The Baltic was feeling her way up the Channel, and was supposed to be two or three miles off-shore. The creaming of the breakers, flowing and dissolving over the ledges like puffs of steam, gave the first hint of danger, and before the warning was of avail, the dark shape, darker than the fog, sprang upon the dimmed vision of those on deck—a precipice that seemed to be toppling over them. “Good God! It is the South Stack!” a voice cried out, and there was no thought but of doom. The bells in the engine-room and wheel-house pealed, and the reversal of the screw sent the latherings surging toward the bow. A moment of panic among the passengers; a scurrying of figures on the bridge; the resonant, pistol-like snap of bending iron plates; a sudden resistance to progress suddenly withdrawn—a confusion of ideas, a murmur of relief, comparative tranquillity again. The hundredth chance was in favor of the Baltic, and backing into deep water, she proceeded on her way to Liverpool.

The three accidents described were without serious consequences, but in most cases the same difficulty of fog and mistaken reckoning ends in disaster. No less than five large steamers of the Guion line have been wrecked between Fastnet and Liverpool—the Chicago, the Colorado, the Montana, the Dakota, and the Idaho—representing a value of fully two and a half million dollars, without cargo. The Cunard line lost the Tripoli on the Irish coast, north of Queenstown, and the City of New York (the first Inman ship of that name) came to grief on Daunt’s Rock, near Roche’s Point. The City of Brussels, of the same line, had nearly completed her voyage and was lying off the Liverpool bar, waiting for the weather to clear, the captain acting with the utmost prudence, when an insufficiently manned and badly managed steamer, the Kirby Hall, ran her down and sank her. Account is taken here only of the passenger steamers of the well-known lines; the record would be much expanded if it included the disasters to freight lines, and to those uncared-for ocean tramps which when they go down often yield a better profit to their unscrupulous owners, through insurance money, than they do by carrying cargo while afloat.

From 1838, when the Sirius crossed the ocean, till 1879, one hundred and forty-four steamers, counting all classes, were lost in the transatlantic trade. The first was the President, which disappeared mysteriously in 1841. During the thirteen years following only one life was lost by the wreck of an Atlantic steamer, that steamer being the Cunarder Columbia, which went ashore in 1843. In 1854, however, the City of Glasgow sailed with about four hundred and eighty souls on board, and was never seen or heard from again; and in the same year the Collins line steamer Arctic, one of the fastest and finest vessels then afloat, was sunk in collision with the steamer Vesta during a dense fog, off Cape Race, and five hundred and sixty-two persons perished. Two years later the Pacific, of the same line, went to sea with one hundred and eighty-six persons on board, and was never heard from again. Between 1857 and 1864 the Allan line lost no fewer than nine steamers. In 1858 the Hamburg-American steamer Austria was burned at sea, with a loss of four hundred and seventy-one lives; in 1870 the City of Boston left port with over two hundred persons on board, never more to be heard from. On a dark night in April, 1873, the White Star steamer Atlantic ran ashore near Sambro, and five hundred and sixty lives were lost—some by drowning and some by freezing in the rigging into which they had scrambled, or upon the ice-bound shore upon which they were cast. Note must be made also of the wreck of the German steamer Schiller on the Scilly Rocks, by which two hundred lives were lost; of the running ashore in the North Sea of the North German Lloyd steamer Deutschland, by which one hundred and fifty-seven lives were lost; of the sinking through collision of the Hamburg-American steamer Pomerania, by which over fifty lives were lost; of a similar disaster to the Cimbria, of the same line, by which eighty-four were lost; and of yet another collision, which sent the beautiful Ville du Havre, of the French line, to the bottom of the English Channel, with two hundred and thirty of her passengers and crew.

Of the one hundred and forty-four vessels lost up to 1879, more than one-half were wrecked. Twenty-four never reached the ports for which they sailed, their fate still being unknown; ten were burned at sea; eight were sunk in collisions, and three were sunk by ice.

Since 1879, the most memorable disasters, besides those already referred to, have been the burning at sea of the Egypt, of the National line, and the City of Montreal, of the Inman line, both without loss of life; the stranding of the State of Virginia, of the State line, on the quicksands of Sable Island, which quickly entombed her; the sinking of the State of Florida, of the same line, by collision with a sailing ship; the disappearance of the National line steamer Erin, which is supposed to have foundered at sea; and the sinking of the magnificent Cunarder Oregon in collision with a coal schooner, off Fire Island.

