rapidly ap- proaching them from the rough ice at the entrance of the bay. When about a hundred yards from them, he shouted and gesticulated, but without enabling them to guess who he might be. At length he approached, and to their aston- ishment thus announced himself: "I am Lieutenant Pym, late of the ' Herald,' and now in the ' Resolute.' Captain Kellett is in her at Denby Island." Lieutenant P^ym had come from Melville Island, in consequence of one of Captain Kellett's parties having discovered an inscription left by M'Clure on Parry's famous sandstone rock in Winter Harbor. The ship was abandoned, and the commander and his crew, released from a very perilous pbsition, returned to England in 1854. Although he was obliged to leave his ship blocked in mountains of ice, and had to walk and sledge over hundr.eds of miles of ice, to reach other ships which had entered the frozen regions in the opposite direction, still, he had water under him all the way, and was thus the first commander of a vessel who really solved the problem of the famous North-west Passage. The Arctic and Antarctic Circles are the boundaries which separate the frigid and temperate zones. At the poles themselves there is only one day of six months, during FEARFUL INCIDENT IN THE FROZEN SEAS. 49 which the sun never sets, and one night of six months, when the sun never rises. At the Arctic Circle the greatest length of continuous light is twenty-four hours, at the sum- mer solstice or Midsummer's day ; while, at the same time, at the Antarctic Circle, the sun is twenty-four hours below the horizon, and the reverse at the opposite seasons of the year. The coldness of the Polar regions arises from the fact of the rays of the sun striking the earth obliquely, as, at the equator, the heat is produced by the sun's rays falling upon the earth vertically. In the Arctic Ocean — that part of the universal sea which surrounds the North Pole — lie the most fearful dangers which can beset the seaman on his perilous course, arising from floating ice, the ship being frozen in, the fogs, the blinding snow, the darkness, the storms, and the tides and currents, comparatively unknown, which he has to encounter. The following thrilling incident, described in the West- minster Review, is one of the most fearful histories that have been recorded : " One serene evening in the middle of August, 1775, Cap- tain Warrens, the master of a Greenland whale-ship, found himself becalmed among an immense number of icebergs, in about 77*^ of north latitude. On one side, and within a mile of his vessel, these were of an immense height and closely wedged together, and a succession of snow-covered peaks appeared behind each other as far as the eye could reach, showing that the ocean was completely blocked up in that quarter, and that it had probably been so for a long period of time. He did not feel altogether satisfied with his situation ; but, there being no wind, he could not move one way or the other, and he therefore kept a strict watch, know- ing that he would be safe as long as the icebergs continued in their respective places. About midnight the wind rose to a gale, accompanied by thick showers of snow, while Si sue- 50 FEARFUL INCIDENT IN TEE FROZEN SEAS. cession of thundering, grinding, and crashing noises gave fearful evidence that the ice was in motion. The vessel re- ceived violent shocks every moment, for the haziness of the atmosphere prevented those on board from discovering in what direction the open water lay, or if there was actually any at all on either side of them. The night was spent in tacking as often as any case of danger happened to present itself, and in the morning, the storm abating, he found, to his great joy, that his ship had not sustained any serious injury. He remarked with surprise that the accumulated icebergs, which had the preceding evening formed an impenetrable barrier, had been separated and disengaged by the wind, and that in one place a canal of open sea wound its course among them as far as the eye could discern. It was two miles beyond the entrance of this canal that a ship made its appearance about noon. The sun shone brightly at the time, and a gentle breeze blew from the north. At first some intervening icebergs prevented the captain from distinctly seeing anything but her masts ; but he was struck by the strange manner in which her sails were disposed, and with the dismantled aspect of her yards and rigging. She continued to go before the wind for a few furlongs, and then grounding upon the low icebergs, re- mained motionless. His curiosity was so much excited that he immediately leaped into his boat, with several seamen, and rowed towards her. On approaching, he observed that her hull was consider- ably weather-beaten, and not a soul appeared upon the deck, which was covered with snow to a considerable depth. He hailed her crew several times, but no answer was returned. Previous to stepping on board, an open port-hole near the main chains caught his eye, and on looking in he perceived a man reclining on a chair, with writing materials be- fore him ; but the feebleness of the light made everything indistinct. The party went upon the deck, and having 52 VMOZEN TO DEATH. uncovered the hatchway, they descended below to the cabin which the captain had viewed through the port-hole. A tremor seized him as he entered it. Its inmate retained his former position, and seemed to be insensible to the presence of the strangers. He was found to be a corpse, and a green damp mold had covered his cheeks and forehead, and veiled his eye-balls He had a pen in his hand, and a log-book lay before him, the last sentence in whose unfinished page ran thus: " — November 11th, 1762. We have now been en- closed in the ice seventeen days. The fire went out yester- day, and our master has been trying ever since to kindle it again, but without success. His wife died this morning. There is no relief" The captain and his men hurried from the spot without uttering a word. On entering the principal cabin, the first object that attracted their attention was the dead body of a female, reclining on a bed in an attitude of deep interest and attention. Her countenance retained the freshness of life, and a contraction of the limbs alone showed that her form was inanimate. Seated upon the floor was the corpse of an apparently young man, holding a steel in one hand and a flint in the other, as if in the act of striking fire upon some tinder which lay beside him. In the forepart of the vessel several sailors were found lying dead in their berths, and the body of a boy was found crouched at the bottom of the gangway stairs. Neither provisions nor fuel could be discovered any- where ; but Captain Warrens was prevented, by the super- stitious prejudices of his seamen, from examining the ves- sel as minutely as he wished to have done. He therefore carried away the log-book already mentioned, and returning to his own ship, immediately steered to the southward, deeply impressed with the awful example which he had just witnessed of the danger of navigating the Polar seas in high northern latitudes. On returning to England, he A WARD TO GAPT. FRANCIS HALL. 53 made various inquiries respecting vessels that had disap- peared in an unknown way ; and by comparing these results with the information which was afforded by the written documents in his possession, he ascertained the name and history of the imprisoned ship and of her unfortunate mas- ter, and found that she had been frozen in thirteen years previous to the time of his discovering her imprisoned in the ice." One of the most successful Polar expeditions was that of the late Capt. Francis Hall, ship Polaris. The Geographical Society of Paris voted, at its session, April 21, 1875, the biennial prize, a gold medal, devoted to Arctic explorations, to Capt. Hall. In giving a brief account of his explorations, we shall quote a few extracts from the report of the Geographical Society, both as a de- served tribute to the memory of Capt. Hall, and as helping to furnish the reader with a description of the voyages undertaken by him. " The Prize Commission has before it several enterprises, which have had for their object either Smith's Sound, East- ern Greenland, Spitzbergen, or Nova Zembla. All of these de- serve our tribute of praise ; but especially that of the PoZaWs, the ship in which the American Francis Hall, passed be- yond Smith's Sound and Kennedy's Channel, as far as 82^^ 16" — that is to say, the nearest to the pole that any vessel has reached under sail — has particularly commended the unanimous vote of the Commission." Capt. Hall was a veteran in arctic explorations. In 1850 he was seized with the desire to take part in the expedition sent out in search for Franklin. Laying aside his grav- ing-tools, he devoted all his leisure hours to the study of the polar regions of America. He designed taking part in the McClintock expedition, failing in which, he resolved to organize a new expedition. He succeeded in, interesting in his enterprise, Mr. Henry Grinnell and other distin- 54 PREPABATIONS FOB HIS POLAR EXPEDITION. guished philanthropists ; he left New London, Conn., in 1860, in the whale ship George Henry. The loss of his own boat prevented him from completing his expedition ; but he sat- isfied himself, among other geographical determinations, that what on previous charts had been marked as Fro- bisher's straits is a long open bay, without any communi- cation with the bay of Hudson. On his return here, in 1862, he published the results of his researches, in a work entitled, " Life with the Esqui- maux." In 1864, he returned to the Polar regions with his faithful companions, Joe and Hannah. The five succeeding years he spent in these regions in explorations. Sharing the daily life of this rude people; he made himself thoroughly acquainted with their language, customs and traditions, and thus was prepared on his return to this country, in 1869, for his great expedition to the Pole — the final object of all his efforts. He busied himself very promptly in organizing it, ap- pealing to Congress for assistance, and while awaiting its action, sustained himself and his dusky friends, by lectures upon his preceding voyages. He met with many hind- rances, but finally obtained the use of a tug of 400 tons, which he admirably fitted up for its rougt navigation in the ice, significantly naming her the Polaris. The following is an extract quoted from a letter written by Capt. Hall, in 1869: " There is a great sad blot upon the present age, which ought to be wiped out, and this is the blank on our maps from about the parallel of 80° North up to the North Pole. I, for one, hang my head in shame, when I think how many thousands of years ago it was that God gave to man this beautiful world — the whole of it — to subdue ; and yet that part of it which must be most interest- ing and glorious, at least to me, remains as unknown to us as though it had never been created. Neither glory nor money VOYAGE OF THE POLARIS. 55 has caused me to devote my very life and soul to Arctic ex- plorations." The Polaris sailed from New London, July 3, 1871. Capt. Hall died, November 8, 1871. Capt. Budington then took charge of the expedition. The voyage from this time on, and until most of its sur- vivors providentially returned to their homes, is very sad, though full of heroic endurance. The sad tale has been read in most of our homes with moist . eyes and aching hearts; how the Polaris left Thank God Harbor, drifted south and west, sprung a leak, requiring the most constant efforts to keep her from going down ; how, on that terrible stormy night of October 15, 1872, it was thought the vessel must sink, and orders were given to take to the ice. Instru- ments, charts, boats, etc., were hurriedly transferred to the floe ; but the drift changes its direction, the Polaris is re- leased from her grim pressure, the floe parts assunder, and the vessel, breaking from her moorings, drifts away in the darkness and howling tempest, leaving Capt. Tyson and eighteen of the crew on the ice. " Several men were seen hurrying toward the ship as she was leaving, but they failed to reach her. The voice of the steward, John Herron, was heard calling out, ' Good-bye, Polaris P" We will not attempt to picture the consternation of the separated voyagers, nor try to describe their after adven- tures; suffice it to say, that most of them marvelously escaped the thousand dangers incidental to their perilous position. In concluding this meager description of the Polaris ex- pedition, we quote from the closing paragraphs of the re- port of the Paris Geographical Society : " In consideration of these results, your Prize Commis- mission has judged it their duty to award to Captain Francis Hall, the promoter and chief of the Polaris expedi- tion, that which is otherwise due him for his previous 56 TSE JEANNETTE EXPEDITION. labors, the gold medal of the Roquette Foundation. But Francis Hall, like his fellow countryman Kane, seven- teen years before him, has fallen a victim to his suffer- ings, and it is on a tomb that we must once more deposit a crown. If we are denied the gratification of giving to Francis Hall the medal which we have awarded him, we will have at least the consolation of transmitting it to his family. It will bear witness across the seas that death itself cannot prevent the just tribute of your gratitude for services ren- dered to geographical science. The Prize Commission awards this year the gold medal of the Roquette Founda- tion to the Arctic Explorer, Francis Hall, a medal which will be sent to the family of the unfortunate explorer." J%e Jeannette Expedition. — On July 8, 1879, about ten years after Capt. Hall started out on his voyage of discovery with the Polaris, Mr. James Gordon Bennett sent out an Arctic expedition from San Francisco, commanded by Lieu- tenant De Long, U. S. N. The details respecting route and purpose were withheld from the public. The Jeannette was early caught in the ice drift, having no volition of her own, and being driven hither and thither by the mechanical im- pulse of the pack for nearly two years, when she was finally overwhelmed, and went down, June 11, 1881. The crew escaped in three boats, two of which reached the coast of Siberia, September, 1881. The deplorable news of the loss was received at New York in December of the same year. The boats were separated by a gale of wind before leaving the Arctic Ocean ; the one containing Engineer Melville and others landed at the mouth of the Lena River. The boat containing De Long and his party landed a little north of that point. The cutter, in which was Lieutenant Chipp and the remainder of the ship's crew, has never been heard of since the separation. Melville's party found shelter and succor at Irkutsk. Two of Commander De Long's party succeeded in, escaping, none of the rest ever being found PROBLEMS TO BE SOLVED. 57 alive. Lieutenant Danenhower, with a party of the Jeannette crew, reached New York in May, 1881, Engineer Melville staying behind to try to recover the lost bodies. When the sad tidings reached this country, great interest and pity was felt. Congress generously appropriated $175,000 to fit out a vessel with which to prosecute a diligent search for the lost parties. The Rogers, Commander Lieut. Berry, reached Wrangle Land, August 24, 1881. Three parties were immediately detailed from the ship to continue the search already so anxiously begun. On January 1,1882, the Rogers was destroyed by fire, her crew taking refuge on the shore in hastily constructed tents and huts. As soon as the information reached Washington, the ship Corwin was immediately fitted out, and sent to pick up the oflScers and crew. Whatever is known respecting the awful suffering and unflinching adherence to duty of the Jeannette crew has been suflSciently detailed by the daily press. We need not further dwell upon it here. Owing to the unfortunate accident attending this expedition so early in its course, but few new geographical determinations or scientific knowledge was attainable. In any event, the result is not yet sufficiently a matter of written history to be judged without prejudice. Every decade of modern history witnesses renewed attempts to draw aside the veil that seems to shroud the beginning of earth's distance in impenetrable mystery. Does the magic circle encompass vast treasures hoarded by nature, that God in His own good time will reveal to man for his admiration and use ? Will the North Pole ever be discovered ? Will such discovery explain the attrac- tion of the magnetic needle, and tell us what is electricity ? Will gravitation cease to be a law, and a new law take its place that will be the basis of new departures and inventions? These queries remain to be answered, and the solution of the enigma is engaging the best thought of the world. CHAPTER III. IGMBEBG8. " These are The palaces of Nature, whose vast walls Have pinnacled in clouds their snowy scalps, And throned eternity in icy halls, Of cold sublimity." Btbon. lONGr the most imposing and grand of the many wonders of the ocean world, are the fixed and floating icebergs, the " palaces of nature," which assume extraordinary and fan- tastic shapes, and more than realize the most sublime conceptions of the imagination. Well indeed may the mind become awe-struck and the heart almost cease to beat as the lips exclaim, " Wonderful Thou art in all Thy works 1 Heaven and earth are full of the majesty of Thy glory 1" on beholding these mighty and surpassing works of the great Creator. Bast and west, north and south, the Arctic regions present a picture of grandeur and magnificence nowhere to be equalled — great beyond conception — impossible to be portrayed. These icebergs are described by Arctic navigators as imitating every style of architecture on earth ; cathedrals with pillars, arches, portals, and towering pinnacles, over- hanging cliifs, the ruins of a marble city, palaces, pyramids, and obelisks; castles with towers, walls, bastions, fortifica- tions, and bridges ; a fleet of colossal men-of-war under full sail ; trees, animals, and human beings : one is described as an enormous balloon lying on its side in a collapsed state. CHANGING TINTS OF ICEBERGS. 59 A number of icebergs seen at the distance of a few miles presented the appearance of a mountainous country, de- ceiving the eyes of experienced mariners. These icebergs diifer somewhat in color, according to age, solidity, or the atmosphere. A very general appear- ance is that of cliffs of chalk, or of white-gray marble. A few have a blue or emerald-green tint. The sun's rays re- flected from them give a glistening appearance to their sur- face, like that of silver. In the night, they are readily distinguished in the distance by their natural effulgence, and, in foggy weather, by a peculiar blackness of the atmos- phere. A writer thus describes the strange and sudden trans- formations and the changing tints of icebergs. " One re- sembled, at first, a cluster of Chinese buildings, then a Gothic cathedral of the early style. It was curious to see how all that mimicry of a grand religious pile was soon to change to another like the Coliseum, its vast interior now a delicate blue, and then a greenish white. It was only neces- sary to run on half a mile to find this icy theatre split asunder. An age of ruin seemed to have passed over it, leaving only to view the inner cliffs, one a glistening wliite, and the other blue, soft and airy as the July heavens." An- other berg shone like polished silver, dripping with dews, the water streaming down in all directions in little rills and falls, glistening in the light like molten glass. Yeins of gem- like transparency, blue as sapphire, crossed the mass. " Solomon, in all his glory," was not clothed like the flowers of the field. Would you behold an iceberg appareled with a glory that eclipses all floral beauty, and makes you think not only of the clouds of heaven at sunrise and sunset, but of heaven itself, you must come to it at sunrise and sunset. Lofty ridges of the shape of flames have the tint of flames ; out of the purity of the lily bloom the pink and the rose. We will not say cloth of gold drapes, but water of gold 60 ORIGIN OF ICEBERGS. washes — water of grsen, orange, scarlet, crimson, and purple ■wash — the crags and steeps ; strange metallic tints gleam in the shaggy caverns, copper, bronze, and gold : endless grace of form and outline. These icebergs — so beautiful in summer, so grand and awful under a wintry aspect — project above the surface of the sea like high hills composed of rugged and steep rock. Navigators have frequently stated that they have seen them rising from four to five hundred feet above the water, and extending more than a mile in length. A Danish navigator examined an iceberg on the eastern coast of Greenland, and estimated its circuit, at its base, at four thousand feet. In height it was one hundred and twenty feet above the sea- level. He calculated that its contents amounted to upwards of nine millions of cubic feet. The reader may be interested to know the origin of these stupendous floating bergs, whence they come, how they are formed, and their ultimate destination. It has been ascertained, beyond all doubt, that they originate in the land, being nothing more than fragments of glaciers — a name given to immense masses of ice, or appendages to snow mountains. By far the larger number of these are formed on the coast of Greenland. The mountains are always covered with snow ; the valleys between them are filled with ice, derived from the higher portions of the mountains, and are thus converted into enormous glaciers. If the extent of all the shores of Greenland, in which the glaciers advance to the very sea, were put together, it is probable they would constitute a coast-line exceeding six hundred miles in length. These are the birth-places of the icebergs. The average height or depth of the ice at its free edge, or seaward, in these valleys is about twelve or fifteen hundred feet. As the glaciers advance farther into the sea, the rise and fall of the tide undermine the base, and enor- mous masses become detached and fall into the sea with a r iiiiiii I |l' 62 TERRORS OF NA VIGATORS AMONG ICEBERGS. crash like thunder. The icebergs thus formed — vast moving mountains or islands — are drifted along, some finding their way to the North Atlantic — a distance of more than two thousand two hundred miles from the place of departure — brought down by a strong current which appears to origi- nate under the immense masses of ice which surround the Arctic Pole. Fearfully appalling are the dangers arising from these icebergs on their floating voyages, and we cannot wonder at the terror excited by their appearance among the early navigators among these ice-bound seas. In the expedition of Captain James Hall, under Danish auspices, for exploring Greenland, the sailors were in sight of the south point of that country, and, to avoid the ice, which encompassed the shore, they stood to the westward, and fell in with "mighty islands of ice, being very high, like huge mountains of ice, making a hideous and wonderful noise," and on one of them was observed " a huge rockstone of the weight of three hundred pounds or thereabouts." Finding nothing but ice and fog from the 1st to the 10th of June, the Lion's people hailed the admiral, " calling very fearfully, and desiring the pilot to alter his course, and return homeward." The alarm spread to the admiral's ship, and they had determined to put about, had not Cunningham (the captain) protested he would stand by the admiral, "as long as his bloode was warme, for the good of the Kinge's majestic." This pacified the seamen for a moment, but the next floating island of ice renewed the terrors of those on board the Lion, who, having fired a piece of ordnance, stood away to the southward. All later voyagers in the Arctic Seas describe the su- blimity of these moving mountains and islands of ice, and the fearful perils encountered among them. The .following thrilling instance of hairbreadth escape is related : " It was awful to behold the immense icebergs, working their way MSGAPES FROM ICMBEBGS. 63 to the northeast from us, and not one drop of watt.' to be seen ; they were working themselves right through the mid- dle of the ice. The dreadful apprehensions that assailed us yesterday, by the' near approach of the iceberg, were this day awfully realized. About three P. M. the iceberg came in contact with our floe, and in less than one minute it broke the ice we were frozen in quite close to the shore ; the floe (similiar to field ice, but smaller, as its extent can be seen), was shivered to pieces for several miles, causing an explos- sion like an earthquake, or one hundred pieces of cannon fired at the same moment. The iceberg, with awful but majestic grandeur (in height and dimensions resembling a vast mountain), came almost to our stern, and every one expected it would have run over the ship. The intermediate space between the berg and the vessel was filled with heavy masses of ice, which, though they had been previously bro- ken by the immense weight of the iceberg, were again formed into a solid body by its pressure. The iceberg was drifting at the rate of about four knots an hour, — and by its force on the mass of ice, was pushing the ship before it, and, as it seemed, to inevitable destruction. A gracious Provi- dence ruled this otherwise : the iceberg, that so lately threat- ened destruction, was driven completely out of sight to the northeast." It has been supposed that the unfortunate steamship the President, which left England for New York in 1841, was crushed to pieces between icebergs. In the year that this magnificent vessel was lost, the Atlantic Ocean -was more thickly beset with icebergs, and at an earlier season, than commonh' occurs. This is ascertained from a report of the Great Western steamer, which was published in New York. This vessel left England about the middle of April in the same year, and encountered an ice-field, which ex- tended far more than a hundred miles, and along the south- ern edge of which she proceeded. This edge was lined by BREAKING UP OF ICEBERGS. VESSELS LOST B T CONTACT WITH ICEBERGS. 65 a broad border of loose ice, consisting of numerous floes and icebergs, and a considerable quantity of floating ice. To make way between these masses, the steamer was com- pelled frequently to change her course, for fear of coming in contact with them. The number of icebergs which were in sight of the vessel amounted to three hundred, and the largest was three-fourths of a mile long, and about a hun- dred feet high. A similar calamity to that which is sup- posed to have befallen the President is said to have well- nigh occurred to the brig Anne, of Poole, which, in a voy- age from Newfoundland to England, was so completely be- set by ice that no means of escape were visible. The ice in its whole extent rose fourteen feet above the surface of the water. It drifted toward the southeast, and bore the ship along with it for twenty-nine successive days. An opening most providentially occurred, by which the vessel became disengaged. The President in 1841, the Oity of Glasgow in 1854, the Paci^c in' 1856, and, later, the City of Boston, have disap- peared, from, it is supposed, their contact with icebergs. Captain Ross draws a vivid picture of what a vessel is ex- posed to in sailing amidst these moving hills. He reminds his readers that ice is like stone, as solid as if it were granite, and he bids them " imagine these mountains hurled through a narrow strait at a rapid rate, meeting with the noise of thiinder, breaking from each other's precipices huge frag- ments, or rending each other asunder, until, losing their former equilibrium, they fall over headlong, lifting the sea around in breakers, and whirling it in eddies. There is not a moment in which it can be conjectured what will happen in the next; there is not one which may not be the last." It is generally found that a strong current runs along the sides of an iceberg, and a vessel approaching too near is vio- vently forced against the mass, and dashed to pieces. Another source of danger arises from mooring vessels to 66 DANQEB OF MOORING TO lOHBEBGB. icebergs, which is frequently done for shelter in strong ad- verse winds, or when the vessel is rendered unmanageable by the accumulation of drift-ice around ; but there is this dan- ger: the icebergs are very nicely poised; if a large piece of ice breaks off from one side, the whole mass is suddenly and rapidly turned over, by which vessels have often been wrecked or destroyed, while boats have been upset, even at a considerable distance, by the vast waves produced by the sudden change of position of an iceberg. An incident is related of two sailors who were attempt- ing to fix an anchor to an iceberg. They began to hew a hole in the ice, but scarcely had the first blow been struck, when suddenly the immense mass split from top to bottom, and fell asunder, the two halves falling in contrary direct- tions with a prodigious crash. Fortunately the men escaped. Sometimes vessels moor to icebergs when in want of water, and obtain it from the deep pools which, in the summer season, are found on the depressed surface of some bergs, or from the streams running down their sides; but if, meanwhile, the iceberg should fall to pieces, which is likely at any moment during the sutnmer season to be the case, the vessel is liable to be buried under its icy mooring. The precarious character of these huge mountains of ice will be understood from an anecdote related by Dr. Hayes, the Arctic navigator : " A few years ago, while a French man-of-war was lying at anchor in Temple Bay, Labrador, the younger officers resolved on amusing themselves upon an iceberg a mile or more distant in the straits. They made sumptuous preparations for a picnic upon the very top of it, the mysteries of which they were curious to see. All warnings of the fishermen in the ears of the smartly- dressed gentlemen who ' had seen the world,' were useless. It was a bright summer morning, and the jolly-boat with a showy flag went off to the iceberg. By twelve o'clock the PICNIC ON AN ICEBERG. G7 colors were flying from the icy turrets, and the wild young midshipmen were shouting from its walls. For two hours or so they hacked and clambered the crystal palace, frolicked and feasted, drank toasts to the King and the ladies, and laughed at the thought of peril where all seemed so fixed and solid. As if in amazement of such rashness, the grim Alp of the sea made neither sound nor motion. A profound stillness reigned on its shining pinnacles and in the blue shadows of its caves. When the youngsters, like thoughtless children, had played themselves weary, they went down to their boat. As if the time and distance were measured, they were scarcely out of harm's way when the mighty iceberg collapsed and broke into a myriad fragments, which filled the surrounding waters. This was, no doubt, the first and last day of amusement on an ice- berg by the daring young seamen." Icebergs are not affected by the swell of the sea, which breaks up the largest fields of ice in the space of a few hours ; they rise and fall with a tremendous noise, though their size and form remain the same. But, when acted upon by the sun or a temperate atmosphere, they become hollow and fragile. Few icebergs are destroyed in the Northern seas ; a large number get as far as the great banks of Newfound- land, which is occasionally crowded with them. The fields of ice that float in the Polar Seas are often twenty or thirty miles in diameter, and some hundreds of feet in thickness. It is calculated that upwards of twenty-thou- sand square miles of drifting ice come down every year along the coast of Greenland into the Atlantic, moving on during the winter' at the rate of about five or six miles a day. The Resolute exploring ship, which was abandoned in Melville's Straits, on account of its being enclosed firmly in a vast field of ice, was afterwards found in Bafiin's Baj-, having been carried a thousand miles from its former posi- tion by the drift of an icefield three hundred thousand square 68 THE WISE PRO VISION OF NA TUBE. miles in extent and seven feet thick. This will give an idea of the quantity of ice which is carried out of the Polar regioiis, independent of the icebergs, and drifted into warmer climates. The formation and destruction of ice within the Arctic Circle is a beautiful provision of Nature for adjusting the inequality of temperature. Had only dry land been thus exposed to the sun, it would, in summer, have been actually scorched by its beams, yet severely pinched during the darkness of the winter by the most intense and penetrating- cold. None of the animal or vegetable tribes could have supported such extremes. But in the actual arrangement the surplus heat of summer is spent in melting away the ice. As long as ice remains to thaw or water to freeze, the tem- perature of the atmosphere can never vary beyond certain limits. ^_-^--^== — _^ CHAPTER IV. LIFE IN THE OCEAN. The appearance of the open sea," says Fridol, " far from the shore — the boundless ocean — is to the man who loves to create a world of his own, in which he can freely exercise his thoughts, filled with sublime ideas of the Infinite. His searching eye rests upon the far distant horizon. He sees there the ocean and the heavens, meeting in a vapory outline, where the stars ascend and descend, appear and disappear in their turn. Presently this everlasting change in Nature awakens in him a vague feeling of that sadness, which, says Humboldt, ' lies at the root of all our heartfelt joys.' " Emotions of another kind are produced by the contem- plation and study of the habits of the innumerable organized beings which inhabit this great deep. In fact, that immense expanse of water which we call the sea, is no vast liquid desert; light dwells on its bosom as it does on that of dry land. Here this mystery of life reigns supreme. It is among the most beautiful, the most noble, and the most in- comprehensible of His manifestations. Without life, the world would be as nothing. All the beings endowed with it transmit it faithfully to other beings, they, again, to their successors, which will be, like them, the depositories of the same m3'sterious gift; the marvelous heritage thus traverses years and hundreds of years without losing its powers ; the globe is teeming with the life which has been so bounteous- ly distributed over it. 70 DEATH THE FOSTER-MOTHER OF LIFE. In every living being there are two powers, between which a silent but incessant combat is being carried on — life, which builds up ; and death, which pulls asunder. At first, life is all powerful — it lords it over matter; but its reign is limited. Beyond a certain point, its physical vigor becomes gradu- ally impaired ; with old age, it feebly struggles ; and it is finally extinguished with time, when the chemical and physi- cal laws seize upon it, and its organization is destroyed. But, in turn, the very elements, though inert at first, are soon re- animated and occupied with new life. Every plant, every animal, is bound up with the past, and is a part of the future ; for every generation which starts into life is only the corol- lary upon that which is about to be born. Life is the school of death ; death is the foster-mother of life. Life, however, does not always exhibit itself at the actual moment of its formation. It is visible later, and only after other phenomena. In order to develop itself, a suitable medium must be prepared, and other determinate physical and chemical conditions provided. If we expose a quantity of pure water to the light and air, in the spring-time or summer season, we would soon see it producing minute spots of a yellowish or greenish color. These spots, examined through the microscope, reveal thousands of vegetable forms. Presently thousands of Rhiza- pods and Infusoria' appear, which move and swim about the floating vegetable forms upon which the}'' nourish themselves. Other infusoria then appear, which, in their turn, pursue and devour the first. In short, life transfers unorganized into organized matter. Vegetables appear first, then come herbivorous animals, and then come the carnivorous. Life maintains life. The death of one provides food and development to others ; for all are bound up together, all assist at the metamorphosis continu- ally occurring in the organic as in the inorganic world, the INNUMBRABLE ORGANIZED BEINGS. 71 result being general and profound harmony — harmony always worthy of admiration. The Creator alone is unchangeable, omnipotent, and permanent ; all else is transition. The inhabitants of the Avater are at least as numerous as those of the solid earth. " Upon a surface less varied than we find on continents," says Humboldt, " the sea contains in its bosom an exhuberance of life, of which no other por- tion of the globe could give us any idea. It expands in the north as in the south ; in the east as in the west. The seas, above all, abound with this life ; in the bosom of the deep, creatures corresponding and harmonizing with each other sport and play. Among these the naturalist finds instruc- tion, and the philosopher subject for meditation. The changes they undergo only impress upon our minds more and more a sentiment of thankfulness to the Author of the universe." Yes, the ocean, in its profoundest depths — its plains and its mountains, its valleys, its precipices — is animated and beautified by the presence of innumerable organized beings. Among these we find the Algae, solitary or social, erect or drooping, spreading into prairies, grouped in patches, or forming vast forests in the ocean valleys. These submarine forests protect and nourish millions of animals, which creep, which run, which swim among them ; others, again, sink into the sands, attach themselves to rocks, or lodge themselves in their crevices; these construct dwellings for themselves; they seek or fly from each other; they pursue or fight, caress each other lovingly, or devour each other without pity. Our terrestial forests do not maintain nearly as many living be- ings as those which swarm in the bosom of the sea. The sea influences its numerous inhabitants, animal or vegetable, by its temperature, by its density, by its saltness, by its bitterness, by the nevei'-ceasing agitation of its waves, and by the rapidity of its currents. When the tide retires from the shore, the sea leaves upon 72 SEASHORE DEPOSITS. the coast some few of the numberless beipgs which it car- ries in its bosom. In the first moments of its retreat, the naturalist may collect a crowd of substances, vegetable and animal, of various characteristic color and properties. The inhabitants of the coast may find there their food, their com- merce, their occupations. At low water, the nearest villages and hamlets send their contingents, old and young, to gather the riband seaweed, a source of great wealth to the dwellers by the sea, being much used in making kelp ; others gather the small shells left on the sand ; boys mount upon the rocks in search of whelks and of mussels, and detach limpets from the rocks to which they attach themselves. On some coasts, shells are sought for their beauty. By turning the stones, or by sounding the crevices of the rocks with a hook at the end of a pole, cuttles and calmars are sometimes surprised, sometimes even a young conger eel which has sought refuge there ; while the pools, left here and there by the retiring tide, are dragged by nets of very small mesh, in which the smaller Crustacea, mollusks, and small fish are secured. In the Mediterranean and other inland seas, where the tide is almost inappreciable, there. will be found to exist a great number of animals and Algse belonging to the deep sea, which the waves or currents very rarely leave upon the sea-shore. There are others again so fugitive, or which attach themselves so firmly to the rocks, that we can watch them only in their habitats. It is necessary to study them, floating on the surface of the waves, or in their m^ys- terious retirements. " We find in the sea," says Lacepede, '■ unity and divers- ity, which constitutes its beauty ; grandeur and simplicity, which give it sublimity; puissance and immensity, which command our wonder." SUB-MARINE SCENERY. CHAPTER V. MINUTE ANIMAL LIFE. " Oil, what an endless work liatli lie in hand Wlio'd count tlie sea's abundant progeny; Whose fruitful seed far passeth that on land, And also them that roam the azure sky. So fertile be the floods in generation. So vast their numbers, and so numberless their nation." — Spencer 'i|S^^^^^frRUE and just are the words of the British ^'^^^"- --^-^ poet ; though the surface of the ocean is less rich in animal and vegetable forms than that of continents, still, when its dej^ths are searched, perhaps no other portion of our planet presents such fullness of organic life. It has been said that our land forests do not harbor so many animals as the low-wooded regions of the ocean, where the sea-weeds, rooted to the shoals, or long branches detached by the force of waves and currents, and swimming free, up* borne by air-cells, unfold their delicate foliage. The micro- scope still further increases our impression of the profusion of organic life which pervades the recesses of the ocean, since throughout its mass we find animal existence, and at depths exceeding the height of our loftiest mountain chains. Here swarm countless hosts of minute animals, which, when attracted to the surface by particular conditions of weather, convert every wave into a crest of light. The abundance of these minute creatures, and of the animal matter supplied by their rapid decomposition, is such, that the sea-water PROFUSION OF ANIMAL LIFE. 75 itself becomes a nutritious fluid to many of the large inhab- itants of the ocean. Even in the bleak and dreary regions of the Northern world the wintry seas are filled with a profusion of animal life. The smaller species, of which the herring may be taken for an example, are found amidst the depths of the Arctic zone in immense shoals ; countless millions of crea- tures, sometimes known as sea nettles, a genus of Acalephce, signifying " nettles " (so named from the stinging power which many of them possess), of higher organization than the MeduscB, or jelly-fish, exist here, with globular or oval bodies of a delicate or jelly-like substance, strengthened by bands which are covered with rows of large cilia (a peculiar sort of moving organs resembling microscopic hairs), the motion of which is extremely rapid, and is evidently con- trolled by the will of the little animal. Jelly-Fish, Zoophytes, etc., swarm also to such an extent as to convert the surface water in some places almost into a kind of soup, which fur- nishes food not only to small fish, but to whales and animals of the largest growth. Even the color of the ocean is influ- enced by the enormous quantity of the organic life it sus-. tains. The application of the microscope — for by far the most numerous of the animalculee can only thus be traced — shows them to be the cause of a peculiar tinge observed over a great extent of the Greenland Sea. This color is olive-green, and the water is dark and dense compared to that which bears the common cerulean hue. The portion of the ocean so distinguished amounts to not less than t^venty thousand square miles, and hence the number of animalculae which that space contains is far beyond human calculation. • Some of the calculations of an ingenious and clever writer are very curious and instructive. In a drop of water there were fifty of these animalculte, on an average, in each square of the micrometer-glass of an eight hundred and fortieth of an inch; and as the drop occupied a circle on a plate of 76 ANIMALUULJE IN A DROP OF WATER. glass containing five hundred and twenty-nine of these squares, there must have been in this single drop of water — taken out of the yellowish-green sea, in a place by no means the most discolored — about twenty-six thousand four hun- dred and fifty of these animalculee ! Hence, reckoning sixty drops to a dram, there would be a number in a gallon of water exceeding, by one-half, the population of the whole globe ! It gives a wonderful conception of the minuteness and vastness of creation, when we think of more than twen- ty-six thousand animals — living, obtaining subsistence, and moving perfectly at their ease, without annoyance to one another — in a single drop of water! The diameter of the largest of these animalcule was only the two-thousandth part of an inch, and many only the four- thousandth. The army which Bonaparte led into Russia in 1812, estimated at five hundred thousand men, would have extended — in a double row, or two men abreast, with two feet three inches space for each couple of men — a distance of one hundred and six and a half English miles; the same number of these animalculge, arrayed in a similar way in two .rows, but touching one another, would only rQ&ch. five feet tivo and a half indies ! A whale requiresi an ocean to sport in, but about one hundred and fifty millions of these animalcule would have abundant room in a tumbler of water! What a stupendous idea is thus afforded of the immensity of crea- tion, and of the bounty of Divine Providence, in furnishing such a profusion of life in regions so remote from the habi- tations of men! Even if we consider the number of animals in a space of two miles square as great, what must be the amount requisite for the discoloration of the sea through an extent of, perhaps, twenty or thirty thousand square miles! If we turn from the Arctic seas to the warmer regions of the ocean, we find the same wonderful profusion of animal life existing in minute forms of infinite variety : small Mol- lupka (soft animals inhabiting shells) ; Crustacea (with artic- INHABirANTS OF THE SEA-WKI^D. 77 ulated limbs and hard coverings;, and luminous creatures, as Salpcp., of which vast gelatinous shoals are met with at sea, associated in a round mass like a chain, transparent, and of beautiful colors, of which, we are told, that during a journey of nearly eight hundred miles, they were thickly abundant throughout the track of the ship in the ocean. Each por- tion of the vast masses of floating seaweed consists — when carefully examined — of a little densely populated world, be- ing crowded with living beings, all active and full of bust- ling animation — strange-shaped little fishes, bright sea-slugs, tiny shells of the nautilus tribe, grotesque sea-spiders, and whole gangs of odd crabs, jelly-fish, and transparent shrimps. " The number of living creatures of all orders," observes Darwin, " whose existence intimately depends on the kelp (marine plants) is wonderful. A great volume might be written describing the inhabitants of one of these beds of seeweed. Almost all the leaves, excepting those on the sur- face, are so thickly encrusted with coralines as to be of a white color. We find exquisitely delicate structures, some inhabited by simple hydra-like Polypi, others by more or- ganized kinds and beautiful compound Ascidice (from the Greek ashos, a bottle or pouch, these little molluscs resem- bling sacs everywhere closed, except at two orifices.) In- numerable Crustacea frequent every part of the plant. On shaking the great entangled roots, a pile of small fish, shells, cuttle-fish, crabs of all orders, sea-eggs, star-fish, and animals of a multitude of forms all fall out together. Often as I re- curred to a branch of the kelp, I never failed to discover animals of new and curious structures. I can only compare these great aquatic forests of the Southern Hemisphere with the terrestrial ones in the intertropical regions. Yet if in any country a forest were destroyed, I do not believe nearly so many species of animals would perish as would here from the destruction of the kelp. Amidst the leaves of this plant numerous species of fish live, which nowhere else could find 78 bJuA J>iETTLES. food or shelter ; with their destruction, the many cormorants and other fishing birds, the otters, seals, and porpoises, would soon perish also." How elevating is the thought that amidst all this pro- digious variety and profusion, the boundless extent of which no human mind can conceive, yet the minutest animated par- ticle that is revealed by the microscope is governed by the same laws that regulate the highest objects in creation! "Each moss. Each shell, each crawling insect, holds a rank Important in the scale of Him who framed This scale of beings; holds a rank which, lost. Would break the chain, and leave a gap behind, Which Nature's self would rue." Very interesting is the study of those curious inhabitants of the ocean, constituting what are termed by naturalists Acalephce, as has been previously mentioned, but which are more commonly known by such names as jelly-fish, sea-blub- ber, etc., and are sometimes called sea-nettles. Most of them were included in the Linneean genus Medusa, and the name Medusce is still frequently applied to them; They abound in all parts of the ocean, although some are tropical and others belong to cold latitudes. Some are of a large size, reaching two feet in diameter, and others are very small. They are of an extremely soft jelly tissue, which in most of them, and all in the true Medusae, is unsupported by any harder substance. The latter comprise various species that shine with great splendor in the water. The South Atlantic abounds with them, and much amusement maj^ be derived in a long sea voyage by observing these beautiful organisms, for endless are the moulds in which prolific Nature has cast them. Some are shaped like a mushroom, others are like ribbons, or globular, flat or bell- shaped; others again resemble a bunch of berries. Their motions are generally slow, their sensations dull and directed FLEET OF MEDUSA. 80 SEA WORMS. entirely to the procuring of food. They often float without any apparent animation, trusting in the winds and waves to waft them about, and to carry them their food; some keep a little beneath the surface, and propel themselves by con- tracting their pellucid disks. They have been termed the " living jellies of the deep," and some are endowed with an acrid secretion, which irritates the skin, and has thus caused them to be termed sea-nettles. " Those living jellies whicli the flesh inflame. Fierce as a nettle, and from that the name; Some in huge masses, some that you may bring In the small compass of a lady's ring. Figured by hand Divine — there's not a gem Wrought by man's art to be compared to them; Soft, brilliant, tender, through the wave they glow, And make the moonbeam brighter where they flow." There is one large species common in the Straits of Singa- pore dreaded by the Malays on account of the violence of this power. Sometimes these animals are colorless, and as transparent as crystal; others are embellished with the most brilliant hues, and seem as if adorned with the richest enamel. Ste- vens, one of the first voyagers to the East Indies, describes the jelly-fish he saw m the Gulf of Guinea as " a thing swim- ming on the water, like a cock's comb, but the color much fairer, which comb standeth upon a thing almost like the swimmer of a fish in color and bigness." Another curious and widely-distributed class of marine animals are the Annelides or Sea- JVorms, the bodies being composed of rings and joints. Some species are only met with in tho high seas, swimming freely, while most of the others are to be found on the sea-shore, burrowing in the sand or mud, or living under stones; or amidst seaweed. A few construct a sheath or case for themselves, in which they THEIR WONDEBFUL BEAUTY. 81 ordinarily live, but which are not essential to the existence of the tenant, as they can leave it without inconvenience, and wander at liberty for their food elsewhere. Their bodies are formed of more or less numerous rings, each of which is furnished with feet, which are the chief organs of motion, and are truly wonderful. They are generally in the form of small tubercles, and for the most part are composed of two branches. Their summit or tip is frequently armed with one or more bundles of bristles, which play an important part in the history of the animals. They form an orna- mental appendage to the worm, and at the same time are used as organs of defence and offence. Notwithstanding they live in situations in which they are seldom seen by the human eye, yet in some species these organs have a remark- able degree of brilliancy, shining with a metallic lustre and splendor of the richest kind. The common Sea-Mouse, for in- stance, has a very large bundle of them attached to each foot, which are very fine and of considerable length. Gold, azure, purple, and green play on their surface in a thousand reflec- tions, and these rainbow colors are in perfect harmony with the changing reflections and rings of the body. The wing of the butterfly has not received a more brilliant dress than these worms, concealed at the bottom of the waters, and sometimes buried in black and fetid mud. They are bril- liant as gold, and changeable to every hue of the rainbow. The colors they present are not surpassed in beauty by the scale-like feathers of the humming-bird nor by the most brilliant gems. These bristles, however, are as useful as they are ornamental. Surrounded on every side by enemies, usually dwelling in the waters where the worms live, they require powerful weapons of offence for resistance or for securing their prey. Some species of these worms are armed with a weapon like a harpoon, a lancet, or a knife. Some have an appen- dage, falchion-shaped, and others a bayonet fixed upon a 82 TEE NEREIDS. musket, while others present the appearance of a barbed arrow. These weapons are used to pierce the bodies of their enemies, and they frequently leave them in the wounds they have made. The tubercles of the feet, from which the barbed arrow-shaped bristles spring, are, in reality, quivers full of arrows, stored there for the use of the animals to pro- tect them from violence ; or, as Gosse fancifully observes, "You may imagine you behold the armory of some bel- ligerent sea-fairy, with stores of arms enough to accouter a numerous host." The number of such-like weapons in these worms is im- mense. " Let me ask the naturalist," says Dr. Johnson, " to count the number which may be required to furnish the garniture of a single individual. There are worms which have five hundred feet on each side : each foot has two branches, and each branch has at least one spine and one brush of bristles, some of them simple, some of them com- pound. This individual has therefore two thousand spines at least, and if we reckon ten bristles to each brush, it has also twenty thousand of theml Let us look a little further, not merely to the exquisite finish of each bristle, but to the means by which the host is put in motion. There is a set of muscles to push them forth from their port-holes ; there is another to replace each and all of them within their proper cases ; and the uncounted crowds of these muscles neither twist nor knot together, but play in their courses, regulated by a will that controls them more effectually than any brace ; now spurring them to convulsive energy, now stilling them to rest, and then putting them into action with an ease and grace that charm us into admiration, and fix the belief that even these creeping things participate largely in the happiness difiused throughout creation I" The Nereids, which belong to the same class of sea-worms, have a long body, narrowed towards the inferior extremity, and divided into numerous segments, with well-developed "JUMPING JOHNNIES." 83 appendages, a head, eyes, horns or feelers, and, in general, a large proboscis, armed with a pair of jaws, curved, hooked, and strong, with teeth on the inner margin. The Pearly Nereis, which is one of the finest and commonest of the kind, is thus described : " The upper surface is of a warm fawn brown, but the beautiful flashes of rainbow blue that play on it in the changing light, and the exquisite pearly opales- cence of the delicate pink beneath, are so conspicuous as to have secured for it the title of ' pearly' par excellence." Another species of the group of the Nereids, the " White- Rag Worm" a common inhabitant of the shores of Great Britain, varying from six to ten inches in length, is of a beau- tiful pearly lustre, exactly similar to that of mother-of-pearl. The foot, when magnified, resembles a horse's hoof, and is a very marvelous piece of Nature's mechanism. The animal swims rapidly in the sea. Another species is of a rich green- ish color, varied with bluish shades, reflecting a metallic lus- tre, and varying like the hues of the rainbow. With the tribe of sea-worms may be also mentioned the SeorLeach or Skate-sucker, so named because the worm lives on fish, and attaches itself chiefly to the skate, from which it is scarcely ever found free. The mouth of this animal is not provided with jaws, so it sucks up the juices of the body of its host by a kind of pumping process. The Leaping- Worms, found on the coasts of Borneo, are curious creatures. Each step in advance to take them causes them to jump in a rapid manner, and in a series of leaps they reach the margin of the water, when it is impos- sible to capture them. When lying at rest, they are scarce- ly distinguishable from the mud in which they lie. They are wedge-shape in form, about three or four inches long, with flat pointed tails, and broad heads and prominent eyes. The sailors have nicknamed them " Jumping Johnnies." CHAPTER YI. CORAL-THE BOCK BUILDEBS. |flO art can imitate the delicate tracery, the rich color, -^^ and the singular forms that coral assumes. It has been called by some, the " Queen of the Ocean," and no term could be more appropriate. A celebrated naturalist, on viewing the coral-beds of the Eed Sea, exclaimed, " Where BEAUTY OF OOBAL. 