No line in existence has been wholly free from calamity; no line in existence has not at least one page in its history to tell of anxious crowds besieging its wharves and offices for news of a ship that has never come in.

One speculates in vain as to the end of those ships which, sailing from port in a seaworthy condition, have disappeared without leaving a survivor to record their fate. Was it fire that consumed, or ice that crushed, or seas that swallowed them? It may have been collision in a fog, or an explosion of the boilers, or the collapse of the engine, or the bursting on board of some tremendous wave from which recovery has been impossible. Possibly boats and rafts have been lowered, and when the ship herself has sunk, there has still been hope of reaching land; days of suffering; glimpses of passing ships that have failed to see; agony spun out, and death at the end. For all the patient waiting and listening of those ashore no whisper of the secret has come, and no fuller account can be written than the word “missing.”

The region of fogs on the Atlantic is also the region of ice; fog and ice together are a greater source of peril than fog alone is, even when a ship is making land. Under the latter condition there is the chance of hearing the warning voice of the “syren,” the reverberation of the signal gun, or the tolling of the fog-bell; steam “syrens,” guns, or explosives of some kind, and bells, are all used as auxiliaries to the lighthouses in overcoming, through the medium of sound, the difficulties which fog opposes against the transmission of light. The sounding machine comes into play, and by registering the depth of water, and bearing testimony to the character of the bottom, affords further protection to the navigator. But the shoals and islands of ice, which, with their outreaching, submerged spurs, come drifting down from the Arctic into the track of the transatlantic steamers, are unprovided with anything which might tell the ship bearing upon them in thick weather of their proximity. Sometimes they may be detected by the echo from the whistle or fog-horn, and by the rapid lowering of the temperature of the water in their vicinity. These signs cannot be always counted on, however. The whistle may be going every twenty or thirty seconds, and the quartermaster posted to the leeward with the little canvas bag and the thermometer with which the sea is tested for temperature; all due precaution may be taken, and yet no warning come of the ice that is ahead. On a clear night a berg rising above the horizon will have the effulgence of a star; on a clear day it will notch the horizon with its dazzling whiteness; in a fog it looms up in the gray like a shadow upon a shadow, and is invisible till the ship is close upon it.

The Hydrographic Bureau at Washington, which is in many ways useful in transatlantic navigation, issues a series of charts of an area of ocean reaching eastward from Newfoundland. There are twelve of them, one for each month of the year, and they differ only in certain pencillings which vary from month to month. Let us examine the set issued for a recent year. In the chart for January five little pyramids are clustered together in the sea, with a sixth to the north of them; in February the pyramidal little figures can be counted by the score, surrounded by zig-zag lines—they look like an encampment; in March the zig-zag lines have disappeared, and the tents, so to speak, are more scattered; in April they are much the same as in March, but in May they have increased enormously and can be counted by the hundred, reaching from the far north to over a hundred miles southward of the Grand Banks. In June they are fewer, and in July fewer still. In August only about twenty are visible; in September not more than ten; in October two, in November one, and in December two. The zig-zag lines disappear earlier than the pyramids; the former represent field-ice, the latter ice-bergs; and thus it is seen that during one year there was not a single month in which the transatlantic route was entirely free from danger from those sources. In 1882 the bergs appeared in February and disappeared in August; February, March, and April are the months for their appearance, and they often linger till October or November.

Field-ice has its source in the Arctic basin and along the coasts of Labrador and Newfoundland, and is carried south either by the current from the Arctic or that from East Greenland. Fully eighty per cent. of the bergs have their origin in West Greenland, and most of them are fragments of glaciers, broken off in a process known as “calving,” as the glaciers slide into the deep water along-shore. Thousands are thus set adrift each year, and once adrift they begin their journey southward. Only a small proportion of the whole number ever reach the track of the steamers; some ground in the Arctic basin and break up in the frigid zone, to which they properly belong; they are very fragile, and the concussion of a gunshot is occasionally sufficient to shatter them; some are borne across from Greenland to Labrador, and lodge there until they dissolve, or crumble to pieces with the noise of thunder. The journey of those that escape disintegration in the north is slow. If they drifted directly south and met with no obstructions, they would be four or five months in reaching the transatlantic routes; and being liberated in July and August they would consequently beset the path of the steamers in December and January. Few of them, however, are not delayed, and most of them have been adrift at least a year from the time of “calving” before they arrive south enough to trouble the steamers. Some are several years in making the journey; they are held for a season in a shallow; locked up during the Arctic winter; released with the return of summer; caught again for another winter, and when once again liberated, retarded in their southward course by the necessity of ploughing through the field-ice before them. Not only are there wide variations in the date of the appearance and disappearance of the bergs in the transatlantic routes from year to year, but in different years they reach a different southern limit. It is this variability which causes mischief. If their movements were always the same, it would be easy for the captain to choose a course which would avoid them, but a course which may be entirely safe one year is often beset the next season by large quantities of ice, both in the forms of bergs and of field-ice.