85 is the Paradise of flowers that can rival such variety and beauty?" Mr. J. Beete Jukes, in giving his own vivid impressions on seeing some coral-beds in the Pacific, says: " I had hitherto been rather disappointed by the aspect of the coral-reefs, so far as beauty was concerned; and, though very wonderful, I had not seen in them much to admire. One day, however, on the lee side of one of the outer reefs, I had reason to change my opinion. In a small bay of the inner edge of the reef was a sheltered nook, where the ex- treme slope was well exposed, and where every coral was in full life and luxuriance." Mr. Jukes describes them as of every shape ; some deli- cate and leaf-like, others with large branching stems, and others, again, exhibiting an assemblage of interlacing twigs of the most delicate and exquisite workmanship. Their colors were unrivaled, vivid greens contrasting with more sober browns and yellows, mingled with rich shades of pur- ple, from pale pink to deep blue. Among the branches, cov- ered with their beautiful drapery of ocean vegetation, float- ed fish of various colors, radiant with metallic green or crimson, or fantastically banded with yellow and black stripes. Patches of clear white sand were seen here and there for the floor, with dark hollows and recesses. All these, seen through the clear crystal water, the ripple of which gave motion and quick play of light and shadow to the whole, formed a scene of rarest beauty, and left nothing to be desired by the eye, either in elegance of form, or bril- liancy and harmony of coloring. It is only in the ocean, however, that the glorious homes of the rock-builders are to be seen in perfection ; for, im- mediately after drawing the coral from the water, so rapidly does atmospheric exposure affect them, that it would be dlflScult to recognize the lovely objects which a moment be- fore were glowing in the still waters. 86 BELIEVED TO BE FLOWERS. Such are the grand and mysterious operations of Provi- dence in the depths of the ocean! "We will now attempt to describe the singular animals to whom the accomplishment of these marvels is due, but must first mention that coral was formerly supposed to be a marine plant. This ancient no- tion rested not merely on its shrub-like form, but from the circumstance that its branches are covered with a soft coat- ing while in the water, but which dries up immediately on its extraction. An Italian naturalist perceived small objects in the coral-cells, which he thought were flowers ; but at length a French physician at Marseilles discovered that there was life in the coral, and that these assumed flowers were in reality minute animals. Thus, by the aid of the microscope, an object which might be said to belong to mineralogy, and by its trunk and branches to botany, was now admitted to a rank in the animal world. This discovery, the result of thirty years' studious research into the nature of coral, was laughed at by many persons at the time and treated as absurd, but Linnaeus, the great Swedish naturalist, saw the truth at once, and did not hesitate to place coral at the head of the zoophytes, or animal plants, an appropriate designation, because it indicates at the same time the double nature of the substances. A common characteristic of these animals is that their mouths are surrounded by radiating tentacles or feelers, ap- pendages by which they attach themselves to surrounding objects, arranged somewhat like the rays of a flower. By this will be understood the term polypi, by which these ani- mals are also known, signifying "many" and "foot." Of these the individuals of a few families are separate and per- fect in themselves, but the greater number of zoophj'tes are compound beings, or each zoophyte consists of an indefinite number of individuals, or polyps, connected together. This polyp is an extraordinary creature, and has a tenac- ity of life truly remarkable. If one cut off the branch of a REPRODUCTIVh! i'OWMB, OF THE POLYP. 87 tree, or sever the limb of an animal, these parts will wither and decompose by passing into other parts of matter. Cut a tree carelessly, and its natural symmetry is disfigured ; or slit it down its centre, it is destroyed. Animals thus treat- ed die, with the exception of the polyp, for it will put forth new limbs, form a new head or tail, and, if divided, be- come two separate existences. If a polyp be cut in two, the fore part, which contains the head and mouth and arms, lengthens itself, creeps, and eats on the same day. The tail part forms a new head and mouth; at the wounded end shoot forth arms; if turned inside out the parts at once accommodate themselves to these new conditions. If the body were cut into ten pieces, every portion would become a new perfect living animal. A polyp has been cut lengthways at seven in the morning, and in eight hours afterwards, each part had devoured a worm as long as itself ! How astonishing it is to see a creature so apparently frail in structure, possessing the actions, sensa- tions, and powers of higher organized beings I The stomach is without membrane or cell ; the outside surface-cells form a kind of double skin, and the inside consists of a wall of cells running crosswise, with a velvet-like surface, being red or brown grains held together by a sort of gluey substance. These minute builders of the ocean rocks make their habitations, and form the wonderful coral groves and islands, sometimes hundreds of miles in extent. The various species of these animals appear to be fur- nished with glands containing gluten, converting the carbo- nate of lime which is in the ocean, and other earthy matters, into a fixed and hard substance, twisted — as may be ob- served in coral — in every variety of shape. If a piece of coral be examined with the microscope, it will be seen to be covered with a multitude of small pits, which are cells of the most beautiful construction, made with the greatest regularity, and in such a manner that the most ex- 88 NATURE OF UOBAL. perienced builder would pronounce faultless. How this is effected, and what peculiar instincts the little toilers of the ocean possess that enable them to construct their dwellings with such mathematical nicety, are among those mysteries of Nature we cannot comprehend ; but it is certain that large masses of solid rock are framed by these animals, ever working to the music of the waves. " Verily," observes Baker, " for my om'u part, the more I look into Nature's works, the sooner I am inclined to believe of her, even those things that seem incredible." But here we have the certainty of Natures operations : we know that islands and continents are constructed for the habitation of man by these minute animals ; that mountains like the Appenines, and regions to which our own country is but trifling in comparison, are the results of their toil. South-west of Malabar, there is a chain of reefs and islets of coral extending four hundred and eighty geographical miles ; on the east side of New Holland are unbroken reefs of three hundred and fifty miles long ; and between that and New Guinea, a coral formation of seven hundred miles in length. The process by which these great changes are effected is still going on extensively in the Pacific and Indian Seas, where multitudes of coral islands emerge from the waves, and shoals and reefs, where the rock-builders are ever busy, appear at small depths beneath the water. How truly wonderful it is to know that the Polynesian Archipelago, now one of the great divisions of the globe, has its foundations formed of coral reefs, the spontaneous growth of once living animals 1 As one generation of the coral-builders dies and leaves its chalky remains, another succeeds, until the mass of coral appears above the ocean, when the formation ceases, for it is only in that element the laborers can live. "Ye build 1 ye build ! but ye enter not in, l;ike the tribes whom the desert devoured in their sin; WONDERS OF THE CORAL FORMATION. 89 JFrom the land of promise ye fade and die, Ere its verdure gleams on your wearied eye." One marvel ceases here, and another commences. The vegetation of the sea, cast on its surface, undergoes a chem- ical change ; the rains assist in filling up the little cells of the dead animals ; the fowls of the air and the ocean find a resting-place, and assist in clothing the rocks ; mosses car- pet the surface ; seed brought by birds, plants carried by the oceanic current, animaculee floating in the air live, prop- •agate and die, and are succeeded through the assistance their remaias bestow by more advanced animal and veg- etable life ; and thus generation after generation exist and perish, until at length the coral island becomes a Paradise, ifilled with the choicest exotics, the most beautiful birds and ■delicious fruits. Here is a glowing theme for the imagination to dwell upon 1 How wonderful to think that the surface of the iglobe is being changed by these diminutive living agents ; that in tropical climates they are encircling islands with fbelts of coral, enlarging their coasts, forming stupendous reefs, and working out the plans and the will of the great Architect of the Universe I We feel surprised, when travelers tell us of the vast di- mensions of the Pyramids and other great ruins ; but how utterly insignificant are the greatest of these when com- pared to the mountains of stone accumulated by the agency •of various minute and tender animals ! How wonderful is the instinct and design of self-preser- vation in insects so exceedingly minute as the coral workers lOr ocean rock builders! Pope graphically says: " Who taught the natives of the field and wood To shun their poison or to choose their food? Prescient, the tides and tempests to withstand, Build on the wave, or arch beneatli the sand ?" 90 INBTmCT OF THE BOGK BUILDEB8. To protect their dwellings from the violent storms by which the waters of the deep are frequently agitated, they erect a breastwork, which effectually shields them from wind and wave. In the early stages of their operations they work perpendicularly, so that the highest part of the coral wall, on reaching the surface, is on the windward side, and affords protection to the busy laborers in their opera- tions. These breastworks, or breakwaters, will resist more powerful seas than if formed of granite, rising as they do fre- quently from a depth of a thousand or fifteen hundred feet, and adapted in a way that no human skill or foresight could equal to the utmost powers of the heavy billows that contin- ually lash against them. Another observation we may make on this subject, is,. that in one species a remarkable arrangement is found; the upper openings of the cells in which they live, have a vase- like form, shutting with a lid : when the animal wishes to- expanditself, it opens the lid like a trap-door, and protrudes- itself; and when it re-contracts itself and retreats, the lid falls and closes the aperture so exactly that the animal is- perfectly protected. Coral differs in quality and color. The common Red Coral which is used for many ornamental purposes, and is- so much admired for its fine color, is chiefly obtained from the Mediterranean, in some parts of which extensive " fish- eries " are carried on. It is brought up from the depths of the sea by means of a kind of grappling apparatus dragged after a boat, the pieces being broken from the bottom by beams of wood which are sunk by weights, and then erw tangled among hemp. Great care is necessary to preserve the pieces from being lacerated. Red coral has a shrub-like branching form, and grows to the height of about a foot, witK the thickness of a little finger. Much of the coral obtained from the Mediterranean is sent to India, where it is much- prized by the natives. Many of the arms and horse-capari- VARIOUS DESaBIPTIONS OP CORAL. 91 sons of the Oriental chiefs are studded with this beautiful ornament. Red coral is also found in the Red Sea, the Persian Gulf, Messina, the Dardanelles, and a few other places. The French and the Sicilians are the only people who make coral- fishing a regular source of interest. As the precious sub- stance requires eight or ten years to come to any perfection by the labors of its industrious architects, the spots where it is finished are divided each into ten portions, and only one of these is finished in the year, so that each may remain to " grow " during the time necessary to bring it to maturity. Black Coral is most esteemed, but it is scarce : the red, white, and yellow are chiefly used for ornamental purposes. The Pink Coral is esteemed for its scarcity. The ingenuity of man continually exerted to imitate na- ture, and frequently with great success, is practised in the fabrication of' false coral, made with powdered marble and fish-glue, and colored with vermilion and red lead. Coral beads were anciently worn in India, as sacred amu- lets or charms. The Romans tied little branches round chil- dren's necks to keep off the influence of the "evil eye," a superstition which had also many believers in the middle ages among the inhabitants of England, and which still exists in some foreign countries. Coral was said to preserve houses from the effects of thunder storms, and to be of much finer color when worn by men than by women. Even at the present time there are people so credulous as to believe that coral necklaces be- come pale when the wearer is about to be ill. There is no doubt that coral loses its color by time and exposure, and this may have given rise to the superstition. The small pointed branches, mounted with a ring at one end for sus- pension, are extensively manufactured at Naples as " charms ;" and Ferdinand I, King of that country, was a devout be- 92 PERILS OF THE CORAL REEFS. liever in their efficacy, and used to point the coral towards anyone whom he suspected of having a malicious influence. The vast coral reefs are often the source of great dangers tto navigators, and numberless instances have occurred of entire or partial destruction of ships, and heavy losses of life in consequence. One case, that happened some years ago in the Indian Seas, nearly proved fatal to the whole crew of a fine large ship called the " Cabalve." The story of this shipwreck, as related in a letter to a friend by one of the -surviving officers, is deeply interesting. The vessel was bound for Bombaj', and was proceeding on its way at a quick Tate, with every feeling of security in those on board, -when one morning, between four and five o'clock, the weather ■being dark and cloudy, an alarm was given of "breakers ahead!" Every efi"ort was instantly made to free the vessel from her dangerous position ; but in vain, for she struck on the coral reef, and the shock was so violent that every per- son was instantly on deck, with horror and amazement de- picted upon every countenance at what appeared to be cer- tain destruction. The vessel soon became fixed upon the coral reef, and the sea struck upon her with tremendous SHIPWRECK ON THE CORAL REEF. 93 violence, staving in the exposed side, washing through the hatchways, and tearing up the decks. " We were now," observes the officer alluded to, " uncer- tain of our distance from a place of safety: the surf broke over the vessel in a fearful cascade ; the crew despairing and clinging to her sides to avoid its violence, while the ship was breaking up with a rapidity and crashing noise, which, added to the roar of the breakers, drowned the voices of the officers. The masts were cut away to ease the ship, and the cutter cleared and launched in readiness. When the long wished-for dawn at length broke upon us, instead of alleviating it rather added to our distress. We found that the ship had run on the south-east extremity of a coral reef, surrounding on the eastern side those sand-banks or islands in the Indian Ocean, called by the natives Carajos ; the nearest of these was about three miles distant, but not the least appearance of verdure could be discovered, or the slightest trace of any- thing on which we might hope to subsist. In two or three places some rocks in the shape of pyramids appeared above the rest like distant sails, and were repeatedly cheered as such by the crew, until it was perceived that they had no motion, and the delusion vanished. The masts had fallen towards the reef, the ship having fortunately canted in that direction, and the boat was therefore protected in some measure from the surf. Our commander, whom a strong sense of misfortune had entirely deprived of presence of mind, was earnestly requested to get into the boat, but he would not, thinking it unsafe. He maintained his station on the mizzen-topmast that lay along the wreck, the surf M'hich was rushing round the bow and stern continually overwhelm- ing him. I was myself close to him on the same spar, and in this situation we saw many of our shipmates meet an un- timely end, being either dashed against the rocks or swept away by the breakers. " The large cutter full of officers and men now cleared a 94 BREAKING-UP OF THE VESSEL. passage through the mass of wreck, and being furnished with oars, watched the proper moment and pushed off for the coral reef, which she fortunately gained in safety, but they were all washed out of her in an instant by a tremen- dous surf; yet out of more than sixty persons whom she contained, only one man was drowned. Our captain, seeing this, wished he had taken advice which was now of no use. binding I could no longer maintain myself on the same spar, and seeing the captain in a very exhausted state, I en- treated him to return to the wreck ; but he replied that since we must all inevitably perish, I should not think of him, but seek my own preservation. An enormous breaker now burst on us with tremendous violence, so that I scarce- ly knew what had occurred to him afterwards, being washed down by successive seas. " At length, after most desperate efforts, I was thrown on the reef, half drowned and severely cut by the sharp coral, when I silently offered up thanks for my preservation, and crawling up the reef, waved my hand to encourage those who remained behind to make an effort. The cap- tain, however, was not to be seen, and most of the others had returned to the wreck, and were employed in getting the small cutter into the water, which they accomplished, and safely reached the shore. About noon, when we had all left the ship, she was entirely broken up. The whole of the upper works — from the after-part of the forecastle to the break of the poop-deck — had separated, and was driv- ing in towards the reef. Most of the lighter cargo had floated out of her : bales of cloth, cases of wine, puncheons of spirits, barrels of gunpowder, hogsheads of beer, and other articles, lay strewed on the shore, together with a chest of tools. Finding the men beginning to commit the usual excesses, we stove in the heads of the spirit-casks to prevent mischief, and endeavored to direct their attention to the general benefit. The tide was flowing fast and we ESCAPE TO A DESERT ISLAND. 95 saw that the reef must soon be covered ; we therefore con- veyed the boats to a place o? safety, and fiUiiig them with all the provisions that could be collected, proceeded to the highest sand-bank, as the only place which held out the re- motest chance of safety, " The people now collected together to ascertain who of the crew had perished, when sixteen were missing: the captain, surgeon's assistant and fourteen seamen. We di- vided our men into parties, each headed by an officer : some were sent to the wreck and along the beach in search of provisions, others to roll up the hogsheads of beer and butts of water that had floated on shore ; but the greater number were employed in hauling the two cutters up, which the carpenters were directed to repair." Such is a graphic account of a fearful shipwreck on a barren coral reef, from one of the survivors among the crew. One can thus form an idea of the dangers to which seamen are exposed by these colossal works of tiny polyps: " For often the dauntless mariner knows That he must sink beneath. Where the diamond on trees of coral grows In the emerald halls of death." CHAPTER VII. PEARLS. " Ocean's gems, the purest Of Nature's -works ! What days of weary journeyings What sleepless nights, what toils on land and sea. Are borne by men to gain thee ! " ■MONG the rare and beautiful objects of cre- ation may be mentioned Pearls, which rank with the most valuable of precious gems, and are highly prized as ornamental appendages by the rich and the noble in all countries. While admiring these jewels, you may not know, perhaps, at what perils and cost of life they are obtained, for it is neces- sary to seek for them in the depths of. the ocean, and al- though the divers employed for this purpose are very strong and expert, still in the Indian Sea and the Eastern Arch- ipelago, where the true pearl-oysters are found, sharks are numerous, and it is necessary to take every precaution against those voracious monsters. This occupation was formerly considered so dangerous that only condemned criminals were thus employed, but many thousand persons now obtain a livelihood by these means in the Persian Gulf and at Ceylon. At one time, when the Dutch had possession of this beautiful island, the number of large pearls obtained there was considerable. These pearl-divers are a hardy race of men, singularly adapted to their hazardous occupation, and very super- stitious ; for before commencing operations, they consult PEARL DIVERS AND SHARK CHARMERS. 97 the " shark-charmer," a wise-acre who pretends to have the power of preserving his dupes from the angry jaws of the great sea-scourge, and makes a good living by it, the office being handed down from father to son as hereditary. The divers have such confidence in their powers, or spells, that they will not descend to the bottom of the deep without knowing that one of the enchanters is present in the expe- dition. Two of the " charmers " are constantly employed, one going out regularly in the head pilot's boat, while the other performs certain ceremonies on shore, such as consult- ing the auguries, which, if auspicious, ensure the divers in their perilous submarine occupations by closing the mouths of the sharks at the word of command. The " charmer " is shut up in a room where nobody can see him, from the period of the sailing of the boats until their return. He has before him a brass basin filled with water, containing one male and one female fish made of silver. If any accident should happen from a shark at sea, it is believed that one of these fishes is seen to bite the other. The divers also say that if the conjuror is disatisfied, he has the power of mak- ing the sharks attack them, on which account he is sure of receiving liberal presents daily. The Gulf of Manaar, where the pearls are found (and which separates Ceylon from the continent of India on the north-west), abounds in sharks ; and, however the divers may consider their lives " charmed," the risks are lessened by the sea-monsters being alarmed at the unusual number of boats, the noise of the crews, and the constant descending of the baskets for the shells. It is not improbable that the dark skins of the divei's are also some protection. It seems that the pearl-divers in the Persian Gulf in former times were so conscious of this advantage of color, that they were accustomed to blacken their limbs in order to baffle their powerful enemy. This is related by one of the earliest of Arabian geographers, who adds, " that the divers filled their 98 METHOD PURSUED BT CINGALESE DIVERS ears with cotton steeped in oil, and compressed their nos- trils with a piece of tortoise-shell." The pearl fishery of the Bahrem Islands (in the Persian Gulf) produces a most abundant supply of these ocean gems, the produce of a two months' season realizing nearly five hundred thousand dollars of our money. Persians are chief- ly engaged in this pursuit, and the divers belong to that nation. The method pursued by the Cingalese divers is very sim- ple. They proceed in boats to the place of operation at the season, which lasts about two months, commencing in February and ending in April. Each boat contains about twenty men, half of whom are divers, while the othfers row the boats and assist their companions in reaching the sur- face of the water after diving. Five of the divers descend at the time, and when they come up, the other five take their turn; the fatigue and exhaustion of the body is very great in continuing under water, and a minute — in some cases a minute and a half, or nearly two minutes — is about the utmost time these men can sustain their breath. Many divers suffer severely from overtaxing their powers of endur- ance, and bloodshot eyes and spitting of blood are common to them. It is to be hoped that the modern improvements in diving-bells and suitable apparatus for divers will be much more generally adopted than they have been in a few places, that life may be rendered more secure, and other dis- tressing consequences be obviated. To facilitate the descent of the diver into the water, a stone weighing about twenty pounds is suspended over the side of the boat, with a loop attached to it, in which he in- serts his foot; a bag of network is attached to his toes; his right hand grasps the rope, and after inhaling a full breath, he presses his nostrils with his left hand. He now raises his body as high as possible above the water to give force to his descent, and liberating the stone from its fastenings, mA$ .j-ja 100 SEPABAriON FROM TUB OYSTER. he sinks rapidly below tlie surface. As soon as he reaches the bottom, the stone is drawn up, and the diver, throwing himself on his face, collects into his bag as many oysters as he. can. This, on a signal, is hauled to the surface, the diver springing to the rope as it is drawn up. The sea, at the oyster-beds, is generally from twenty-four to sixty feet deep. The number of oysters thus collected varies; sometimes several thousand are obtained in one day, and at other times a few hundred only. The oysters are landed from the boats, and are placed underground to putrify, and it is amidst such a mass of corruption that the pearl, ' Purest of Nature's works," is obtained. The pearl-fishers in ancient times used to place the shells in vessels filled with salt, and leave them until all the fish were dissolved, the gems remaining at the bottom. The or- dinary operation now is, that as soon as putrification is suf- ficiently advanced, the oysters are placed in a trough, and sea-water is thrown over them. They are then shaken and washed. Inspectors stand at each end of the trough, to see that the laborers secrete none of the pearls, and others are in the rear to examine the shells thown out. The workmen are not allowed to raise their hands to their mouths while washing the pearls, lest they might attempt to swallow some. Sometimes the pearls, instead of adhering to the shells as is usually the case, are in the bodies of the oysters, which are boiled before being thrown aside as useless. The number of pearls in a shell differs: one may contain a considerable number, while hundreds are without any. To give an idea of the extent to which the pearl fishery in Ceylon has been carried for several ages, the shore in some parts of the island has been raised to the height of many feet by enormous mounds of shells, millions having been flung into heaps that extend to the distance of many miles. THE PEARL ISLANDS. 101 At the Pearl Islands, near the Isthmus of Panama, the divers use a very simple method of obtaining the oysters. They traverse the bay in canoes that hold eight men, all of whom dive in the water to a depth of from fifty to sixty feet, where they remain sometimes nearly two minutes, during which they collect all the oysters they can in their hands, and rise to deposit them in the canoes, repeating the oper- ation for several hours. In Sweden the oysters are taken with a pair of long tongs. The fishermen are in small boats, painted white on the bot- tom, which reflects to a great depth, and enables them to see the oysters and seize them. The most beautiful and costly pearls are obtained from the East, and are called " Oriental ; " the color of those found in Ceylon is generally a bluish silvery white, but they are met with of several other hues. Those from the Persian Gulf are of great purity and richness. The preparation of the pearls for market occupies a considerable number of the inhabitants of Ceylon. After being thoroughly cleaned, they are rounded and polished with a powder made of the pearls themselves, and arranged into classes according to their various sizes and quality. They are then drilled and strung together, the largest being generally sent to India, where they are highly prized, while the smaller ones are forwarded to Europe. The operation of drilling is a very delicate one, and the black people are very expert in it. It is done with a wooden machine in the form of an inverted cone, in the upper flat surface of which are pits to receive the pearls. The holes are made by spindles of various sizes, which revolve in a wooden head by the action of a bow-handle, to which they are attached. During the oper- ation (which is done by one hand, while the other presses on the machine), the pearls are moistened occasionally, and the whole is done with astonishing rapidity. As to how the pearl is formed within the 03'ster-shell, 102 HOW PEARLS ABE FORMED. is a subject that has been much debated in ancient and mod- ern tinjes. The illustrious Pliny (who died in the year 79), as one of the most enlightened of the old philosophers, says that " the pearl was produced by the dews of heaven fall- ing into the open shells at the breeding-time. The quality of the pearl varied according to the amount of the dew imbibed, being lustrous if that were pure, dull if it were foul ; cloudy weather spoilt the color, lightning stopped the growth, and thunder made the shell-fish unproductive, and to eject hollow; husks called bubbles." The same naturalist also relates a story how the shoals of pearl-03^sters had " a king, distinguished by his age and size, exactly as bees have a queen, wonderfully expert in keeping his subject out of harm's way, but if the divers once succeeded in catching him, the rest straying about blindly, fell an easy prey. Although defended by a body-guard of sharks, and dwelling amoiig the rocks of the abyss, they cannot be preserved from ladies' ears." These are very pretty and fanciful ideas, as were many fictions of the pagans, and the British poet Moore, has al- luded to them in one of his sweet melodies : — " And precious the tear as that rain from the sky Which turns into pearls as it falls in the sea." Some naturalists have suggested that pearls are the un- fructified eggs of the oyster, others that the jewel is a mor- bid concretion produced by the endeavor of the animal in the shell to fill up cavities ; the general opinion, however, seems to prevail thus : most shelly animals which are aquatic are provided with a fluid secretion with which they line their dwellings to render them smooth and polished for their tenderly-formed bodies. This fine even lining is seen in shells of every description. The fluid is laid in extreme- ly thin semi-transparent threads, which gives the interior of the shell the beautiful plaj' of color, so often observed. As CHINESE METHOD OF PBOGUBING PEARL6. 103 for the pearl in the shell, small rounded portions are formed in the lining, which are supposed to be the result of ac- cident, such as grains of sand or other substances getting into the shell, and, irritating the animal inside, causes it, by an instinct of nature, to cover the cause of offence, not hav- ing the power to remove it. As the fluid goes on regularly to supply the growth and wear of the shell, the prominences continue to increase, and being more brilliant than the rest of the shell, they become a pearl, a composition of carbon- ate of lime and a little animal matter. If a pearl is cut tranversely and observed through a mi- croscope, it will be found to consist of minute layers, resembling the rings which denote the ages of certain trees when cut in a similar manner. The Chinese, who are never at a loss for expedients, are in the habit of laying a string with five or six small pearls, separated by knots, inside the shells, when the fish are ex- posing themselves to the sun. These, after some years, are taken out, and found to be very large fine pearls. The same ingenious people also introduce into the shell of a mussel different substances such as mother of pearl, the beautiful white enamel which forms the greater part of the substance of most oyster shells, fixed to wires, which thus become coated with a more brilliant material. Another practice among the Chinese is to serve the purpose of a deception upon the credulous. They place small metal images of their god Buddha in the shells, which are soon covered with a pearly secretion, and become united to the shells. These are sold as miraculous proofs of the truth of their worship. The Chinese are also said to employ a means of procuring pearls artificially by the introduction of shot between the mouth of the animal and its shell. The pearl-oyster is not the only mollusk which produces pearls : an oyster with a thin transparent shell, which is used in China and elsewhere as a substitute for glass win- 104 PEARLS IN ANCIENT TIMES. dows, produces small pearls, as also the fresb-water mussel of England, pinna, a genus of the same family with the pearl-mussel, and even in limpets. PEARL PRODUCING SHELLS. The ancients were extravagantly fond of these beautiful jewels: necklaces, bracelets, and earrings were worn in pro- fusion ; a string of pearls was estimated by a Eoman writer at about forty thousand dollars of our money; the single pearl which Cleopatra dissolved and swallowed was valued at nearly four hundred thousand dollars ; and a similar act LARGE PEARLS. lOJ of folly is reported in later times, in the reign of Queen Eliz- abeth, when Sir Thomas Gresham, one of London's merchant princes, reduced a pearl to powder worth seventy-five thou- sand dollars, and drank it in a glass of wine to the health of his sovereign, in consequence oi a wager with the Spanish ambassador that he would give a more costly dinner than the other. Quite as absurd was the notion in former times that powdered pearls were unfailing remedies in all stomach complaints. Pearls are esteemed according to their size, color, form, and lustre : the largest, usually about the dimensions of a small walnut, are called " paragons" and are very rare ; those the size of a small cherry are next in rarity, and are called " dia- dem" or head pearls. They receive names also according to their form, whether quite round, semicircular, or drum- form, or that of an ear-drop, pear, onion, or as they are otherwise irregularly shaped. The small pearls are termed " ounce pearls," on account of their being sold by weight, and the very smallest " seed pearls." The largest pearl on record is one, pear-shaped, brought from India in 1620, by Gongibusde Calais, and sold to Philip IV. of Spain. It weighed four hundred and eighty grains. The merchant, when asked by the monarch how he could venture to risk all his fortune in one little article, replied with great tact, "because he knew there was a King of Spain to buy it of him." This pearl was said to be in the possession of the princely family of Yousoppoff, in Eussia. Runjeet Sing, the former possessor of the famous Koh-i- Noor diamond, had a string of pearls which was considered nearly equal in value to the " Mountain of Light." They were about three hundred in number, and the size of small marbles, all choice pearls, round and perfect both in shape and color. Two hours before he died he sent for all his jewels, and gave the magnificent string of pearls to a Hindoo temple. « ' V * 1 " ' ''"'-'^^ V-.-^..- '] CHAPTER VIII. ^Z ^g^^j SP02 un wieldly bulk upon the ice, when its access to shore is prevented. The speed of this animal in the water is very great, and a contrast to its sluggish appearance on the ice. Large num- bers of them crowd together on the shore, and present a curious spectacle. The moment the first lands, so as to be dry, it will not stir until another comes, and urges it forward by beating it with its great tusks ; this one is served in the same manner by the next, and so on in succession, until the whole are landed, tumbling over one another in the operation. In the voyages of the early navigators of the Arctic seas, 174 COOK'S ADVENTURE WITH THE WALHUS. they found the wah'us, hitherto a partially unmolested ani- mal, easy of capture. Stephen Bennet, the captain of the God-speed, a vessel of sixty tons, writes : " We saw a huge morse putting his head above water, making such a horrible noise and roaring, that they in the boat thought he would have sunk it." In another place they found a multitude of these monsters of the sea lying like hogs upon a heap." They shot at them in vain until their muskets were spoilt and their powder was spent, when " we would bloAV their eyes out with a little pease-shot, and then come on the blind side of them, and with our carpenter's axe cleave their heads ; but for all that we could do, of about a thousand were killed but fifteen." They filled a hogshead with the loose teeth found on the island. The navigators became more expert in their cruel onslaught upon the poor animals, for in a subse- quent voyage the same captain relates that in six hours thej' slew from seven hundred to eight hundred, not only for the sake of the teeth, but boiling the blubber into oil. They also contrived to get on board two young walruses, male and female ; the latter died on the passage, but the other reached England, and was taken to Court, " where the King and' many honorable personages beheld it with admiration." It soon, however, fell sick and died. Captain Cook, who was among the first to give anything like a distinct account of this curious animal, says : " We got entangled with the edge of the ice, on which lay an innumerable multitude of sea-horses. They were ly- ing in herds, huddled one over the other, like swine, and were roaring and braying very loud, so that in the night, or in foggy weather, they gave us notice of the vicinity of the ice before we could see it. They were seldom in a hurry to get away until after they had been fired at, when they would tumble over each other into the sea in the utmost confusion. Vast numbers of them would follow us, and come close up to the boats, but the flash of a musket in the pan, or even the 17d ENGOUNTERa WITH THE WALBU8. bare pointing of one, would send them down in an instant. We- never found the whole herd asleep, one being always on the watch. This, on the approach of a boat, would rouse the next, and the alarm being gradually communicated, the whole herd would speedily awake." The walrus is hunted chiefly for its oil and tusks; the na- tives of the northern shores esteem its flesh highly, and it is greedily eaten along with the lard and even the skin. It has been calculated that about a thousand walruses were cap- tured yearly in the seas about Spitzbergen. Though generally of a peaceful and harmless nature, yet when attacked by foes, and especially by man, these huge animals will defend and support each other with remarkable courage and fldelity, fearlessly proceeding to the rescue of an unfortunate associate, and striving even to death for its deliverance. Martens relates hraving killed some sea-horses on the ice; "the rest came all about our boat, and beat holes through the sides of it so that we took in abundance of water, and were at length forced to row away because of their great numbers, for they gathered themselves more and more together, and pursued us, as long as we could perceive them, very furiously." A similar incident is given, where a boat's crew pro- ceeded to attack two hundred of these animals, but they made almost desperate resistance ; some of them with their cubs on their backs ; and one of them tore open the planks of the boat in two or three places. Captain Phipps relates that two officers engaged in an encounter with a walrus, who, on being wounded, plunged into the water, and obtained a reinforcement of its fellows, who made a desperate attack on the boat, wresting an oar from one of the men, and had nearly upset her, when another boat came to her assistance. The afi"ection of the mother for its young is remarkable. Captain Cook, in his third voyage, says : AFFECTION OF THE WALRUS FOB ITS YOUNG. 177 " We hoisted out the boats, and sent them in pursuit of the sea-horses that surrounded us. Our people were more successful than they had been before, returning with three large ones and a young one. On the approach of our boats towards the ice, they took all their cubs under their fins, and endeavored to escape with them into the sea. Several,, whose young ones were killed or wounded, and were left float- ing on the surface, rose again, and carried them down, just as our people were going to take them into the boat, and they might be traced bearing them a great distance through the water, which was colored with their blood. We afterwards observed them bringing them up at times above the surface, as if for air, and again diving under it -with a dreadful bel- lowing. The female in particular whose young had been de- stroyed and taken into the boat, became so enraged that she attacked the cutter, and struck her tusks through the bot- tom of it. Another instance is mentioned, where, in the vast sheet of ice which surrounded the ships there were occasionally many pools, and when the weather was clear and warm, animals of various kinds would frequently rise and sport about ii> them, or crawl from thence upon the ice, to bask in the warmth of the sun. A walrus rose in one of these pools close to the ship, and finding everything quiet, dived down again, and brought up its young, which it held to its breast by pressing it with its flipper. In this manner it moved about the pool, keeping in an erect posture, and always di- recting the face of its young towards the vessel. On the slightest movement on board the mother released her flip- per, and pushed the young one under water; but when everything was quiet, again brought it up as before, and for a length of time continued to play about the pool, to the great amusement of the sailors." Man is not the only assailant of the sea-horse. On land its especial foe is the great Polar bear, and between these 178 BATTLES OF TEE WALRUS AND POLAR BEAR. animals there are often terrible battles. On these occasions the tusks of the walrus stand in good service, for they man- age, usually, to beat off the grizly enemy, though at the cost of many severe wounds. An amusing instance is given of the cunning displayed ■ by Bruin in his chase after the walrus : " One sunshiny day, one of these animals, about ten feet in length, rose in a pool of water not very far from us, and after looking round, drew his greasy carcass upon the ice, where he rolled about for a time, and at length laid himself down to sleep. A bear which had probably been observing his movements crawled carefully upon the ice on the opposite side of the pool, and began to roll about also, but apparently more from design than amusement, as he progressively lessened the distance that intervened between him and his prey. The walrus, suspicious of his advances, drew him. self up preparatory to a precipitous retreat into the water, in case of a nearer acquaintance with his playful but treach- erous visitor. On this the bear became instantly motionless, as if in the act of sleep, but after a time began to lick his paws and clean himself, encroaching occasionally a little more upon his intended prey. But even this artifice did not succeed : the wary walrus was far too cunning to allow him- self to be entrapped, and suddenly plunged into the pool, which the bear no sooner observed than he threw off all disguise, rushed toward the spot, and followed him in an in- stant into the water, where he was as much disappointed in his meal as we were of the pleasure of witnessing a very interesting encounter." At sea, the sword-fish is the most nimble and fiercest ene- my of the walrus. We should scarcely imagine from the uncouth and heavy appearance of the animal that it would exhibit any striking traits of intelligence ; but it seems that when young it is not difficult to domesticate. Lament men- tions having seen one about the size of a sheep on board a TEE SEA UNICORN. 179 Norwegian vessel, and the most comical facsimile imagin- able of an old walrus. It had been taken alive after the harpooning of its mother, and was as playful as a kitten. It was a great favorite with all on board, and the only thing annoyed it was pulling its whiskers. Another tusky inhabitant of the Arctic seas is the Nar- wahl, or Monodon, or what is popularly called the Sea-Uni- corn, also an animal of the Mammalian order, about sixteen feet long and eight feet in circumference. In appearance the narwahl resembles a small whale, but with the addition of two long, straight, and pointed tusks, like spears, spirally twisted, directed forwards, and differing in length, the left one being about seven feet and a few inches, and the right one seven feet. It frequently happens, however, that only one of these tusks grows, and the other, somehow strangled, remains shut up in the bone like a nut. This will account for the appellation given to the narwahl of the "sea-unicorn." These tusks are of a whiter and harder substance than ivory. The Kings of Denmark possess a magnificent throne in the Castle of Rosenberg made of this material. In former times, when the origin of the horns of this animal was not well known, they were supposed to possess miraculous powers for healing diseases. The monks, in partic- ular, fostered the delusion, and pretended that every ill under the sun could be removed by their power. The narwahl has no true teeth in either jaw ; the mouth is small and the lips are stiff, but it is able to catch and swallow so large a fish as the skate, the breadth of which is nearly three times as much as the width of its own mouth. It seems probable, however, that the horn serves them in this need, the fish being pierced with it, and killed before devoured. It is used, also, in dig- ging sea-plants from the rocks at great depths, in order to drive from their retreats the shrimps and other animals on which the narwahl feeds. The tail is about twenty inches long and four feet broad. It has no dorsal or back fin, but FIGHT WITH WALRUS. HABITS OF THE SEA UmCOBN. 181 in place of it there is an irregular, sharp, fatty ridge, two inches in height, extending between two and three feet along the back, nearly midway between the snout and the tail. The prevailing color of the animal is bluish-gray on the back, variegated with numerous dark spots, with paler and more gray marks on a white ground at the sides. In old sea-horses the color is wholly white, or yellowish-white, with dark-gray spots. They are quiet and inoffensive in their habits, and swim with great rapidity. When respiring on the surface of the water, after blowing repeatedly, they frequently lie motionless for several minutes with the back and head just appearing above water. When harpooned, they dive to a con- siderable depth, and on returning to the surface for respira- tion, are readily killed in a few minutes with the lance. Near the coast they are always seen in flocks in the severest win- ters. The Glreenlanders drive them with their sledges to fissures in the ice, where they are dispatched. The blubber, enwrapping the whole body, is from two to four inches in thickness. When a number of sea-horses are together, they divert themselves in gambols, when, their horns appearing above the water, as if brandished about like weapons, have a singu- lar effect, and the clattering noise they produce, with a kind of gurgling sound of the animals themselves, would lead one to suppose that some hostile proceedings were going on; but it is merely a playful movement of instruments which, if ag- gressively employed, would be dangerous. The force with which the narwahl urges its speed may be conceived by the circumstance that its tusk has been sometimes found driven through the planks of vessels. CHAPTER XIY. NAUTILI TME FLOATING NAVIGATORS OF THE OCEAN. " Spread, tiny nautilus, the living sail, Dive at tliy choice, or brave the freshening gale If unreprov'd the ambitious eagle mount Sunward, to seek the daylight in its fount, Bays, gulf, and ocean's Indian widths shall be Till the world perishes a field for thee." — Wordsworth, jMONG the most interesting and poetical illus- trations of tlie wonders of the ocean are the singular floating animals, of which the Nauti- lus — called by Byron "the ocean Mab," "the Fairy of the Sea" — will be, undoubtedly, familiar to j'ou from the great beauty of its shell, which renders it a favorite ornament in many houses. Very interesting stories and verses have been written on the sailing and rowing habits of these curious animals ; and their appearance, when seen skimming the water, would strongly favor such ideas. The Dutch naturalist, Rumphius, in giving an account of the rarities at Amboyna, the princi- pal of the Molucca islands, says : " When the nautilus floats on the water, he puts out his head and all his tentacles, and spreads them upon the water ; but at the bottom he creeps in a reversed position, with his boat above him, and with his ' head and tentacles (feelers) on the ground, making a toler- ably quick progress. He keeps himself chiefly on the ground, creeping also, sometimes, into the nets of the fisher- men ; but after a storm, as the weather gets calm, they are seen in troops, floating on the water, being driven up by the THE NAUTILUS. 184 THE PAPER NAUTILUS. agitation of the waves. This sailing is not, however, of long continuance, for having taken in all their tentacles, they upset their boat and so return to the bottom. Until a comparatively recent period, very little was known of the nautilus ; for, although shells were plentifully found on the shores of the warm seas it inhabits, the fish itself, living chiefly at the bottom of the sea, creeping like a snail, or lying in wait for runaway crabs or suchlike food, was diflScult to obtain. However, a specimen was captured by Mr. Bennett, a naturalist, at the New Hebrides, and the great naturalist, Professor Owen, described the fish in a valuable memoir. The specimen is still preserved in the museum of the Royal College of Surgeons, in London. Little could be known from the shell itself; but here was the tiny navigator of the ocean, that would ride out a storm in which the strongest man-of-war might founder, revealed in all its most curious mechanism : the oars and aerial sails — disap- pearing, to give place to its real method of propulsion. The Paper Nautilus has eight tentacles, and one pair of these expand at their extremities into broad and thin mem- branes, which compose a web of several sorts of fibres, inter- woven for the wrapping up of some parts, the fibres giving them an elasticit}' by which they can contract and grasp the parts they contain — whence the fable received through so many ages, of its sails ; the membranous arms of the fish are the organs for secreting and repairing the shells. The functions of the supposed sails of the paper nautilus were determined by an experiment. One of the "sails "was cut off in several living specimens, the right sail \)eing removed in some, the left in others ; and the creatures were then kept in a submarine cage, and supplied with food. Some of them survived the operation for four months, when it was found that the shell had grown only on that side on which the membranous arm had been preserved ; thus show- A WONDERFUL BUILDER. 185 ing the animal to be the builder of its own habitation, and that the expanded arms do not serve the purposes of sails. The real rower on the ocean is the beautiful little blue and silver shell-fish, the Olaucus, also a tenant of the warm seas, who swims with great swiftness by aid of its conical and oar-like appendages. A wonderful builder is the nautilus, as may be seen by the chambers it fashions for its own accommodation ; for the shell is divided into partitions, and as the animal increases in size it forms another and larger apartment proportionate to its growth, leaving the others empty as it proceeds, until, satisfied with its labors, it becomes the occupant of the highest chamber, though still communicating with the cham- bers it has abandoned, by means of a membranous tube which passes through the centre of each, enabling the nau- tilus bj' throwing air or gas into the empty chambers, or by exhausting them of air, to rise or sink into the water at will. How truly wonderful is the intelligence displayed by the tiny nautilus in its chambei-ed dwelling 1 " These beau- tiful arrangements," Dean Buckland once remarked, " are and ever have been subservient to a common object — the construction of hydraulic instruments, of especial importance in the economy of creatures destined to move sometimes at tlie bottom, and at other times upon or near the surface of the sea. The delicate adjustments whereby the same prin- ciple is extended through so many grades and modifications of a single type, show the uniform and constant agency of some controlling intelligence ; and in searching for the origin of so much method and regularity amidst so much variety, the mind can only rest when it has passed back through the subordinate series of second causes to the great First Cause, which is found in the will and power of a great Creator." The Pearly Nautilus, thus named from the shell being lined with a la3'er of the most beautiful pearlj" gloss, inhabits tlie Indian and Pacific Oceans. Nothing can exceed the 186 THE ARGONAUT. pure loveliness of this "gem of the deep;" the interior being white, like the finest porcelain, and streaked with red- dish chestnut. It is highly prized in, Eastern countries, where it is made into drinking cups. The Chinese are par- ticularly expert in manufacturing it into various ornaments. There are other floating navigators of the deep ; among others, the Snail-slime-fiskes, which frequent the Arctic seas, and are found in immense quantities on the coast of Spitz- bergen. The shell is the boat of this animal, which it rows through the water by a dip of its raised fins. In this act the open extremity of the shell is its prow, the opposite end occupies the place of a poop, and the margin of the body resembles and performs the office of a keel. A writer says : " I have often seen it with admiration and pleasure. He can move in a retrograde manner. When weary with row- ing, or when touched, the little boatman contracts his oary fins, and drawing within the shell, sinks to the bottom,, where he rests for a short time. Then again he rises up- wards, rowing obliquely until the surface is attained, when his course is held in a straight line over the trackless surge. When taken out of the shell, although without injury and in the water, he immediately dies." Before quitting the nautilus, we may add, that the shells of this " ocean navigator" abound in the coral seas, and are cast on shore in such profusion, that many tons' weight are collected at New Caledonia and the Fiji Islands, and are con- veyed to Sydney. The young shells when polished obtain a high price. The Argonaut differs from the true nautilus, inasmuch as the shell is not divided into chambers, but has one spiral cavity, into which the animal can entirely withdraw itself. From the disproportionate size of the last whorl (a wreath or turning of the spires of univalves, or shells of one piece only), it has some resemblance to a canoe, the spire repre- senting *ihe poop. If the waves rise or danger threatens. THE SEA BLADBEB. 