The list of calamities from ice is a long one. It was only a few years ago that the Arizona, when going full speed, crashed into a berg and stove in her bows. From her stem to a point about thirty feet aft nothing remained of her but a tangle of shapeless iron, and that she did not sink immediately was due to the smoothness of the sea and the strength of her forward bulkhead, which withstood the pressure of the water and enabled her to reach St. Johns, Newfoundland. In the records of the Hydrographic Office it appears that, from 1882 to 1890, thirty-six steamers were more or less injured by ice in the North Atlantic, though some of these were freighting and coastwise vessels, and not of the class to which this article particularly refers; and the commonest explanation offered of the fate of the missing ships is collision with ice in fog or in the darkness of night.

Having come to this point, the reader is probably of the opinion that the heading of this chapter is a mistake, but the reverse of the picture has yet to be shown. Notwithstanding all the peril from fog and ice, and from the fury of cyclones and hurricanes, the steamers of the transatlantic lines are so staunchly built and so capably handled, that a man is less likely to meet with accidents on board one of them than he would be in walking the streets of a crowded city. Never before have so many passengers been carried as are carried now. The ships that were regarded as leviathans fifteen or sixteen years ago are as yachts compared with more recent additions to the various fleets. Scarcely more than ten years have elapsed since sixteen knots was the maximum speed; now it is twenty knots, with the certainty of an almost immediate increase to twenty-one or twenty-two knots. The tonnage has been increased within the same period from a maximum of five thousand to ten thousand five hundred, and while ten years ago two hundred cabin passengers were as many as any steamer could accommodate with a reasonable degree of comfort on one voyage, it is not uncommon now to find over five hundred as the complement of one steamer. When steamers of sixteen and seventeen knots were built, it was said that they were too large and too fast, and that they would surely come to grief, but experience has proved them to be as safe as any. In fact, those who are best qualified to know, declare that the augmentation of speed promotes safety.

This point was fully discussed by the captains of the principal lines not long ago, and the opinions expressed were almost unanimously in favor of the faster ships. They not only diminish the period of exposure to such dangers as there may be in the transatlantic voyage, but from the superior power of their engines and boilers they are better fitted for overcoming those dangers. They are able to escape from areas of fog and storm sooner than slower vessels, and are more easily handled in thick and in heavy weather. From the rapidity with which they can be manœuvred, they can avoid collisions which would be inevitable under some conditions with slower ships; if a collision becomes unavoidable their impetus enables them to cut the obstructing vessel in two with comparatively little injury to themselves.

It is not conceivable that the element of danger can ever be wholly eliminated from the navigation of the Atlantic, but notwithstanding the extent and difficulty of the traffic, and the size and speed of the ships, which, flying to and fro in all kinds of weather, arrive in port at all seasons with a promptness and regularity quite equal to that of express trains on land, the number of accidents in proportion to the number of passengers is constantly diminishing. More cabin passengers are carried from New York to European ports in one summer now than were carried in the whole of the first quarter of a century of steam navigation on this ocean; but while the latter period was full of disasters, such as the loss of the Arctic with four hundred and sixty-two lives, and the loss of the Austria, with four hundred and seventy-one lives, we now see hundreds of thousands of passengers crossing, with a sense of security which a remarkable record of immunity from accident fully justifies.

The improvements in the character of the accommodations have not been greater than the improvements designed to reduce the dangers of the transatlantic trip to a minimum; they are found in the structure of the hulls, the engines, and the boilers; in the apparatus of navigation; in the numbers and discipline of the crews, and in the appliances for life-saving, such as rafts and life-boats. The old ships of twenty years and more ago were built on the lines of sailing vessels, and a poop extended with scarcely a break from the fo’c’s’le to the quarter-deck. When a sea came on board it was held as in a sluice between the high bulwarks and the poop, swashing fore and aft with the pitch of the ship, until it drained off through the scuppers. Most of the state-rooms were then situated below the main deck, and after such a sea they were likely to be flooded; many old passengers will remember how frequent an occurrence it was to find their cabins inundated. This was the least mischief it did, and when several seas were shipped in rapid succession, the vessel was in danger of foundering. The modern steamer is much better protected from incoming seas, and the main deck is completely covered in, instead of the bulwarks there is a simple rail and netting, and any water shipped flows overboard as quickly as it comes on board.