187 the argonaut withdraws all its arms into the shell, contracts itself there, and descends to the bottom. The body does not penetrate within the spire of the shell, nor does it adhere to it; at least, there is no muscular attachment, which led to the supposition that it occupied a shell belong- ing to some other animal. This freebooting stigma does not belong to the argonaut, for experiments have proved that the animal is its own builder, and consequently a rightful tenant of his mansion. There is a curious and highly interesting floating object to which we may call the reader's attention, the Sea-Bladder, called by seamen the " Portuguese man-of-war, and by the French sailors the "galley" or "frigate." This singular zoophyte, or animal plant, for it combines the two natures, is seen floating, sometimes singly, at other times in vast num- bers, in the tropical seas, and attracted the attention of naturalists from a very early period. The notion of its sailing properties may have arisen in consequence of the crest which it has the power of erecting along the ridge of his back, which, when caught by the wind, assumes somewhat the appear- ance of a natural sail, by means of which it seems enabled to glide over the surface of the ocean. This, however, is not the case, as the creature does not move by this means, nor does it appear to possess the power of imparting any special direction to its course, which is entirely at the mercy of the wind and waves. The body itself, upon which the ridge or crest erects itself, is of a slight half-transparent character, and has somewhat the appearance of an unusually solid soap- bubble, glistening with a more than ordinary amount of various colored hues. Mr. Bennett describes this body as of delicate crimson tints, as he saw it floating on the waves. There are also veinings of rich purple, and opaline flashes of azure, orange, and green, changing in color at every movement ; and its 188 GREAT BEAUTY OF SEA BLADDERS. long dependant tentacles or feelers are of the deepest purple. Dr Collingwood mentions having observed these splendid zoophytes in the Atlantic Ocean, near the equator, sailing by from time to time during the day, and attracting atten- tion by their large size and brilliant color. "They had the appearance of beautiful prismatic shells, standing upright on a rich blue cushion, the cell being radiated from the base or cushion to the circumference, which was fringed with a rich and bright rose color." He captured several specimens, and the largest measured in the bladder eight inches, and the greatest vertical circumference ten inches and a quarter, The long dependant tentacles or feelers are from four to five feet in length, and are capable of being extended much farther when shot off for the capture of prey. But the glory of these magnificent objects, so developed in their native element, fades, like sea-weeds, as the zoo- phyte is taken from its watery home, with the exception of the long tentacles, which retain their color (dark purple) until decomposition takes place. " There is no rose without a thorn," is a well-known saying ; and this gaily-colored zoophyte has a dangerous stinging property to those who handle it incautiously. An instance is related of a sailor seeing one within reach from a boat, who took it up with his naked hands ; the threads or elastic tentacles clung to his arm, causing the man to yell with agony. He was quickly brought on board, and ran about like a maniac, requiring several men to hold him. When secured, and the proper remedies applied, he rolled about for some time groaning with pain; his arm was red, inflamed, and swollen, and remained so for some hours. Its earliest modern name of " sea-nettle" is derived from that conferred upon this class of marine creatures by Aris- totle, in consequence of the burning sting caused by the poisonous tentacles or feelers of several members of this THE AMMONITE. 189 group ; a sting which leaves after it a white pimple, like that caused by a nettle. A remarkable interest is attached to the nautilus from the very remote periods of time to which it can be traced ; fossils being found in the most ancient rocks in which shell animals have been discovered, in various parts of the world, living ages before the Flood in temperate and tropical seas. In the London clay, which forms such a large extent of the substratum of the great metropolis, lie buried vast numbers of the pearly shells of the nautilus, which, evidently at a great distance of time, found in that country a congenial climate and home. The largest British specimens of the fos- sil nautilus occur in the carboniferous limestone, and speci- mens of these are preserved in the British Museum more than a yard in length, and thick in proportion. In the museum of the Royal College of Surgeons, in London, is a specimen of the entire animal, soft parts and shell, of the pearly nautilus : a portion of the shell has been removed to show some of the chambers, and the membranous tube or syphon which traverses them. There is also a specimen of the paper nautilus suspended as when floating, with the expanded membranous arms in their natural posi- tion spread over the shell which they form 'and repair. Resembling somewhat in appearance the nautilus, the shell being chambered and spiral, but differing otherwise in some respects, was the primitive navigator of the ancient seas, the ammonite, of which the shells now only remain, the most beautiful of all our fossils, and found in almost every country in the world, upwards of two hundred species hav- ing been described. The name is derived from a fancied resemblance of its shell to the ram's horn ornaments on sculptured heads of Jupiter Ammon. They are of very different sizes, varying to even three or four feet in diameter. The larger ones were formerly taken for petrified snakes, aud were found in great numbers at Whitby in Yorkshire. 190 FLOATING SHELLS. Sir Walter Scott alludes to this popular superstition in his poem of "Marmion," where the nuns of Whitby exultingly told " How of thousand snakes, each one Was changed into a coil of stone When holy Hilda pray'd." The visitors to Whitby are still invited to buy a pet- rified snake, and to add to their natural appearance, the mouth of the ammonite is carved into a head, and eyes are introduced made of colored glass. The ammonite,with a shell a yard across,would have been an animal large in proportion to its body-chamber, and requiring a certain amount of water to be displaced by its shell, to move at ease along the bottom of the sea in search of its food. The shell of the ammonite,though of the same flat character as that of the nautilus, appears to have been much thinner; but, to compensate for this, there were flutings which are seen in the surface, occasioned by the transverse ribs. The round knobs or bosses studding some of the am- monites were like gems on a diadem, adding strength as well as beauty to their form. The whorls or wreaths of the shell were rounder and more in number than that of the nautilus, and the tubes — the hydraulic instinct by which the chambers were supplied with air, or exhausted, for the as- cent or descent of the animal — instead of running through the cells like that of the nautilus, went round the chambers of the ammonite. How strange are the vicissitudes of all created things ! While some survive the shocks and rents of time, others are known only as fossil memorials of the primitive world. The nautilus still rides on the crest of the ocean waves, but the ammonite — long, long since removed from the element in which it lived — only remains as a petrifaction to tell of its existence in ages before the Flood. We also mention the little floating Pterqpoda or Wing- GlfiAXTIC CUTTLE FfSH. 192 CUTTLE FISH. shells, the inhabitants of Avhich pass their entire life in the sea far away from any shelter except that afforded by the floating Gulf-weed, and whose organization is peculi- ary adapted to that sphere of existence. In appearance they strikingly resemble the fry of the ordinary sea-snails, swimming, like them, by the vigorous flapping of a pair of fins. To the naturalist on shore they are almost unknown, but the voyager on the great ocean meets them where there is little else to arrest his attention, and marvels at their delicate forms and almost incredible numbers. They swarm in the tropical, and no less the Arctic seas, where by their myriads, the water is discolored by them for leagues. They are seen swimming on the surface in the heat of the day, as well as in the cool of the evening. In high latitudes they are the principal food of the whale and of many sea- birds. Another floating inhabitant of the deep is described as the beautiful lantliina or Ocean-Snail, which is quite blind, and has large horny jaws, furnished with sharp, curved, slender teeth. This animal is remarkable for floating shell down- wards in the water, and the anterior part of the foot forms a shallow cup, which embraces the smooth anterior rounded part of the float. Thus the fish can raise or lower itself in the water at pleasure. When it wishes to bring its head to the surface of the water, this part of the foot is made to glide over the back of the float. The floats are made of a mucous film containing air ; and when cut with scissors, the animal descended to the bottom of the vessel in which it was consigned, and did not make a new one. The nautili belong to a class called Cephalopoda, so named from the singular attachment of the feet to the head — locomotive organs employed as oars or feet when moving along the bottom of the sea, and consisting of a circlet of muscular arms or tentacles, in addition to which many of this class have fins. To this same definition of Linnasus CUTTLE FISH DESCRIBED. 193 belong the Cuttle-fish, the bony scale on the back of which is employed for making pounce, tooth-powder, for polishing, and other purposes in the arts. The common cuttle-fish is abundant on the English coasts. Its skin is smooth, whitish, and dotted with red. It attains the length of a foot or more, and is one of the pests of the fishermen, devouring partially the fish which have been caught in their nets. The eggs of the cuttle-fish are frequently cast on shore clustered together. Singularly in- teresting is the study of these creatures, which are provided with means of escaping danger, in their ink-bags, from which they can at will emit a fluid, darkening the water and thus enabling them to get off. This natural ink of the fish is employed in painting ; Cicero tells us that it was anciently used for writing with. Another property possessed by this class of animals is, that if any of its tentacles or feelers are bitten off, which is often the case — the conger eel having a special relish for the dainty morsel — others supply their place, the power of reproduction being given to them. The whale also regales on the cuttle-fish, and the plaice tribe have the same partiality. The most common species form the bait with which one-half of the cod taken at Newfoundland are caught. The general description of the cuttle-fish may be thus described: the body oblong, or longer than broad, and depressed, sac-like, with two narrow lateral fins of similar substance with the mantle (the outside skin of shell-fish, which covers a great part of the body, like a cloak). There is an internal shell lodged in a sac on the back part of the mantle, somewhat oval and bladed-shaped, being compar- atively thick near the anterior end, where it is terminated by a sharp point, affixed, as it were, to its general outline. The whole shell is light and porous, and is formed of thin plates, with intervening spaces, divided by innumerable 194 STORIES RESPEGTINQ THE CUTTLE FISH. partitions, and consists chiefly of carbonate of lime, with a little gelatinous and other animal matter, which is most abundant in the internal harder part of the shell. The eyes are very large, and the head is furnished with eight arms, each of which has four rows of suckers and two long tenta- cles, expanded and furnished with suckers on one side at the extremity. Cuttle-fish are enabled to leap out of the water by the sudden extension, not of their tails, but of their nu- merous arms, or other processes from their bodies. In hot climates some of the species of cuttle-fish grow to a prodigious size, and are furnished with a fearful apparatus of arms with suckers, by which they can rigidly fasten upon and convey their prey to the mouth. In the eight-armed species which inhabit the Indian seas these tentacles are said to be no less than nine fathoms in length. Extraordinary stories have been related of these animals. Pliny mentions the head of one which was as large as a cask, the arms thirty-six feet long. They are described as first darting from side to side in the pools, and fixing themselves so tenaciously to the surface of the stones that great force was required to remove them. When thrown upon the sand, they progressed rapidly in a sidelong shuffling man- ner, throwing about their long arms, ejecting their inky fluid in sudden violent jets, and staring about with their shining eyes in a grotesque and hideous manner. As food it was highly prized by the ancients, and is still much esteemed in some parts of the world. It is regularly exposed for sale in the markets at Naples, Smj^rna, and in the bazaars of India. In a curious Japanese book there is a picture of a man in a boat engaged in catching cuttle-fishes with a spear ; and also a fishmonger's shop in Japan, where a number of enormous cuttle-fishes are represented hanging up for sale. Columbus describes the mode of fishing with the cuttle- fish pursued in his time by the natives of Santa Marta: FISHING WITH THE CUTTLE FISH. 195 " They had a small fish, the flat head of which was furnished with numerous suckers, by which it attached it- self so firmly to any object as to be torn in pieces rather than abandon its hold. Tying a line of great length to the tail of this fish, the Indians permitted it to swim at large. It generally kept near the surface of the water until it per- ceived its prey, when, darting down swiftly, it attached itself by its suckers to the throat of a fish, or to the under shell of a tortoise, nor did it relinquish its prey until both were drawn up by the fisherman, and taken out of the water." In this way the Spaniards witnessed the taking of a tortoise of immense size, and Fernando Columbus himself af&rms that he saw a shark caught in this manner on the coast of Veragua. This account, strange as it may seem, has been corrob- orated by various navigators, and the same mode of fishing is said to be employed on the eastern coast of Africa, at Mozambique, and at Madagascar. The South Sea Islanders have a curious contrivance for taking the cuttle-fish, which resort to the holes of the coral rocks, and protrude their arms or tentacles for the bait, but remain themselves firm within the retreat. The instrument employed for taking them consists of a straight piece of. hard wood, a foot long, round and polished, and not half an inch in diameter. Near one end of this a number of the most beautiful pieces of the cowry or tiger-shell are fastened, one over the other, like the scales of a fish or the plates of a piece of armour, until it is about the size of a turkey's egg, and resemble the cowry. It is suspended in an horizontal position by a strong line, and is lowered by the fisherman from a small canoe until it nearly reaches the bottom. The fisherman th-en gently jerks the line, causing the shell to move as if it were inhabited by a fish. The cuttle-fish, attracted, it is supposed, by the appearance of tbe cowry 196 BELONGED TO A PERIOD BEFORE THE FLOOD. (for no bait is used), darts out one of its arms, which it winds round the shell and fastens among the openings between the plates. The fisherman continues jerking the line, and the fish puts out successively its other arms until it has fastened itself to the shells, when it is drawn up into the canoe and secured. DEVIL FISH. In conclusion, we will mention that the cuttle-fish belongs to a period before the Flood, like the nautili ; their undi- gested fossil remains are frequently noticed within the ribs of the Ichthyosauri and Plesiosauri in the limestone rocks, showing that then, as in the present day, to eat and to be eaten was the general law of nature. CHAPTER XV. MODES'VF FISHING IN VARIOUS UOUNTBIES. ' ' A thousand names a fisher might rehearse Of nets intractable in smoother verse." — Oppian. THE space devoted to this subject here must of necessity be brief. It will therefore be understood by the reader that many impor- tant and interesting details will have to be omitted. Though, as announced by the heading of this chapter, it is proposed to consider the manner of catching fish ; this cannot be done without treating to some extent of the fish themselves, and the implements employed. This at once opens up a subject so extensive and varied, and withal so desirable to know and enjoy, that we have been somewhat embarrassed as to just what it would be desirable to omit in the list of de- scription. It will be noticed that the American fisheries have not been given the importance here that their magnitude would seem to demand. Of course, this omission has been pur- posely, and we believe the reader will decide, before he has finished reading this chapter, wisely made. In the first place, it is not proposed to present a compendium of dry, and, to some extent, uninteresting facts ; and, secondly, we have deemed it best not to cumber these pages with descrip- tions of what many of our readers daily see and are therefore familiar with. On the contrary, we have in our illustrations compared primitive modes of fishing in foreign latitudes. 198 USE OF NETS FROM THE EABLlSST PERIODS. with the more modern appliances, and, to some extent, European methods with our own. By this plan our matter must certainly be more picturesque, vivid, and interesting. The use of nets for entrapping the finny inhabitants of the deep date from the earliest periods. Besides the frequent mention of them in the Holy Scriptures, we find illustrations in the bas-reliefs of Assyria, Greece, and Rome, and in the mural or wall paintings of Egypt. The latter nation delighted in fishing, and, not contented with the abundance afforded by the Nile, they constructed in their grounds spacious sluices or ponds for fish, like the vivaria of the Romans, where they fed them for the table, and amused themselves by angling. The fishermen, who composed one of the sub-divisions of the Egyptian castes, generally used the net in preference to the line. The ancients entertained a number of prejudices relative to. the wholesomeness or injurious qualities of certain fish. The priests in Egypt were prohibited from eating fish of any kind. For fear of leprosy, the people also were forbidden the use of any fish not covered with scales. Moses adopted the same prin- ciples with the Jews : " Whatever hath fin or scales in the water in the seas, them shalt thou eat; whatever hath no fins or scales in the waters, that shall be an abomination to you." The Greeks and Romans used nets ; trawling at sea was also a favorite mode of angling, and harpoons were in gen- eral use, by means of which many large fish Avere secured. Some mosaics discovered at Palestrina represented men engaged in taking fish out of a ready decoy by means of small hand-nets. Arrian, in his " Indian History," mentions a people on the coasts of the Persian Gulf, who had nets capable of covering a quarter of a mile of sea, not made of twine, for hemp and flax were unknown in the land, but of the inner bark of palm trees, being, in fact, papyrus nets. In the dialogues composed by Elfric to instruct the Saxon VARIOUS DESURIPTIONB OF NETS. 199 youths in the Latin language, which are yet preserved in the Cottonian manuscripts, a fisherman is asked how he secures his prey, and he answers, " I ascend my ship and cast my net into the river ; I also throw in a hook, a bait, and a rod ;" which shows that in the earliest periods of the history of that country, nets of various kinds were employed for entrapping fish; indeed, although St. Wilfred is said to have taught the people of Sussex the use of the net (probably an improved kind), such means have been em- ployed in different ways from remotest times. Until- late years fishing nets have always been made by hand, and generally the thread has been a more or less thick twine of hemp, or flax, the thickness of the twine and the size of the mesh depending upon the kind of fish for which it was made ; recently, however, great improvements have been made in the manufacture of nets, and machinery of the most beautiful minute kind has been invented for the purpose. A great variety of nets are in use among fishermen, but the principal are the seine, trawl, and drift nets. The first is a very long but not very wide net, one side of which is loaded with pieces of lead, and consequently sinks; the other, or upper, is buoyed with pieces of cork, and is consequently kept on the surface of the water. Seines are sometimes upwards of a thousand feet in length. When stretched out they constitute walls of network in the water, and are made to enclose vast shoals of fish. The trawl is dragged along the bottom of the sea by the fishing-boat ; and the drift-net is like the seine, but is not loaded with lead, and is usually employed for mackerel fishing. In the two fishery exhibi- tions at Arcachon and Boulogne in Prance, several years ago, a uumber of curious implements for the capture of the inhabitants of the deep were shown. In one corner were curious tongs for taking eels. Long stretches of netting for the sardine fishery, woven with thread so fine that it might be used for the manufacture of ladies' hose, Avere festooned 200 FiaHING BT THE ELECTB.IO LIGHT. over a division of the buildings. At another place was a leech-lifter, and near it were deadly traps for taking crabs and lobsters. Prom the roofs hung stretches of Scotch-made herring-nets, by far the best of their kind ; and with such a wall of meshes floating in the sea as these nets present to the fish, each stretch being about a mile long, and with a fleet of a few hundred boats nightly centered on some well known fishing-ground, the wonder is, not that fishes are scarce and dear, but that a single herring could escape. In 1864 an attempt was first made to fish by the electric light at Dunkirk, on the coast of France. A magneto-elec- tric machine was afterwards employed. The light was constant at one hundred and eighty feet under water, and it extended over a large surface. As soon "as the submarine lantern was immersed, shoals of fish of every description came to sport in the illuminated circle, ■w'hile the fishermen outside of it spread their nets from the boats. The light illuminating the deep sea, the fish arriving in shoals, at- tracted by the fictitious sun, the boats at the edge of the lighted circle, the deep silence interrupted only by the grating of the electro-magnetic machine, formed altogether an imposing sight. Before leaving this part of our subject, we may notice a curious invention stated in Rymer's " Fcedera," for which Charles I. granted a patent in 1632 to a physician, " for a fish-call or looking-glass for fishes in the sea, very useful for fishermen to call all kinds of fishes to their nets." A singular method of getting fish is that in which other animals are employed for the purpose. Birds are thus trained by the Chinese. Falcons are not more sagacious in the pursuit of their prey in the air than in another element. They are called alvoau, and are about the size of a goose, with gray plumage, webbed feet, and have a long and slen- der bill, crooked at the point. Their faculty of diving, or remaining under water, is not more extraordinary than that BIRDS TRAINED TO FISII. 201 of many other fowls that prey upon fish, but the wonderful circumstance is the docility of these birds in employing their natural instinctive powers at the command of the fishermen who possess them, in the same manner as the hound, the spaniel, or the pointer submit their respective sagacity to the huntsman or the fowler. The number of these birds in a boat is proportioned to the size of it. At a certain signal they rush into the water and dive after the fish, and the moment they have seized their prey, they fly with it to their boat, and though there may be a hundred of these vessels together, the birds always return to their own masters; and amidst the crowd of fishing-junks which are sometimes assembled on these occasions, they never fail to distinguish that to which they belong. When the fish are in^ great plenty, these astonishing purveyors will soon fill a boat with them, and will sometimes be seen flying along with a fish of such size as to make the beholder suspect his organs of vision ; and such is their sagacity that when one of them hap- pens to have taken a fish which is too large for a single fal- con, the rest immediately lend their assistance. While they are thus laboring for their masters, they are prevented from paying any attention to themselves by a ring which is passed round their necks, and is so contrived as to frustrate every attempt to swallow the least morsel of what they take. They eat thankfully what is afterwards given them in reward. One of the old domestic sports of the Earls of Monteith, in their island home of Talla, was fishing with geese. A line with a baited hook was tied to the leg of a goose, which was made to swim in water of proper depth. A boat well filled escorted this formidable knight-errant. A marauding fish would take hold of the bait, and put his mettle to the test. A combat ensued, in which, by the dis- play of both contending heroes of much strength and agility the goose always came off victorious, and would drag his prisoner to the boat in triumph. 202 CLEVER TBIOKS OF THE CHINESE FISHERMEN. No nation on the earth puts in practice a greater variety of modes for catching fish than the Chinese. One method is to nail on each side of long narrow boats a plank two feet broad, covered with white shining japan, aud placed by a gentle inclination so that its lower edge just touches the surface of the water. This device is used at night, with the intent that the reflection of the moon should increase its de- ceptive influence ; and whether the fish which are sporting around are dazzled by the splendor, or merely mistake the lustrous plank for the sparkling water, it is impossible to say, but in their moonlight gambols great numbers either fall on the plank and are secured, or fairly vault into the body of tlie boat. In some places the Chinese soldiers have acquired the dextrous art of shooting fish with bows and arrows. To the arrow a long piece of packthread is attached, by means of which, when the fish is pierced, it is drawn to hand. In other places the muddy bottom is so replenished with the finny tribes, that men standing up to the waist in the water strike them with sticks. Besides these various devices, another is in general use, and consists in stretching out a net on four pieces of bamboo suspended by a long pole. The South Sea islanders are expert fishermen, and their methods for the capture of the finny tribe are numerous, and some very ingenious. They have a singular mode of taking a remarkably timorous fish, which is called the needle, on account of its long, sharp head. A number of rafts are built, each about fifteen or twenty feet long, and six or eight wide. At one edge a kind of fence or screen is raised four or five feet by fixing the poles horizontally one above the other, and fastening them to upright sticks placed at short distances along the raft. The men on the raft go out at a distance from each other, enclosing a large space of water, having the raised part or frame on the outside. They gradually approach each other till the rafts join, and form a MODE OF FISHING OF SOUTH SEA ISLANDERS. 203 connected circle in some shallow. One or two persons then go in a small canoe towards the centre of the enclosed space, with long white sticks, which they strike in the water with a great noise, and by this means drive the fish towards the rafts. On approaching these the fish dart out of the water, and in attempting to spring over the raft, strike against the raised fence on the outer side, and fall on the surface of the horizontal part, when they are gathered into baskets or canoes on the outside. In this manner great numbers of these and other kinds of fish, that are accustomed to spring out of the water when alarmed or pursued, are taken with facility. Fishing-nets are remarkably well made, and those for casting are used with great dexterity, generally as the islanders walk along the beach. "When a shoal of small fish appear, they throw the net with the right hand, and some- times enclose the greater part of them. Next to the net the spear is most frequently used. This is darted at the fish, sometimes with one hand, but more frequently with both, and very successfully. When fishing on the reefs, they wear a kind of sandal made of closely- netted cords of the cloth plant, to preserve their feet from the edges of the shells, the spikes of the sea-urchins, etc. It would be interesting to gaze upon a group of fishermen standing on a coral reef or rock, amidst the roar of the billows, .and the dashing surf and foam that broke in mag- nificent splendor around them. With unwavering glance they have stood, with a little basket in one hand and a pointed spear in the other, striking with unerring aim such fish as the violence of the wave might force within their reach. The shell, or shell and bone hooks, are curious and use- ful, answering the purpose of hook and bait, the small ones being made circular, and bent so as to resemble a worm ; but the most common one is that used in catching dolphins, albicores, and bonitos. The shank of the hook is made with 204 IN&ENlOUa ARTS IN FISHING. a piece of the mother-of-pearl shell, five or six inches long and three-quarters of an inch wide, carefully cut and finely polished, so as to resemble the body of a fish. A barb is fastened by a firm bandage of finely twisted flax; to the lower part of this the end of the line is securely fastened. When taken out to sea, the line is attached to a strong bam- boo cane about twelve or fifteen feet long. When a shoal of fish is seen, the natives who angle, sit in the stern of the canoe, and hold the rod at such an elevation as to allow the hook to touch the edge of the water, but not to sink. When the fish approach it, the rowers ply their paddles briskly, and the light bark moves rapidly along. The deception of the hook is increased by a number of hairs or bristles being attached to the end of the shell, so as to resemble the tail of a flying-fish. The victims, darting after and grasping their prey, are at once secured. During the season two men will sometimes take twenty or thirty large fish in this way in the course of the forenoon. The most ingenious method, however, of taking these large fish is by means of a mast. A pair of ordinary-sized canoes is usiially selected for this purpose, and the lighter and swifter the more suitable they are esteemed. Between the fore part of the canoes a broad, deep, oblong kind of basket is constructed with the stalks of a strong kind of fern, interwoven with tough fibers of a tree : this is to contain the fish that may be taken. To the fore part of the canoes a long curved pole is fastened, branching in opposite directions at the outer end ; the foot of this rests in a kind of socket fixed between the two canoes. From each of the projecting branches lines with pearl-shell hooks are suspended, so ad- justed as to be kept near the surface of the water. To that part of the pole which is divided into two branches strong ropes are attached ; these extend to the stern of the canoe, where they are held by persons watching the seizure of the hook. The tira, or mast, projects a considerable distance THM GANDLE FISH. 205 beyond the stern of the canoe, and bunches of feathers are fastened to its extremities. This is done to resemble the aquatic birds which' follow the course of a small fish. As it is supposed that the bonito follows the birds with as much ardor as it does the fishes, when the fishermen perceive the birds they proceed to the place, and usually find the fish. The undulation of the waves occasions the canoe to rise and sink as they proceed, and this produces a corresponding action in the hook suspended from the mast; and so com- plete is the deception that if the fish once perceives the pearl-shell hook, it seldom fails to dart after it, and if it misses the first time is almost sure to be caught the second. As soon as the fish is fast, the men in the canoe, by drawing the cord, hoist up the mast and drag in the fish, suspended as it were from a kind of crane. When the fish is removed, the crane is lowered, and as it projects over the canoe the rowers hasten after the shoal with the greatest speed. These and a variety of other methods of fishing are pur- sued by daylight, but many fish are taken by night. Some- times the fishei-y is carried on by moonlight, occasionally in the dark; but fishing by torchlight is the most picturesque. The torches are bunches of dried reeds firmly tied together. Sometimes the natives pursue their nocturnal sport on the reef, and hunt the hedge-hog-fish. Large parties often go out^to the reef and it is a beautiful sight to see a long line of rocks illuminated by the flaring torches. These the fishermen hold in one hand, and stand with the poised spear in the other, ready to strike as soon as the fish appears. The Indians on the coasts of the Pacific have also a singu- lar mode of taking the Candle-fish, or Eulachon, a most valu- able acquisition to their domestic comforts. Immense shoals approach the shores in sumijfier. and are caught in moonlight nights, when they come to sport on the surface of the water, which may often be seen glittering with their multitudes. The Indians paddle their canoes noiselessly amongst them, THE GLOBE FISH. "JT ■^. Nik HALIBUT. THE WHITE PORPOISE. 207 and catch them by means of a monster comb or rake — a piece of pine-wood from six to eight feet long, made round for about two feet of its length at the place of the hand- gripe, the rest flat, thick at the back, but having a sharp edge at the front, where teeth are driven into it, about four inches long and an inch apart. One Indian, sitting in the stern, paddles the canoe ; another, standing with his face to the bow, holds the rake firmly in both hands, the teeth pointing sternwards, sweeps it with all his force through the glittering mass, and brings it to the surface teeth upwards, usually with a fish, and sometimes with three or four, im- paled on each tooth. This process is carried on with wonderful rapidity. This fish, although not larger than a smelt, enjoys the distinction of being probably the fattest of all animals, comparatively speaking : to boil or fry it is impossible, as it melts entirely into oil. Even in a dried state the Indians use it as a lamp, merely drawing through it a piece of rush pith as a wick, and the fish then burns steadily until con- sumed. By a peculiar mode of preparation, these fishes are preserved as a winter food, and notwithstanding their great fatness, they are said to be of an agreeable flavor. Drying is accomplished without any cleaning, the flsh being fastened on skewers passed through their eyes, and hung in the thick smoke at the top of sheds in which wood fires are kept burn- ing. They are then stowed away for winter. We will now glance at the White Porpoise fishing in the St. Lawrence River. The animal mentioned is a species of whale, and is chiefly common in those quarters, being valu- able for its oil, which gives a brilliant light only surpassed by gas, and its skin, which is manufactured into leather which has no equal for quality. The fish was formerly taken in enclosures made of light and flexible poles fixed in the beach, within which the porpoise pursued the small mem- bers of the finny tribe during high tide, and where, its appetite once satisfied, it became heavy and almost asleep 208 MODE OF TAKING WHITE PORPOISE. from "gluttony, and seemed to forget for several hours the dangers that surrounded it as the tide went out. The fishermen, silent, and on the look-out on the cliff, having seen that the waves had retreated, give the signal: two or three light skiffs (either bark or wooden canoes), manned by three or four expert rowers, appear upon the waves, which they scarcely touch with their oars. Standing in the bow of each of these canoes, a man with bare and muscular arm, a steel spear in his hand, intently follows with his eye the track of the fish, indicating the course to be taken, whether to the right or left, and strikes the mortal blows. Often after one of these vigorous strokes, which are enough to kill the largest porpoise, the spearsman may be seen, when he does not strike aright, urging on the pursuit for a new contest of speed between his skiff and the wounded animal : some- times the blood which reddens the surface of the water indicates the course to be followed, and sometimes the sound of the subdued breathing Of the porpoise, which comes to the surface of the water to breathe, throwing up a stream which descends in the form of a curve. The porpoise might break through this fence of flexible poles, eighteen or twenty inches apart, but it is afraid, and it returns by the waj- it came : a new stroke is given, but it is by a harpoon Avhich has a rope attached to it. The struggle becomes more in- tense and exciting. The paddle at the stern of the frail skiff is alone put in requisition. It is now the boatman's turn to display his skill. The animal leaps out of the water, stops, dives, and turns about in every way; a white foam rises on each side of the boat, and its progress, hitherto so swift, is suddenly stopped ; the animal is fatigued by its wound, wants to breathe, but fear keeps it below the water, and immediately the man in the bow rolls up at his knee the line which he had allowed to run out, and the boat is brought silently forward towards the victim. Again he stands up and with one hand brandishes the spear, while with the PORPOISE SERVED AT ROYAL TABLES. 209 other he suddenly pulls the rope, inflicting fresh wounds : the fish once more leaps, but this time is the last, for a vigor- ous blow aimed at the spine between the head and the neck is fatal. Another plan is to use nets for entrapping the porpoise. The weight of one of these fishes is about two thousand five hundred pounds : the largest are sometimes four thou- sand pounds, and these are about twenty-two feet long and fifteen in circumference. We may remark here that the flesh of the common por- poise was formerly much esteemed in England, and was reckoned fit for the royal table. Among the singular direc- tions for the management of the household of King Henry VIII., we find among the dainty dishes to be " set before the king" a porpoise, " and if too big for a horse-load, an extra allowance to be given to the purveyor." In the time of Queen Elizabeth it was still used by the nobles of England, and was served up with bread-crumbs and vinegar. A curious mode of fishing the Gar-fish or Sea-Pike, in the Ionian Islands, is mentioned by a tourist. A small tri- angular raft is formed of three pieces of bamboo, each a foot and a half long ; a little thwart is inserted, in which a small mast is fixed ; it is then rigged with a sail, etc., in imitation of the boats of the country. The fisherman, taking his station on a projecting rock, with deep water alongside, and an ofl'-shore breeze, commits his little raft to the wind, car- rying with it a line of about two hundred feet in length. A float is fixed at about every six feet, and from each float de- pends a fine hair-line with a baited hook. When the fish bites it draws the bait down violently once, and then seems to resign itself to death. The fisherman waits till ten or twelve are hooked ; he then hauls in his raft, relieves it of its freight, and again launches it for another cruise. Fifty or sixty are sometimes caught in this way during half an hour. 210 CAPTURING THE TUNNY. The gar-fish is not uncommon on English coasts, and is abundant in the Baltic. It attains a length of two or three feet. The upper parts of the body are of a dark greenish- blue mackerel tint, and a curious circumstance is that its bones are green. It has been noticed that when this fish is taken by the hook, it mounts to the surface often before the fishermen have felt the bite, and there, with its slender body half out of the water, struggles with the most violent contortions to wrench the hook from its hold. In various chapters of this book we have already men- tioned the mode of capturing the large inhabitants of the deep — the whale, the seal, the shark, sea-unicorn, and oth- ers. We must not omit another important fish of large di- mensions, the Tunny, sometimes nine feet in length and up- wards of a thousand pounds in weight, and belonging to the Mackerel family. This fish is found in the Mediterranean and the Atlantic Ocean, but chiefly in the former, where this particular fishery is of great importance, and constitutes one of the greatest branches of Sicilian commerce. The fish appear at the latter end of May, at which time the ton- naire, as they are called, are prepared for their reception. This is a kind of aquatic castle, formed, at a considerable expense, of strong nets fastened to the bottom of the sea by anchors and heavy-laden weights. The tonnaires are fixed in the passages amongst the rocks and islands that are most frequented by the tunny-fish. Care is taken to close with nets the entrance into these passages, except one small opening, which is called the "outer gate." This leads into the next compartment, which we may term the " hall." As soon as the fishes have entered here, the fishermen who stand sentries in their boats during the season shut the outer entrance, which is done by letting down a small piece of net, portcullis-fashion, which effectually prevents the tunnies from returning hy the way they came. The inner door of the " hall " is then opened, which leads to another THE STURGEON. 211 compartment, and by making a noise on the surface of the water the tunnies are soon driven into it. As soon as the whole have been got into this compartment, the inner door of the " hall " is again closed, and the outer entrance is opened to receive more iishes. This last compartment of network is called the " chamber of death." This is com- posed of stronger nets and heavier anchors than the others. As soon as a suflScient number of tunny-fish has been col- lected here, the slaughter begins. The fishermen attack the poor defenceless animals on all sides, who dash the water about in their efforts to escape, but are at length sub- dued, and yield themselves a prey to their conquerors. " There is something," says a witness of this fish massa- cre, " extremely exciting in seeing the wholesale capture of a herd of these great black fish, intermixed, as they gener- ally are, with the forms of many of their large congeners, and occasionally with a sword-fish or a dolphin besides ; and no one ever left the spot after one of these enormous hauls without feeling that, however superior the whale fishery may be in enterprise, it cannot yield its votaries half the pleasures or charms of these scenes." A very questionable kind of pleasure, however, we think it must be to many, to see the agonies and the butchery which must necessarily take place on these occasions. The Sturgeon fishery is carried on to a very considerable extent in the Russian dominions on the coasts of the Caspian and Aral Seas. They are caught in an enclosure formed by large stakes, representing the letter Z repeated several times. These fisheries are open on the side nearest the sea, and closed on the other, by which means the fish, ascending in its season up the rivers, are caught in these narrow an- gular retreats, and are easily killed. The Hon. Captain Keppell, describing the method of catching sturgeon in the fishery of Karmaizack, says*: " Two persons are in each boat ; one (generally a female) 212 THE STURGEON A ROYAL FISH. rows, while the other hauls in the fish. The instruments used consist of a mallet and a stick, with a large unbarbed hook at the end. Every fisherman has a certain number of lines. One line contains fifty hooks; these are placed at regular distances from each other ; they are without barbs, sunk about a foot under water, and are kept in motion by small pieces of wood attached to them. The sturgeon gen- erally swims in a large shoal near the surface of the water, and upon being caught by one hook, he generally gets en- tangled with one or two others in his struggles to escape. Immediately on our arrival the boats pulled from shore. Each fisherman proceeded to take up his lines. On coming to a fish he drew it with his hooked stick to the side of the boat, hit it a violent blow on the head with the mallet, and, after disengaging it from the other hooks, hauled it into the boat. On every side the tremendous splashing of the water announced the capture of some huge inhabitant of the deep." The sturgeon belongs to a numerous species inhabiting both sea and fresh water — those of the former, and the largest kind, being especially plentiful in the Caspian and Black Seas, where they attain a length of from twenty to twenty-five feet, and have been known to weigh nearly three thousand pounds. The flesh has the appearance and con- sistency of veal, and was highly esteemed by the ancients. Pliny states that it was brought to table with much pomp, and ornamented with flowers, the slaves who carried it be- ing also decorated with garlands and accompanied with music. In England, when caught in the Thames and within ju- risdiction of the city, it is reserved for the Sovereign as a " royal fish." In the Illustrated London News for the 15th of April, 1860, is a notice of a fine sturgeon thus taken, and forwarded to the Queen at Windsor by order of the con- servators of the river. DIFFERENCE BETWEEN SEA CONGERS AND EELS. 213 The famous caviare of the Russians is made from the roe of the sturgeon, freed from its membranes, washed in vine- gar, and dried in the open air. It is then salted, put into a bag and pressed, and finally packed in small barrels for sale. The principal fishery of the Conger Eel in England is upon the Cornish coast. They are chiefly caught by what are termed " bulters," which are strong lines, several hun- dred feet long, with hooks about eight feet apart, baited with sand-launces, pilchards, or mackerel. The bulters are sunk to the ground by a stone fastened to them. Sometimes such a number of these are tied together as to reach to a considerable distance. It is not unusual for a boat with three men to bring on shore from one to two tons as the produce of a night's fishing, the conger being caught most readily at night. On some of the French coasts the conger fishery is still more abundant than in Cornwall. The great sea-conger has so great a resemblance to the common eel, the inhabitant of our rivers and ponds, that many persons believed the former was merely an eel of larger growth; but the difference may be readily discerned. The conger, whether large or small, has always the snout and upper jaw projecting beyond the lower one ; whilst the fresh-water eel is remarkable for its protuberant lower jaw. The tail is also more lengthened and pointed,, the dorsal fin commencing much nearer the head, and the teeth of the ij.pper jaw, although slender, placed so close together as to form a cutting edge. The internal structure of these fishes differs more widely, the conger having a great many more bones than the eel, particularly towards the tail, and in pos- sessing a greater number of vertebrae (the spine or back- bone). The common conger of the Atlantic coasts is a large fish, sometimes exceeding ten feet in length, and weighing up- 214 THE SAND EEL FISHERY. wards of a hundred pounds, but its ordinary dimensions are from five to seven feet. It is entirely a marine species, al- though frequently found in the mouths of rivers, its object being, it is thought, that of feeding on the fish that ascend or descend the stream. Of these it devours large quanti- ties, not objecting to crabs and shell-fish, which the strength of its jaws permits it to masticate without difficulty. The smaller kinds of fish it swallows entire, and thus fortified by good nourishment, it becomes a formidable adversary when hauled into the boat by a fisherman's line, or found among the rocks, where it is sometimes left by the retiring tide. This does not seem to be a matter of complaint in our time. The conger, however formidable, also finds a danger- ous adversary in the spiny lobster of the Mediterranean Sea, which is said to enter into a fierce battle with the con- ger, and generally becomes the victor, from the superiority of its weapons of defence, the claws, which lacerate and wound the monstrous eel, proving the death summons. The conger, when properly cooked, has a most delicious flavor, but somehow or other there is a great antipathy to this fish, as being, probably, too much of the serpent form; but travelers in Cornwall find a conger-pie delicious, and those persons who have visited the Channel Islands will not easily forget the delicious soup that is mixde from this fish. Even as far back as the reign of Queen Elizabeth, there was a singular mode of curing congers in Cornwall, which was merely to slit them in half, and without any further prepa- ration to hang them up in a kind of shambles erected' for that purpose ; such parts of them as were not gone, were considered fit for use, and exported to Spain and Portugal. The Sand-Eel fishery, although of a very primitive char- acter, being mostly carried on with spades, shovels, three- pronged forks, rakes, and in fact any implement of a raking character at hand, is very exciting and amusing. Large slioals are observed frequently swimming near the shore. THE MACKEREL. 215 and it often happens that, instead of retiring with the ebb- ing tide, they dig into the sand, and remain there until the water covers them again. Advantage is taken of this, and hundreds of men, women, and children set to work with the readiest implements they can find, and the scene becomes very animated. When dug from the sand, the fish leap about with singular velocity, and the gathering of them af- fords a fine amusement to the younger parties, who are commonly the most numerous and eager in this pursuit. It is remarkable with what ease and rapidity these slender and delicate-looking fish penetrate the sand, even when it is of a pretty firm texture. They are a favorite meal with many, and are sometimes salted and dried ; but their principal use is as bait for the capture of more valuable fishes, there be- ing scarcely any other found to answer the purpose so effec- tually. This well-known fish scarcely ever exceeds seven or eight inches. The Mackerel belongs to the same family as the tunny- fish previously described, but is a comparatively small mem- ber as regards size, being usually about fourteen inches long and about two pounds in weight. This beautiful fish is readily caught by bait, and particularly when the bait — which is usually a piece from one of its own kind — is moved quickly through the water. The boats engaged for this fishing are often under sail. Besides the line, drift-nets and seines are employed. The size of the mesh is one inch and one-sixth from knot to knot when the twine is wet, or in the square, from one corner to another. A row of corks runs along the head-line, and the lower border is left suspended by its own weight. The number of nets in each boat de- pends upon its size. A boat may carry eleven score of nets, and as these are fastened in length to each other, they will extend to a distance of a mile and three-quarters. The boats on the various fishing-grounds are shot across the course of the tide tAvice between evening and morning; for 216 MODB OF OATCniNQ THE MACKEREL. fish avoid the nets during the day, and scarcely less so dur- ing very dark nights. This latter circumstance is caused by the light produced in the sea by luminous animals, which then appears most conspicuous; and hence a hazy atmos- phere is judged beneficial. The use of lights is employed in some countries. Bloch, in speaking of the mackerel fish- ery, says, that at St. Croix, on the approach of night, when the sea is smooth, they prepare their toi'ches, and hold them as close to the water as possible. The fish soon show them- selves, and rise above the surface, when the nets are imme- diately shot, and soon taken in with abundant success. When the shoal of mackerel approaches the land the seine comes into operation. This consists of a single net, which is about seven hundred feet in length, and seventy in depth at the middle. The full size of the mesh from corner to corner is two and three-quarter inches at the sides, which is the same dimension allowed to the drift-net; but for about two hundred feet of the hollow, the size of the mesh is lessened to two and a half inches, to prevent the fish from being hung in the meshes ; for if this should happen, the net would not be raised from the bottom, and fish and net would be lost. Shoals of mackerel are rapid in their motion, and exceedingly uncertain, as well as easily alarmed. They rarely stay long at the surface, and when they sink below it is doubtful in what direction they may again ap- pear. The whole proceedings are, therefore, full of excite- ment, and great haste is employed to enclose them in the circle of the seine. The mackerel is a favorite article of food, but its flesh soon changes; and a capture that might have proved valu- able, may be rendered worthless if the fishes are not at once sent to the market. A principal object of the French fishery is to prepare the mackerel salted for use at home, for which purpose they are immediately stored in bulk on board the boats. lu the west of Cornwall, also considerable numbers THE HEUHING FItSUERT. 