But the greatest improvement of all in the direction of safety is the system of bulkheads and double bottoms introduced by the builders of the City of New York and the City of Paris. For many years past it has been the custom to divide all steamers by transverse bulkheads into so-called water-tight compartments, the purpose of which is to increase their buoyancy and stability in case of collision. The Etruria, the Umbria, the Britannic, the Germanic, and the Arizona have nine compartments each. Excellent as the theory is, the feeling of everybody acquainted with the subject has been distrustful of the manner of its application, the chief objection being the inadequacy of the number of subdivisions. Sometimes, as when the Arizona ran into the iceberg, the bulkheads have saved the ship, but in other cases they have been of little or no use, as in the case of the Oregon. The Oregon was divided into ten compartments, but she sank in a few hours after her collision with a coal schooner off Fire Island light. The compartments have invariably proved useless when the ship has been struck amidships with sufficient force to open her engine and boilers to the sea, though when the weather has been calm and the injury forward or astern, they have kept her afloat.

The insufficiency of their number in proportion to the size of the ships has not been their only defect, moreover. In order to give an unobstructed passage along the decks it has been the custom to cut doors in the bulkheads, and it has frequently happened that in the confusion following a collision these have been left open, allowing the sea to rush from compartment to compartment, either because they were forgotten or because they refused to work.

In the newest type of ship, as represented by the City of Paris and the City of New York, there are no fewer than twenty water-tight compartments separated by solid transverse bulkheads, which rise from the keel to the saloon deck, eighteen feet above the waterline, and which have no doors or openings of any kind whatever. A few feet from the stem there is a collision bulkhead of extraordinary strength to protect the ship, should she run “bow-on” against any obstacle—a reef, a derelict, or a vessel attempting to cross her path; next, aft of this come three compartments for steerage passengers or cargo; then two compartments for saloon passengers; then four compartments for boilers, coal bunkers, kitchens, and machinery; two more for saloon passengers; one for second-cabin passengers, and two, those farthest aft of all, for steerage passengers or cargo. Each compartment is thus isolated, and only by a blow in the line of the dividing bulkhead could two compartments be flooded at once; the bulkheads also serve in case of fire to prevent the flames from spreading.

Still another safeguard becomes possible through the adoption of the twin screw. The propellers are worked by two complete and entirely independent sets of boilers and engines, and these are separated by a longitudinal bulkhead in addition to the transverse bulkheads already described. In a single-screw ship this longitudinal bulkhead is impossible, and the space in which her engine and boilers are situated is her most vulnerable point; if she is struck there with sufficient force to make a fissure large enough to admit any considerable quantity of water, nothing will save her from sinking. In the case of the twin-screw ship, however, we have had the best of evidence, within the past two years, that with one of her engine-rooms flooded and open to the sea, she will still float and be navigable.

For many years past the value of the twin screw has been debated by the builders, the managers, the captains, and the engineers of the great transatlantic lines, to whom it did not commend itself so readily as to the Admiralty. It was adopted for war-ships several years before any of the well-known passenger lines ventured to use it, and its first appearance in this service was in the City of New York, four years ago. Since then it has been adopted by the White Star and the Hamburg-American lines, and though the North German Lloyd has not yet applied it to the recent accessions to its fleet, its advantages over the single screw for passenger vessels, as well as for war-ships, are more generally conceded now than ever before. The Admiralty adopted it for the security it afforded, and for its superior capacity for rapid manœuvring. Another feature which recommends it is that, should one of the two sets of engines become disabled from the breaking of the shaft, or any other cause, the opposite engine would be equal to taking the ship into port; while a similar accident on a single-screw ship would compel her to make port under sail (a very difficult feat with the modern type of ocean steamers), or to wait for another steamer to take her in tow.