217 are salted, chiefly for the use of miners, who seem to prefer salted fish to even the fresh that abound in the finest con- dition in their markets. It was formerly supposed that great migrations of mack- erel took place, but it is now believed, as in regard to the herring, that they merely leave the deep water and approach the coast for the purpose of spawning. The mackerel is of less importance than the herring fishery. It is a restless, ever-wandering rover, and unlike the herring in its habits in that respect. It is found in large numbers in the Medi- terranean. The Herring fishery affords one of the best illustrations of British enterprize. We must now proceed to the Nor- folk coast, for it is there that this most valuable fish is found in the greatest abundance, perhaps more so than in any other part of the world. The name of the fish is derived from the German heer, "an army," in reference to the vast shoals in which they arrive. The herrings appear on the Norfolk coast in the last week of September for the purpose of spawning, and are then in the best condition to become the food of man. Having fulfilled this obligation of nature, they return to their former haunts about the commencement of December. A few, however, may be found at other periods of the year, particularly about midsummer; and, although small, they are much esteemed for their delicate flavor. The Yarmouth herring has less oil than the Scotch herring, but is unrivalled in point of quality. It seldom measures more than fourteen inches in length, in girth six inches and a half, and it weighs about nine ounces. The vessels em- ployed by Yarmouth in this fishery are usually decked boats, of from forty to fiftj' tons burthen, and carrying a crew of ten men. Besides the boats belonging to the town, there are many others called " cobles," which come from Scar- borough, Filey, and other northern ports. Bach fishing- boat is provided with from sixty to one hundred nets, each 218 THE ENORMOUS QUANTITY TAKEN. net about fifteen yards long upon the rope, fastened by small cords called "seizings." These nets are floated by corks placed at intervals of a few feet from each other ; the warp which supports the whole is frequently a mile in length, and is borne up by small^ buoys. The nets themselves are usually made in four parts or widths, called " lints," one be- ing placed above another, and so forming a wall in the sea, against which the fish are invited to drive their heads. This fishing is carried on during the night only, it being supposed that the stretching of the nets in the daytime would drive away the shoal. In the dusk of the evening the nets are thrown over the side, and the boat is then steered under an easy sail, or allowed to drift with the tide until daylight, when the nets are hauled in. A single boat has sometimes, in one night, taken twelve or fourteen lasts I of hearings, each " last" numbering ten thousand fish, or, by the fisherman's calculation, thirteen thousand two hundred • but it often happens that a boat does not obtain more than this quantity during the season. The average catch for each boat is about thirty " lasts" (three hundred thousand) ; but a boat has been known to bring in the enormous quantity of two hundred and sixty-four thousand herring at one time. Like all fisheries, the result is very uncertain. It is a curioua and bountiful provision of nature that forces the herring, and other fish usually distributed through the deep, to congre- gate together, and visit the shores in such immense abun- dance, at a time when they are in the highest perfection, and when most fitted for human food. The herring dies as soon as it leaves the water, hence the phrase " as dead as a herring." The fishes are therefore salted as soon as caught, and when the boat has reached land they are brought to shore, and carried to the fish-house in " swills," which are open coarse wicker baskets. Arrived at the fish "office," the herrings, after being sufficiently Salted, remain on the fioor for twentj^-four hours if intended WANDEEING CHAETODON. t -4 t-r-ry.: ^^;^Mj- ■■ LUMP FISH. 220 CUBINO HERRING. to be slightly cured, or for ten days if intended for the foreign market; they are then washed in large vats filled with fresh water ; " spits," (pieces of wood about four feet long and of the thickness of a man's thumb) are passed through their heads or gills, and they are then hung up in rows to the top of the building. Wood fires are then kindled under them, and are continued day and night, with slight intermissions to allow the fat and oil to drop, until the fish are sufficiently cured, which, if they are intended for the foreign market, is at the end of fourteen days, but if for home consumption, three or four days suffice. The first are called " red" herrings, from the deep color which they acquire, and the others are known as " bloaters." When cured, the herrings are taken down and placed in bar- rels which contain each about seven hundred fish. Prom thirty to forty thousand barrels are sent yearly from Yar- mouth to the towns on the Mediterranean coasts. The annual supply of herrings at Billingsgate Market is estimated at one hundred and twenty thousand tons, valued at one million two hundred pounds sterling! The greatest enemy to the herring fishermen is the dog-fish, which, in pursuit of the herring, frequently becomes entangled in the nets, and does great damage to them in endeavoring to escape. The herring fisheries sometimes suffer very considerably from the ravages of this fish, the popular name of some of the smaller species of shark, owing this designation to their habit of following their prey like dogs hunting in packs. These predaceous fishes are seldom abundant when the her- rings are in a compact body; but sometimes they commit great destruction when a shoal is first drawn in near land. They have been known to consume as many herrings as would fill a dozen barrels out of one boat's nets in the course of an hour. They are also very destructive to the nets when they get entangled, their hard fins tearing them to pieces. In like manner they make sad havoc with other TEE DOG-FISH AND TEE EAEE. 221 fishes. Occasionally only a few escape with their heads, the tails of others are snapped off, and pieces bitten out of the belly. A cod-fish sometimes comes up a mere skeleton, stripped to the bone on both sides. The Dog-fish attains a length of three or four feet, and is found in the Atlantic, the Mediterranean, and the South seas. One of the most abundant species on English coasts is the common dog-fish, which sometimes appears in prodigious numbers, twenty thousand having been taken at Cornwall at one time in a net, and the fishermen of the Orkneys and Hebrides, where they are much used for food, sometimes load their boats to the water's edge with them. Another voracious enemy of the herring (and the pil- chard) is the Hake, a member of the Cod family, with the same predatory instincts. It is sometimes three or four feet in length, coarse in quality, but valuable as a "stock" fish. It is generally taken by lines, like cod and ling, but in the spawning season, when it keeps near the bottom, it is some- times caught by trawl-nets. Allied to the herring, but differing in some respects, being nearly equal in size, but rather thicker, and the lines of the back and belly being straighter, the scales also being larger and fewer, is the Pilchard, a fish also of immense im- portance in the British fisheries, and plentiful on the coasts of Devonshire and Cornwall. These fish congregate in deep waters, within limits extending from the Scilly Isles, as far, sometimes, as the Irish, Welsh and Cornish coasts. A por- tion strikes the land north of Cape Cornwall, and turns in a north-easterly direction toward St. Ives, constituting its summer fishery. The great bulk passes between the Scilly Islands and the mainland. " To look from Cape Cornwall," says an eye-witness, " or from any of the high lands of St. Just, and see this immense mass of fishes, extending as far as the eye can reach, approaching the shores and reddening 222 THE ST. IVES PILCHARD FISHERY. the waters, is a sight of great interest and beauty, and such as would repay any exertion to see." The seine or net used in St. Ives Bay for capturing pil- chards is nearly twelve hundred feet long, and nearly sixty feet in depth. More than two hundred and fifty of such nets are kept at St. Ives, each having its own boat to carry it. Every seine or net-boat, when its turn arrives, is attended by one or two tow-boats with stop-nets, and also by a smaller boat called the " follower," used principally for carrying the men to and from the larger boats. When the huers or sen- tinels stationed on the hills perceive a shoal of pilchards, they immediately signal to their respective boats, and by signs give the necessary directions for their capture. They are enabled to do this by observing on the water a reddish hue, like that of sea-weed (very different from their color ■out of water), and the denser the shoal of fish, the deeper is this hue. As soon as the seine-boat and tow-boat are within reach of the shoal, they start for the same point in ■opposite directions, and are rowed rapidly round the fish, while the nets which they carry are being shot or cast into the sea. When the seine and the stop-net meet, they are immediately joined, and form a complete circular wall round the pilchards about eighteen hundred feet in circumference, and reaching from the surface to the bottom, the nets being kept in a vertical position by corks strung on their head- vopes and leads on their foot-ropes. This net-work enclo- sure, with all its contents, is then warped towards the shore into the securest part of the bay, out of' the reach of the strong tidal current, and there moored with anchors so placed as to keep it as open or as nearly circular as possi- ble. Within this large net a small one, called the tuck-net, is introduced at low water, so that the fish are raised to the surface, dipped up in baskets into the boats, taken to shore, and carried in barrows to be cured and salted. The St. Ives seine fishery does not differ materially from that in Mount's CURING THE PILCH ABB. 223 Bay, except that in the latter place, owing to the greater •depth of water, the nets are about thirty feet deeper, and they are also longer. Besides the method of capturing pil- chards with deep nets in shallow water in the day-time, there is a far more common mode in Cornwall of taking them in shallow nets, in deep water, by night. As these drift- nets are always spread in the open sea, where they might be destroyed by vessels sailing over them, their head-ropes are sunk about eighteen feet below the surface, and kept suspended at that depth by cork buoys fixed at regular in- tervals. By this contrivance, not only are the nets pre- served, but larger quantities of fish are taken. These nets, ■each with a driving-boat attached, are left to go with the wind or tide all the time the net. remains in the water. As soon as the pilchards caught by the seine or drift- nets are landed, some are sold in the neighboring towns and villages, and the rest, when cured and placed in barrels, are exported to the Mediterranean, where, during Lent, they are much sought after. The method of curing the pilchards is very simple. They are placed in cellars, and women are employed in arranging them in layers, with salt between. After remaining in bulk about five weeks, during which oil and other matters drain from them, they are put into troughs of water, washed quite clean, and then carefully laid in casks, Avhere they are sub- jected to heavy pressure for about a week. The oil thus expressed flows out from holes at the bottom or crevices in the sides of the untightened casks, and as this reduces their contents, more fish are added, until each cask, when the pressure is removed, weighs at least four hundredweight. The capital employed in the Cornish pilchard fishery amounts to at least two hundred and fifty thousand pounds, and affords employment to about ten thousand persons. The Sprat was formerly considered by naturalists to be the young of the herring, as well as that of the pilchard ; it 1. 22i ISPRAT8, WHITEBAIT, AND aABDINES. is now generally admitted to be a distinct species. This fish comes into season in November, and continues so all the winter months, during which the sale, especially in London, is immense. About five hundred boats are annually em- ployed in the sprat fishery. So great is the abundance sometimes, that thousands of tons are sold to farmers for manure. Most fish are caught on dark and foggy nights. The Whitebait, little fishes from three to six inches in length, the delicious flavor of which the reader may have often enjoyed, are caught by means of bag-nets, sunk four or five feet below the water. They are very abundant in many parts of the British coasts, particularly in the estuary of the Thames in spring and summer, when they arrive in shoals to deposit their spawn. For several months they continue to ascend the river with the flood tide, and descend with the ebb tide, not being able to live in fresh water. It was formerly supposed that this fish was the young of the shad, or sprat, but is now regarded as a distinct species. The Sardine, a fish of the same genus with the herring and pilchard, smaller than the latter, abounds in the Medi- terranean, and is found also in the Atlantic Ocean. The sardines of the west coast of Trance, which are largely im- ported into other countries, are generally young sprats, andv sometimes young herrings. This " sardine " fishery is a great business in Prance, and especially at Concarneau, where as many as thirteen thousand men aid in the fishery. This is conducted in a way remarkable for the extravagance it involves. The sprat fisheries on the British coast — in- deed, all other net fisheries — are carried on in the most primitive way ; but the French have made it a " bait " fish- ery, and use the roe of the cod, which is brought at a con- siderable expense from the North seas for the purpose. The fish are gutted, beheaded, sorted into sizes, and washed in sea-water, then dried on nets or willows; they are then placed in a pan, kept over a furnace, and filled with boiling TEE COD FISEEBY. 225 oil. The fish are plunged into the cauldron, two rows deep, arranged on wire gratings. They are afterwards placed to drip, the oil being carefully collected, after which they are packed in the tin boxes with which we are so familiar. It is said that, besides the quantity exported, as many as four millions are annually prepared for the home market. We need not enter into any particulars about the Cod fishery on the banks of Newfoundland, which presents noth- ing new or very interesting except in the value attached to every part of this valuable fish. The tongue of the cod, whether fresh or salted, is a great delicacy ; the gills are iised as baits in fishing ; the liver, which is large and good for eating, also furnishes an enormous quantity of oil, now much esteemed for consumptive patients; the swimming- bladder furnishes an isinglass ; the head is eaten, and the Norwegians give it, with marine plants, to their cows, to produce a greater quantity of milk; the vertebrae, the ribs, and the bones are given by the Icelanders to their cattle ; even the intestines and eggs are eaten. The coast of Ice- land abounds in fish, especially of the cod tribe, and this abundance has not only from a very early time supplied the inhabitants with their chief food, but enabled them to pro- cure other necessaries. As the principal fishings begin on the Newfoundland coast, at the Peroe Islands, in Norway, and in Iceland at the same time, it seems evident that the cod is not a migratory fish, but a dweller where it finds its food. The Icelanders fish chiefly from open boats, and 'sometimes from decked ones. Only the largest boats, with six or twelve oars, are used in the cod fishery, and in these the natives often go out many miles to sea in the depth of winter to fish. They are a most hardy set of mariners. Their mode of capturing the cod is either by small drift- nets, deep-sea or hand lines, and the ordinary long line. The fish caught by the net are different from those taken by the line, being more plump, with smaller heads. The 226 MODE OF TAKING CODFISH. number of Iceland boats employed in the cod fisheries aver- age nearly five thousand, and the number of persons em- ployed exceeds ten thousand. The modern cod-smack usually carries from nine to eleven men and boys, including the captain. The line is chiefly used for the purpose of taking cod or haddock. Bach man has a line of three hundred feet in length, and attached to each of these lines are one hundred " snoods," with hooks already baited with mussels, pieces of herring, or whiting. Bach line is laid " clear " in a shallow basket or " skull ;" that is, it is so arranged as to run freely as the boat shoots ahead. The three hundred feet line, with one hundred hooks, is called in Scotland a " taes." If there are eight men in a boat, the length of the line will be two thousand four hundred feet, with eight hundred hooks (the lines being tied to each other before setting). On arriving at the fishing-ground, the fishermen heave overboard a cork buoy with a flag-staff affixed to it, about six feet in height. The buoy is kept flxed by a line reaching to the bottom of the water, and having a stone or small anchor fastened to the lower end. To this line, called the " pow-end," is also fastened the fish- ing-line, which is then " paid " out as fast as the boat sails. Should the wind be unfavorable, the oars are used. When the line is all out the end is dropped, and the boat returns to the buoy. The pow-end is hauled up, with the anchor and fishing-line attached to it. The fishermen then haul in the line with whatever fish may be on it. Eight hundred fish might be taken by eight men in a few hours by this' operation. Many a time the fish are eaten off the line by the dog-fish and other enemies, so that a few fragments and a skeleton or two remain to show that fish have been caught. The fishermen of " deck-welled cod-bangers " use both hand- lines and long lines. The cod-bangers' tackling is, of course, stronger than that used in open boats. The long lines are called " grut lines " or great lines. Every deck-welled cod- THE HADDOCK AND C0AL-FI8H. 227 banger carries a small boat on deck, for working the great lines in moderate weather. This boat is also provided with a well, in which the fish are kept alive till they arrive at the banger, when they are transferred from the small boat's well to that of the larger vessel. The Haddock, which has a striking family resemblance to the cod, is taken both by trawl-nets and lines, and being in great esteem by fish-eaters for the excellence of its flavor, we ought to be pleased that the fish is so partial to our own coasts, where it appears in vast shoals at particular seasons. Fishermen sometimes find haddocks and other fishes caught in their lines reduced to mere skin and skeleton by the Hag, one of the species allied to the Lamprey family, resembling an eel or worm, and a perfect anatomist in its way. It is believed to enter by the mouth of the haddock, and thus prey upon it: the fish thus treated is called a " robbed " fish. As many as six hags have been taken out of a single had- dock, and they are also said to make their way into fishes through the skin, and are hence sometimes called " borers." It is supposed, however, that the hags are swallowed by fishes, and, in retaliation, work out their insides. The Coal-fish — a relative of the cod, with a very vulgar name, derived from its black coat, but a fish of really hand- some form, and about two or three feet in length — takes a bait with extraordinary eagerness: when a boat falls in with a shoal, they may be kept beside it by being thus attracted till the whole are captured. It is abundant in all Northern seas, and is taken on the British coasts. In many parts of Scotland they are well known to juvenile anglers, who take them in plenty from the end of piers, often with a rude tackle and almost any kind of bait. In the winter-time, while the fry of this fish is in the harbor of Orkney, it is common to see five or six hundred people, of all ages, fishing for them with small angling-rods about six feet long, and a THE LINa AND TUBBOT. 229 line a little longer ; but with this simple apparatus they kill vast numbers. The whole harbor is covered with boats. Other members of the cod family are caught much in the same manner as their representative, and are very valuable as food, especially the Ling. The sounds (air-bladders), are pickled, and the roes are preserved in brine, and eaten as food, or used as a means of attracting fish by throwing it about the nets, as is often done by French fishermen. The Common Hake, a fish sometimes measuring three feet, is also plentiful on the English and Irish coasts, and very voracious. When enclosed in a net with pilchards — as frequently hap- pens on the Cornish coast — it gorges itself with them : It is to this species, and the common cod when dried and salted for exportation, to which the name of " stock " fish is usually applied. Forty thousand hakes have been landed on the shores of Mount's Bay in Cornwatl in a single day, and the quantity captured on the Irish coast is immense. Galway Bay is sometimes called the "Bay of Hakes" from the numbers of that fish taken. The Turbot, an especial delight of fish epicures in all times, is taken, with other flat fish, by lines and hooks, the fishermen going out in parties of three to a " coble," each man carrying his long line, the united ends of which are a league in length, and draw after them fifteen hundred baited hooks ; these lines, as they are to lie across the current, can only be shot twice in twenty-four hours, when the rush of the water slackens as the tide is about to change. The Italians christen the turbot the "sea pheasant," from its flavor. The Romans were particularly fond of this dainty, and frequent allusion to its size occur in their writers ; thus : " Great turbots and late suppers lead To debt, disgrace, and abject need." " The border of broadest dish Lay hid beneath the monster fish." 230 CAPTURING THE TURTLE. But the size mentioned by the ancient writers is of a fabu- lous character. However, it sometimes attains a weight of between seventy and ninety pounds. It is now chiefly obtained by beam-trawling, a triangular purse-shaped net about seventy feet long, usually having a breadth of about forty feet at the mouth, and gradually diminishing to the end of the net, which is about ten feet long, and of nearly uniform breadth. The turbot is of all the flat fishes the most valuable. The Brill belongs to the same tribe, as well as other less important fishes. The turbot is shorter, broader, and deeper than almost any other kind of flat fish. It gen- erally keeps close to the bottom of the sea, and is found chiefly on banks where there is a considerable depth of water. Some of the banks in the German Ocean abound in turbots, as the Doggerbank, and yield great quantities to the London market. In proportion to the benefits derived from the spoils of the Turtle, the shell of which is so ornamental and useful in the arts, the ingenuity of man has been sharpened by his eagerness to acquire them. The modes by which the peo- ple of Celebes take them are by the harpoon and the net, or by falling on the females when they resort to the strand to lay "their eggs. The turtle is turned on its back, when, unable to turn again, it lies helpless. It sometimes also falls into the hands of the dwellers on the coast through means of their fishing-stakea, into which it enters like the fish, and from which it can find no outlet. It is then killed and robbed of its upper shield ; but, as the shells adhere fast to each other, and would be injured by being torn off, the usual plan is to wait a few days, by which time the soft parts become decomposed, and the shells are removed with little trouble. When the turtles lie floating on the sea either for the purpose of sleep or respiration, the fishermen approach them quietly with a sharp harpoon, carrying a ring at the butt-end, to which a cordis attached. The harpooner strikes,. tlING ULAB METHODS OF CHINESE FISHERMEN. 231 and the wounded animal dives, but is at last secured by the cord. In the South Seas skilful divers watch them when so floating, and getting under the animals, suddenly rise, and so seize them. Mr. Darwin describes a curious method of capturing turtles which he witnessed at Keeling Island in 1836 : " I accompanied," he remarks, " Captain Pitzroy to an island at the head of the lagoon : the channel was exceed- ingly intricate, winding through fields of delicately-branched corals. We saw several turtles, and two boats were then employed in catching them. The water is so clear and shallow, that although at first a turtle quickly dives out of sight, yet, in a canoe or boat under sail, the pursuers, after no very long chase, come up to it. A man standing ready in the bows at this moment dashes through the water upon the turtle's hack ; then clinging with both hands by the shell of the neck, he is carried away until the animal becomes exhausted, and is secured. It was quite an interesting sight to see the two boats thus doubling about, and the men dash- ing into the water to secure their prey." But the most singular mode of capturing turtles is that practised on the coasts of China and the Mozambique, by the aid of living fishes trained for the purpose, and thSnce named "fisher-fishes." This fish is a species of remora (sucking-fish), and the islanders who use it are said to pro- ceed in the following manner: They have, in their little boat, tubs containing many of these little fishes, the top of whose head is covered with an oval plate, soft and fleshy at its circumference. In the mid- dle of this plate is a very complicated apparatus of bony pieces disposed across in two regular rows, like the laths of Persienne blinds. The number of these plates varies from fifteen to thirty-six, according to the species: they can be moved on their axis by means of particular muscles, and their free edges are furnished with small hooks, which are 232 TME BEBMIT OJRAB. all raised at once like the points of a wool-card. The tail of each of the trained fishes in the tubs is furnished with a ring for the attachment of a fine but long and strong cord. When the fishermen perceive the basking turtles on the surface of the sea, knowing that the slightest noise would disturb the intended victims, they slip overboard one of their fish tied to the long cord, and pay out line according to their distance from the turtles. As soon as the fish per- ceives the floating reptile, he makes towards it, and fixes himself so firmly to it that the fishermen pull both fish and and turtle into the boat, where the fish is very easily de- tached from its prey, and the turtle is secured. Crabs, which belong to the highest order ot Crustaceans, (a hard covering) are taken by traps — ^baskets which readily permit an entrance, but not their escape, and which are baited with meat or animal garbage of some kind — or pots, or are caught in the holes of the rocks at low tide with a rod and hook. These animals require very careful handling when found on the rocks or the sea-shore. Their fighting propensities are not confined to other prey, but they have fierce encounters among themselves, by means of their for- midable claws, with which they lay hold of their adversary's legs-, and dexterously amputate them. The Hermit Crab is one of the most curious of this numerous family. A more daring little burglar could not be found than this animal, appropriating to its own use the shells of whelks and periwinkles, after basely dislodging and ^ killing their lawful owners.. It is curious to see this crab ] busily parading the sea-shore, dragging its old incommodious i habitation behind it, unwilling to part with it until another and more convenient one is found. It stops first at one shell, turns it, pssses by, then goes to another, looks at it atten- tively for a time, and then tries it. Not being found suit- able, it resumes the old one, and in this manner frequently changes, until at length it finds one light, roomy, and com- ITS PliEBACEOUS HABITS. 333 modious; into this it enters, and takes up its abode. Fre- quently two of tliem will have a severe contest for possession, aud a fierce fight ensues. "With such very bad instincts and unsc-rupulous habit;?, it is not surprising that the HEUltING FISHING. hermit crab should be a very suspicious animal. On the slightest alarm it retires into its shell, guarding the entrance to it with its largest claw. The structure of the animal renders it equal to most emergencies. The part whicli in the lobster becomes a fan-like expansion at the end of the tail, is an appendage to the hermit crab for firmly holding on by the shell, and so tenacious is the hold that it may be torn to pieces, but cannot be pulled out. As they increase 23i KING VliABS AND PILL-MAKEB CRABS. ill size, the hermit crabs are compelled to enter on a fresh career of crime. The ancients were well acquainted with the predaceoiis habits of this little marauder. Crabs are inhabitants of almost all seas. The different kinds vary much in the form of the carapace, or back, which in some is round or nearly so: in others longer than broad; in some prolonged in front into a kind of beak, etc.; also in smoothness or roughness, with hairs, excrescences, or spines ; in the length of the legs, etc. The King Crab, an inhabitant of tropical seas, is a remarkable species, having a tail which forms a long and powerful dagger-like spine, sometimes exceeding in length the whole body. Some of these crabs exceed two feet in length, and in the Asiatic islands the spine is often used for pointing arrows; in tropical America the shell is used as a ladle. At Labuan and Singapore Dr. Collingwood met with a new species of crab, the "Pill- maker." It is a small creature of its kind, many being the size of large peas. Its habit is to take up particles of sand in its claws, deposit them in a groove beneath the thorax, and afterwards eject them as pellets or pills from its mouth, after having extracted what nutriment they may contain. The crab (as also the prawn) may be quoted as exercising the virtue of conjugal affection to the highest degree, for the male takes hold of his mate, and never quits her side, swimming with her, crawling about with her ; and if she is forcibly taken away, the faithful animal will seize hold of and endeavor to retain her. A traveler mentions a curious example of instinctive stratagem in a crab on the shores of the Pacific, about six inches in circumference, which covers itself with decaying vegetable rubbish, mud, sand, etc., and thus lies in ambush for its passing prey. It maintains a sluggish character until taken into the hand, or otherwise alai-med, when it becomes very active. The spines upon its body to retain the rub- bish, the short but strong claws easily concealed, the eyes PS AWNS AND SHRIMP 8. 