Until quite recently, the breaking of the shaft was more frequent than any other kind of accident to the transatlantic steamers. When, perhaps, the ship was sailing along at full-speed, a jar would come and shake her from end to end, as though a rock or a submerged wreck had been struck. The engine would rattle and the sails flap loosely in the wind, and the familiar tremor of propulsion change to a softer heaving motion, like that of a sailing vessel. When the accident occurred in darkness and a gale, it was more alarming than in daylight and a calm sea. After a few minutes of uncertainty the news would fly that the shaft was broken, and that the captain and the chief engineer were consulting in the engine-room. Then would come days, and sometimes weeks, of drifting, with a corresponding and ever-increasing alarm on shore as the ship became overdue. Under favorable circumstances some headway could be made with sails, and occasionally the disabled vessel reached port without assistance. Oftener, however, she would drift helplessly in the vacant sea until she was sighted by another steamer powerful enough to tow her. Left to herself, she was in danger of falling into the trough of the sea and foundering, and near land she was exposed to the perils of a strong current and a lee-shore. Arriving in port, a claim for salvage was sure to be presented against her, and in some instances the amount awarded was as much as thirty thousand pounds.

A broken shaft is still a disagreeable possibility, but if one of the two shafts in a twin-screw ship breaks, the other, as with the engines, remains to avert complete disablement.

An ingenious device has lately been patented to prevent a repetition of one of the most serious of recent disasters, which was caused by the wearing away of the bracket upon which rests the final bearing of the shaft. As this bracket is, in the largest ships, fully sixty feet from the stuffing-box, a new danger is created from the fact that it is far outside the hull and out of sight of the engineers. The invention referred to consists simply of a couple of completely insulated wires, positive and negative, connected by a battery, an indicator, and an alarm-bell in the engine-room. The wires run under the shaft out through the stuffing-box, and through the casing which protects the shaft from the sea; then they enter the bracket, where they turn from the horizontal to the perpendicular, and terminate about three-quarters of an inch from the surface of the bearing. Should the surface wear away so as to imperil the shaft, the latter would instantly come in contact with the ends of the wires, the insulation would be broken, the current closed, and the alarm-bell rung. Then, of course, the engine would be stopped until an examination could be made.

Though it promotes safety and is winning favor, the twin screw has been applied so far only to the City of Paris, the City of New York, the Teutonic, the Majestic, the Columbia, the Normannia, the Fürst Bismarck, and the Augusta-Victoria. Credit for the infrequency of broken shafts does not belong wholly to this device, therefore, but in a much larger measure to the substitution of steel for iron and other improvements in the form and materials of the marine engine.

The City of New York and the City of Paris are also provided with double bottoms, so that, should the outer skin be torn, the inner one would still exclude the sea; and the efficacy of oil in calming the troubled waters has been so well established that apparatus for its distribution is placed in the bows. The number of officers and seamen has been augmented, so that the staff of navigating officers now comprises the captain, the chief officer, two second officers, two third officers, and two fourth officers. Great improvements have also been made in the mariner’s compass and in the patent log and sounding machine. The latter can be used when the ship is going at a high rate of speed, and it records not only the depth of water but the character of the bottom, which is nearly always a clue to the position of the ship when other signs fail. Had these instruments been less perfect, we could not have made our way, with so little delay, past Fastnet and up the Channel to Holyhead, when the fog descended as we were making land.

Still another improvement is in the material of which the propellers are cast. In the new ships it is manganese bronze, which has nearly double the strength of steel and is practically unbreakable.

Sixteen or seventeen years ago the principal lines began to adopt the system of “steam lanes” originally suggested by Professor M. F. Maury, as long ago as 1855—that is, to prescribe definite courses for their steamers, based on calculations as to probable areas of fog and ice. In following these fixed courses the steamers pass each other at an hour and a point on the ocean which can be foretold almost to a certainty, and should one of them meet with an accident, there is every probability that succor will reach her through one of her companion ships.

So keen is the rivalry between the various lines, and so much does their success depend on a reputation for safety, that self-interest, in the absence of a higher motive, is sufficient to stimulate them to leave nothing undone, in the construction and manning of their vessels, which may in any way be the means of averting disaster. In furtherance of their efforts, the British and American governments unite in giving them the most perfect system of lights, buoys, and fog-signals in the world. When twenty or more miles at sea, the captain may discern the rays of the first light, and as he nears port and enters the Channel, there are nearly as many beacons as lamp-posts in a city street.

No testimony to the efficiency of the transatlantic service is more convincing than the record of 1890. The steamers were exposed, as they must be every year, to dangers from collision, from ice, from hurricanes, from drifting derelicts, on their way up and down the crowded Channel and through the shifting sands at the estuary of the Mersey; they were constantly embarrassed by fogs. Nearly two thousand trips were made from New York alone to various European ports: about two hundred thousand cabin passengers were carried to and fro, in addition to nearly three hundred and seventy-two thousand immigrants who were landed at Castle Garden. This enormous traffic was conducted without accident, and no more comforting assurance can be given than this of safety on the Atlantic.