235 placed at the end of long foot-stalks, curving upwards and thus raised above the mass, show the beautiful adapation of its structure to its habits. Prawns in general form resemble lobsters, cray-fish, and shrimps, but belong to a family remarkable for a long saw- like beak projecting from the carapace or back. There are many species, and some of those inhabiting the warm seas attain a large size. Many of them are semi-transparent, and have very fine colors. The common prawn is from three to four inches in length, is generally taken in the vicinity of rocks at a little distance from the shore, and osier baskets — similar to those employed for catching lobsters — are em- ployed for their capture, and nets. Shrimps are generally taken by nets in the form of a wide-mouthed bag, stretched by means of a short cross-beam' at the end of a pole, and pushed along by the shrimper, wad- ing to the knees in water. Sometimes a net of larger size is dragged along by two boats. The common shrimp is about two inches long, and the short beak readily distinguishes it from the prawn. When alarmed, it buries itself in the sand by a peculiar movement of its fan-like tail. Dr. CoUingwood mentions a new species of shrimp, which he discovered in the warm seas, of a deep violet color (those on the Atlantic coast are of a greenish-gray color, dotted with brown), and with the claw of remarkable construction. " I placed it," he says, " in a basin of water with a small crab, whose appearance appeared violently to offend it. Whenever the crab came in contact with the shrimp, the lat- ter produced a loud sound, the explanation of which is as follows: the shrimp possessed two claws — one large and stout, and the other long and slender. When irritated, it opened the pincers of the large claw very wide, and then suddenly closed them with a startling jerk. When the claw was in contact with the bottom of the basin, a sound was produced as if the basin were struck; but when the claw 236 PERIWINKLES AND MUSSELS. was elevated in the water, the sound was like the snap of a finger, and the water was splashed in my face." The same authority called this animal the " trigger " shrimp, from the action of this claw resembling that of a pistol trigger. If only put upon half-cock, this trigger closed without noise. How wonderful are the means that the Omnipotent Cre- ator has provided (as in all things) for the protection of the shelly inhabitants 1 The hard covering accommodates itself to their growth, and at the same time is suiEciently light as not to interfere with the movements and function.s of the interesting tenant. All the various tribes of shell-bearing animals are thus defended from the injuries and attacks to which their situation exposes them. Thus, some are pro- tected by multivalve, or more than two formed tubular shells, the tenant protruding its organs at the summit, which is defended by the lid, consisting of more than a single piece ; in the univalve, or one shell, the animal protrudes itself at the sides, and has no valve, as in the common barnacle. The bivalves, or animals of two shells, bury themselves in the sand, perforate rocks, or suspend themselves by the byssus, or thready filaments; others, again, as the oyster, fix them- selves to any convenient substance. In the common Periwinkle (a molluscous, or soft-shelled animal), the mouth of its shell is closed by a horny cover- ing ; this is called the " patch," which is attached to the foot, or rather neck, by its convex or lower surface : this is the lid. The Mussel, belonging to the molluscous animals, and the common species of which are very abundant on our own and English coasts, are much used as bait by fishermen. As an article of food it is much consumed in our own country, but especially so in Europe. The French people are remark- ably clever in their method of cultivating this shell-fish by artificial means. About four miles from Rochelle there may A WONDEBFTJL MUSSEL FARM. 237 be seen a wonderful mussel " farm," which has been a source of considerable profit for hundreds of years. The mussels are grown on frames of basket-work carefully made, and are larger and of finer flavor than the natural fish. In the year 1035, an Irish bark loaded with sheep was thrown in a heavy storm on the rocks near Esnande, on the coasts of Saintonge, and the only person on board who was saved was the captain, named Walton, who amply repaid the ser- vices which had been rendered him, for having saved some of the sheep from the wreck, he crossed them with the ani- mals of the country, and this produced a fine race, which is still known under the name of the "marsh sheep." He next devised a kind of net, which was stretched a little above the level of the open sea, where it caught large flocks of shore-birds which skim the surface of the water at twilight or after dark. In order to render these nets thoroughly effective, it was necessary to go to the very centre of the immense bed of mud where these birds seek their nourish- ment. Walton discovered on examining the poles which supported his nets that they were covered with mussel- spawn. He then increased the number of the poles, and, after various attempts, constructed his first artificial mussel- bed. At the level of the lowest tides, he drove into the mud stakes that were strong enough to resist the force of the waves, and placed them in two rows about a yard dis- tant from one another. This double line of poles formed an angle whose base was directed toward the shore and whose apex pointed to the open sea. This palisade was roughly fenced in with long branches, and a narrow opening having been left at the extremity of the angle, wicker-work cases were arranged in such a manner as to stop any fishes that were being carried back by the retreating tide. Walton had thus combined in one a sort of fish preserve, with a bed for the breeding of mussels. The plan soon became very popular, and the beds were extended in every direction. 238 GREAT UTILITY OF THE MUSSEL. The little mussels that appear in the spring are called seeds, and are scarcely larger than small beans till toward the end of May ; but at this time they rapidly increase, and in July they attain the size of a full-grown bean. They are then fit for transplanting and are placed in bags made of old nets, M'hich are set upon the fences that are not quite so far advanced into the sea. The young mussela spread them- selves all round the bags, fixing themselves by means of those silky filaments or threads, called byssus, by which the little animals attach themselves to rocks or other substance^. In proportion as they grow or become crowded together within the bags, they are cleared out and distributed over poles lying somewhat nearer the shore, while the full-grown mussels, which are fit for sale, are planted on the beds near- est the shore. It is from this part of the mussel-beds that the, fishermen reap their harvests, and every day enormous quantities of freshly gathered mussels are transported in carts or on the backs of horses to La Rochelle, whence they are sent to all parts of France. As an instance of utility, the common mussel maintains the long bridge across the Torridge River, near its junction with the Taw, at the town of Bideford in North Devon. At this bridge the tide runs so rapidly that it cannot be kept with mortar. The corporation therefore keep boats em- ployed to bring mussels to it, and the interstices of the bridge are kept filled with them. The bridge is supported against the violence of the tide by the strong threads of the byssus which these mussels fix to the stonework. Closely connected with this subject is that of Oyster farm- ing, which is practiced quite extensively in England and Prance as well as in our own country. A single visit to the shores of Maryland, Virginia, New Jersey, Long Island and Connecticut would amaze one who had not given this subject much thought, and convince them that it was a ^** PUNT OR PIROGUE OF THE MARSH. PILES, WITH BASKET WORK COVERED WITH JIUSSELS. 240 OTSTEB FARMING. thriving business in more senses than one, and every year becoming more important and extensive. Farming, as a term descriptive of this calling or industry, may at first seem a misnomer ; but the word is significant as used in this sense : Anyone engaging in this undertaking buys or secures a plot of water, and proceeds to stake it out in a direct line from the shore ; a neighbor secures a plot adjoining, surveys and bounds it in a similar manner. These fenced-in water fields present a novel and picturesque scene to one who beholds it for the first time. To the oyster farmer the times and the seasons are dis- tinctly worked and rigidly observed. If he sow and cultivate not, neither can he reap. There are comparatively few places on our inland Atlantic shores where oyster culture is not carried on in some one of its various methods ; there are places for keeping them alive until wanted, places for breed- ing them in, and places in which they are fattened. Most oysters cast their spawn in the months of April or May. The spawn is by the fishermen called " spat," and in size and figure each resembles the drop of a candle. As soon as it is cast, or thrown off, these embryo disks adhers to stones, old oyster shells, pieces of wood, or whatever substance comes in their way ; a limy secretion issues from the surface of their bodies, and in the course of a day begins to be con- verted into a shelly substance. It is about two years, how- ever, before oysters acquire their full size, and are ready for the table. , Many curious discussions have arisen as to whether oysters possess the faculty of locomotion. It is well known that, in general, they are firmly attached to stones, to any submarine substance, or to each other, and it is generally believed that they are not endowed with any power of changing their position. It is certain that they are the most inanimate of the mollusca, remaining adhered to the substance under the waves that they have fixed upon, enjoy- TEE ENEMIES OF THE OYSTER. 241 ing only the nourishment brought it by the waves, and giv- ing scarcely any sign of life, except the opening and shut- ting of its valves. The oyster, particularly when eaten raw, is easy of diges- tion, and very nutritous. Its best qualities become impaired, however, by cooking, and, though very piquant culinary preparations are made from it, such as sauces, ragouts, etc., these tempting effects are produced by the sacrifice of the best quality of the fish, and should be carefully shunned by the invalid. The enemies of the oyster are many. The jsea-crab seats itself upon the shell, and drills a little hole in his back, and so kills him. On the sea-shore bushels of shells are found quite riddled with holes by this crab. The star-fish was known in ancient times to prey upon the oyster. Oppian says: ' The prickly star-fish creeps on with fell deceit. To force the oyster from his close retreat. When gaping lids their widen'd void display. The watchful star thrusts in a pointed ray Of all its treasures spoils the rifled case, And empty shells the sandy hillocks grace. The drum-fish — in weight about thirty pounds, and about two feet long — swallows oyster and shell ; sometimes two or three pounds of shells are found in the stomach of this fish. The star-fishes hug the oyster, and wrap their five rays about him, but the embrace is one of death to the poor victim. It is not surprising that the inhabitants of the ocean should feed partly on shell fish ; but it is curious to find animals strictly terrestrial preying upon them. Monkeys are said to descend to the sea to devour what shell-fish they may find on the shore. The ourang-outangs are said to feed in particular on a large species of oyster ; and, fearful of inserting their paws between the open valves lest the animal should close and crush them, they first place a toler- ably large stone in the shell, and then drag out their victim 242 IMMENSE QUANTITIES OF OTSTEBS TAKEN. with safety. Monkeys are no less ingenious. Dampier saw several of them take up oysters from the beach, lay them on a stone, and beat them with another until they had demol- ished the shells. Even the fox, when pressed by hunger, will eat mussels and other bivalves; and the raccoon when near the shore subsists on them largely, particularly on oysters. A curious anecdote appeared in " Bell's Weekly Messen~ ger," of 7th January, 1821. A tradesman at Plymouth, having placed some oysters in a cupboard, was surprised on finding in the morning a mouse caught by the tail by the sudden snapping of the shell. At Ashburton, a Mrs. All- ridge had placed a dish of oysters in a cellar. A large oyster soon expanded its shell, and at the instant two mice pounced upon the " living luxury," and were at once crushed between the valves. The oyster, with the two mice dang- ling from its shell, was for some time exhibited as a curiosity. A better natural mouse-trap could not be imagined. Among birds the mollusks have many enemies. Several of the duck and gull tribes derive a portion of their subsis- tence from them. The pied oyster-catcher derives its name from this habit. Several kinds of crows likewise feed upon .shell-fish. Vultures and aquatic birds detach shell-fish from the rocks. The consumption of oysters is recorded in earliest his- tory, but their cultivation in the manner just described is a modern invention. This may account in some sense for the excessive and greatly superior production 'of this country. .Though England and France have made lately rapid strides in this direction, their production combined could hardly equal that of our own land. The quantity ta,ken from our waters is far greater than is generally supposed by those not familiar with this important business. The best statis- tics are necessarily very incomplete, and also uninteresting reading, though much might be said respecting the number PEGULIABITIEa OF THE LOBSTER. 243 of men and boats employed, the packing and pickling estab- lishments with the force employed, the quantity of oysters consumed here and exported, we will merely say in conclu- sion that the value of the trade in 1877 amounted to over twenty-five million dollars in this country alone. The Lobsters (which belong to the Crustacea or hard- shelled animals), the common species of which is so plentiful on the rocky coasts of our own country, and most parts of Europe, are generally taken in traps, sometimes made of osier twigs, also by nets, sometimes pots, always baited with animal garbage, and in some countries by torchlight, with the aid of a wooden instrument which acts like a forceps or a pair of tongs. They are also taken by the hand, but this requires dexterity, for the claws are powerful weapons of defence : one is always larger than the other, and the pincers of one claw are knobbed on the inner edge, those of the other are serrated. It is more dangerous to be seized by the serrated than by the knobbed claw. A great authority on fish matters says : " I once heard a clergj^man at a lecture describe a lob- ster as a standing romance of the sea; .an animal whose clothing is a shell, which it casts away once a year, in order that it may put on a larger suit ; an animal whose flesh is in its tail and legs, and whose hair is on the inside of its breast ; whose stomach is in its head; and which is changed every year for a new one, and which new one begins its life by devouring the old. An animal which carries its eggs within its body until they become fruitful, and then carries them outwardly under its tail ; an animal which can throw off its legs when they become troublesome, and can in a brief time replace them. Lastly, an animal with very sharp eyes placed in movable horns." The London market alone requires two millions and a half of crabs and lobsters annually. Large numbers are sent from the Scottish coasts. The west and north-west coasts of 244 L0BSTEB8 GSANGM THEIR (JOLOB. Ireland abound with fine lobsters, and wdled vessels bring from them supplies for the London market of ten thousand weekly. A large number of lobsters is brought from Norway, as many as thirty thousand arriving from that country in a single day, conveyed in wells on board steam vessels, and kept in wooden reservoirs, some of which may be seen on the Essex side of the Thames. In order that the great mass of lobsters may be kept on their best behavior in these reservoirs, the great claw is rendered paralytic by means of a wooden peg driven into a lower joint : however cruel this may seem, it prevents them from tearing each other to pieces, so pugnacious are the animals. A good-sized lobster, we are informed, will yield about twenty thousand eggs; and these are hatched (being so nearly ripe before they are abandoned by the mother) with great rapidity, it is said in forty-eight hours, and grow quickly, although the young lob- ster passes through many changes before it is fit to be pre- sented at table. During the early period of growth it casts its shell frequently. This wonderful provision for an increase of size in the lobster is perfectly surprising. It is indeed astonishing to see the complete covering of the animal cast off like a suit of old clothes, when it hides, naked and soft. in a convenient hole, awaiting the growth of its new crust or coat. Lobsters and crabs change their shell about every six weeks during the first year of their age; every two months during the second year ; and afterward the changing of the shell becomes less frequent, being reduced to four times a year. Previously to putting off their old shell, they appear sick, languid, and restless. They acquire an entirely new covering in a few days ; but during the time they remain defenseless they seek some lonely place, lest they should be attacked and devoured by such of their brethren as are not in the same weak condition. In casting their shells, it is difiicult to conceive hoAV the lobsters are able to draw the flesh of their large claws out, leaving the shells of these rOBACITT OF THE L0B8TEB. 245 entire and attached to the shell of the body. The fishermen say that previous to this operation the lobster pines away till the flesh in its claw is no thicker than the quill of a goose, which enables it to draw its parts through the joints and narrow passage near the trunk. The new shell hardens by degrees. It is supposed that the lobster becomes reproductive at the age of five years. Lobsters are very voracious ; they are also full of fighting propensities, and have frequent combats among themselves, in which limbs are often lost ; but the limb is soon replaced by the growth of a new one, rather smaller than the old one. In the water lobsters can run nimbly on their legs or small claws, and if alarmed, can spring tail foremost to a surprising distance as swift as a bird can fly. Fishermen can see them pass about thirty feet, and, by the swiftness of their motion, suppose they may go much farther. When frightened, they will spring from a considerable distance to their hold in the rocks, and will force their way into an entrance barely sufficient for their bodies to pass. Like some of the crabs, lobsters are said to be attached to particular parts of the sea. " In shelly armor wrapt, tlie lobsters seek Safe shelter in some bay or winding creek ; To rocky chasms the dusky natives cleave. Tenacious hold, nor will the dwelling leave. Nought like their home the constant lobsters prize, And foreign shores and seas unknown despise. Though cruel hands the banished wretch expel, And force the captive from his native cell. He will, if freed, return with anxious care. Find the known rock, aild to Ijis Jiome repair." In some parts of Europe the fishermen endeavor, by mak- ing violent noises, to drive the fish into their nets ; but these are so cunning, that when surrounded by the net, the whole 2^6 nooa TRAINED FOB MSmNG. shoal will sometimes escape, for if one of them springs over it, the rest will follow like sheep. The Danish fishermen have a similar mode of taking the horn-fishes, called " green-bone " from the color of their bones. They are timid, and afraid of the nets, and when the shoals approach, the fishermen commence a regular bombardment with stones, and so frighten them into their meshes. A writer mentions a similar practice in Wales : " The fishermen," he observes, " commenced their opera- tions at every ebbing of the tide, by stretching a seine across the river, several hundred paces above the coast;, and whilst drawing it towards the sea, they incessantly dis- turbed the water by beating the surface, as well as hurling into it the heaviest stones they could poise. The affrighted fish made at once for the sea, which, however, they could not reach except by passing through the intervening shal- lows. Here they were pursued by dogs trained for the purpose, and clubbed or speared by the men. I have frequently seen from one to two hundred fine fish, weighing from ten to twenty pounds each, taken in this extraordinary way." J, anocmAUS.x. GURNARD. CHAPTER XVI. ODDa AND ENDS ABO UT FISHES. |rHE description we have quoted of fishes in- habiting the Mediterranean Sea corresponds entirely with the strange and varied charac- ter ascribed to them by ancient and mod- ern Avriters. We will, however, before al- luding to any particular species of fishes, give a brief outline of their nature generally. Prom the earliest ages fishes were most extensively used as articles of diet, and at the present time they form a considerable por- tion of the food of mankind generally. In some countries they were the only money of commerce, and dried fish were paid as current coin. Mythological honors were rendered to them by the ancients ; and in the case of sharks, as men- tioned in the chapter on " The Pirates of the Ocean," they are deified on the African coasts. Fish have been perpetu- ated in coins and sculptures, from which many of the spe- cies in ancient use can still be traced. 248 VABIETY IN FORMS OF FISHEa. Pishes people the ocean with their shoals, and serve to keep in check the innumerable creatures of still lower con- struction, while they themselves are held in check, and af- ford sustenance to millions which have been placed in our system above them. In form they are the most varied be- ings in creation, and the most inventive fancy could scarcely imagine a shape or appearance to which a resemblance would not be found. They are of hideous or loathsome bulk or the most graceful form, and of gorgeous and resplendent colors ; all wondrously adapted to the different modes of obtaining their food, whether by stealth or deceit, strength or swift- ness. The general form of a fish is admirably adapted to its native element. In all fishes which require swiftness to secure their prey, the tail is the great organ of motion. The absence of any neck gives the advantage of a more exten- sive and resisting attachment of the head to the body, the greater proportion of which is left free for the play of the muscular masses which move the tail. Besides serving as the rudder or paddle, it is the tail of the fish that enables many of them to make those leaps out of the water to which we have frequently alluded to in these pages. Prom the enormous whales and sharks to the small stickleback, this power seems to belong to the greater number of fishes. The/ws on the upper surface of the fish serve to balance the body ; those on the lower surface to turn it, to move it slowly, and to keep it suspended in strong currents ; but in all these movements the assistance of the tail is observable. Some of the fins of fishes are vertical, constituting a kind of keel or rudder. They differ in number, size, and the na- ture of the rays which support them, being sometimes spiny, and in other cases soft and articulated. Those correspond- ing to arms or wings are the pectorals (the chest), invariably fixed behind the gills. Paley, in his " Natural Theology," thus sums up the actions of the fins of fishes : "The pectoral, and, more particularly SWIMMING BLADDERS IN FISHES. 249 the ventral (belonging to the stomach) fins serve to raise and depress the fish : when the fish desires to have a retro- grade motion, a stroke forward with the pectoral fin effectu- ally produces it; if the fish desires to turn either way, a single blow with the tail the opposite way sends it round at once ; if the tail strike both ways, the motion produced by the double lash is progressive, and enables the fish to dart forwards with an astonishing velocity. The result is not only in some cases the most rapid, but in all cases the most gentle, pliant, easy, animal motion with which we are acquainted. In their mechanical use, the anal fin may be reckoned the keel; the ventral fins, the outriggers; the pec- toral fins, the oars [and, we may now add, the caudal fin, the screw-propeller]. And, if there be any similitudes between those parts of a boat and a fish, observe," adds Paley, " it is not the resemblance of imitation, but the like- ness which arises from. applying similar mechanical means to the same purpose." Another powerful aid to the buoyancy of fishes is the air or swimming-bladder, which is described as a philosophical apparatus in the body of an animal. It is easy to see at the back-bone of the herring and other fishes a shining pearly- looking membrane, almost enveloped by the roe or milt of the fish. This is the air or swimming-bladder ; and it is of this, as found in the sturgeon, the carp, the ling, and many other fishes, when dried and prepared by certain processes, that the substance called isinglass is manufactured. It is the swimming-bladder that serves the fish for rising or sinking in the waters; but in such fishes as reside at the bottom of the sea or never come to the surface, this bladder is almost always wanting. How truly wonderful is this pro- vision of nature! It would be very worthy of inquiry to know by what method an animal which lives constantly in water is able to supply a repository of air. The bodies of fishes are nearly the same specific gravity as 250 RESPIRATION, SMELL, AND TASTE OF FISHES. the water in which they live, owing to the great quantity of fat they contain, so that very little effort is required to keep them at any given height, and their ascent or descent in the water. The circulation of blood is peculiar. There is but a single heart in fishes, that is, a heart consisting of only two cavities; and these correspond not to the left heart of mam- mals or birds, but to their right or pulmonic heart. Respiration is carried on by means of the gills, which take the place of lungs, and consist of a large number of blood vessels, placed near the forward extremity of the ani- mal, and protected by a bony case or covering, often defended by strong spines. The gills are placed in imme- diate communication with the heart. Water, which is impregnated with atmospheric air, entering at the mouth, is forced out again by the apertures at each side of the neck, and thus maintains almost a constant- stream or rush through them, entering and again expelled at intervals. When fishes are taken from the water, the delicate thready structure of the gills immediately collapses ; when exposed to the air a kind of suffocation ensues, and death is the result. This is the general principle of respiration in fishes, but in some cases the structure varies. The smell of fishes in some species is remarkable: they scent their prey at a great distance, and the very per- fection of this function is often fatal to them. Some fishes are so allured by scents, that by smearing the hand over with them, and immersing it in water, fishes (not sharks, let us hope) will often flock toward the fingers, and may easily be taken. Fishermen have the habit of making their bait more attractive by steeping it in some strong-smelling ingredient. On the American shores, the fishermen use putrid or damaged fish as bait for mackerel. They are thrown in a box hopper, in which a cylinder studded with knives is made to revolve by a crank. This is called the TOUGH AND SIGHT OF FISHES. 251 " bait-mill," and by its aid the contents are reduced to a kind of paste, which is thrown into the sea to attract the fish, which are then caught by lines with hooks, having a piece of polished pewter attached as a lure. In all fishes, nostrils or external openings are very apparent, and in these the nerves of smell are distributed. Taste in fishes (as in animals who almost invariably swallow their food without mastication) cannot be very acute, since their tongue is in great part bony, and is often furnished with teeth and other hard coverings. The organ of touch is in general as imperfect as that of taste: without prolonged members, and flexible fingers capable of grasping, they can scarcely explore the forms of objects by any other means than hj their lips. Certain little fleshy tendrils which some fishes possess may supply the im- perfections of touch in the other organs. The bodies of most fishes are covered with small brilliant plates of a horny nature called scales, but in some kinds these are wanting, as in the turbot and others, in place of which are found bony protuberanceg in some species, and iu others a very smooth skin without scales, and covered with a thick gelatinous secretion from the body. The scales con- sist of a substance chemically resembling the composition of bones and teeth. They usually overlap each other like tiles. Some are very thick forming a kind of armor. In general, fish have large eyes, and in particular the pupil is very broad and open, as might be expected in crea- tures who require great powers of vision in the deep, where light penetrates but scantily. The eyes have no real eye- lids, the skin passing over them mostly in a transparent form, to admit light; and they are sometimes opaque or dense. Some varieties of fish, whose eyes are fixed on the upper surface of their bodies, cannot see what prey they swallow; others have no outward indication of an eye. " No tear moistens, no eyelid shelters or wipes the surface ; the eyea 252 TEBTH. HEABING, AND BBAIN OF FISHES. of fish are only representations of that beautiful and ani- mated organ which is found in the superior class of animals," " The