THE OCEAN STEAMSHIP AS A FREIGHT CARRIER.

By JOHN H. GOULD.

Revenue of the Ship’s Cargo—Amount of Freight Carried by Express Steamships—Gross Tonnage of Important Lines Running from New York—The Merchant Marine of the United States—The “Atlantic Limited”—The Sea Post-office—In the Specie Room—Enormous Refrigerators—The New Class of “Freighters”—Large Cargoes and Small Coal Consumption—The Ocean “Tramp”—Advantages of the “Whaleback”—Vessels for Carrying Grain—Floating Elevators—The Fruit Steamship—Tank Steamships for Carrying Oil—Peculiarities of their Construction—The Molasses Ship—Scenes on the Piers when Steamships Are Loading—Steam Hoisting Apparatus—How The Freight is Stowed—Coaling—The Loading of Cattle Ships—“Cowboys of the Sea”—Ocean Traffic the Index of a Nation’s Prosperity.

INTERESTING as the ocean fleet is from the point of view of the passenger who crosses the seas on business or pleasure bent, the part that steamships play in the commerce of the world is even more worthy of consideration. There is a vast region between decks and down in the lower hold of which the ordinary traveller knows little. And yet the ship’s cargo brings to the owners a large portion of their revenue, and makes possible the magnificent steamships of to-day.

There are $500,000,000 invested in ocean-going steamships sailing from the port of New York alone! The figures are appalling, yet they are a conservative estimate of the wealth intrusted to the mercies of the ocean. There are twenty-nine regular lines of steamships running between New York and European ports. Of these, eight lines run express steamships, and twenty-three lines carry passengers and freight. The other six lines transport freight only, and there are still other lines running to the West Indies, Central and South America, and our own Atlantic coast and Gulf ports.

Seven steamship companies—the White Star, Inman, Cunard, North German Lloyd, Hamburg-American, Guion, and the French line—have the record-breakers.

The Teutonic and the Majestic of the White Star line, and the new French liner La Touraine, are said to have cost $2,000,000 each. The City of Paris and the City of New York, of the Inman line, and the new Hamburg-American steamship First Bismarck are supposed to have cost considerably over $1,500,000 each.

The White Star line steamships Majestic and Teutonic each carry, in addition to their 1,500 passengers, some 2,500 tons of freight. This line has in all ten steamships—six devoted to passengers and freight, and four to freight exclusively.

The Inman line steamships City of Paris and City of New York carry 1,200 passengers each, and still have room for 2,700 tons of freight.

The Cunarders Etruria and Umbria have each accommodations for about 1,600 passengers, and also take about 800 tons of freight.

The North German Lloyd line has twelve express steamships in the service, with an average passenger capacity of 1,150 for all classes. The freight capacity varies from 2,000 to 2,500 tons: the line has three sailing days each week. There are nine other steamships of the line sailing between this port, Baltimore, and Europe, making the total number of their vessels twenty-one. In October, 1891, the line inaugurated a Mediterranean service. At all times there are eight of the express steamships belonging to this line at sea, and two are in port at New York and two in the European port.

The Hamburg-American Packet Company has four express steamships, forming a weekly service from New York, and which is almost entirely devoted to the passenger business. These vessels each accommodate about 1,250 passengers of all classes. They have a small freight capacity—from about 600 to 700 tons of light cargo being the limit. No perishable goods are taken.

The Guion line steamships Alaska and Arizona have passenger accommodations for 1,300 and 1,100, respectively, and their freight capacity is about 2,000 tons.

The Compagnie Générale Transatlantique, or, as it is more frequently called, the French line, has six express steamships, with a freight capacity of 2,500 tons each, as well as accommodations for about 1,000 passengers.

The Wilson line, with its thirty steamships, is one of the greatest freight carriers in the world. There are four distinct lines from New York, one running to Hull, one to Antwerp, one to Newcastle, and one to London. The latter is known as the Wilson-Hill line. The Atlantic fleet, flying the Wilson flag, has 114,000 gross tonnage. Some of the steamships of this line have passenger accommodations, but the company confines itself almost exclusively to the carrying of freight.

The number and gross tonnage of steamships of the different lines are shown in the following table, the tonnage being from “Lloyd’s Register:”

Transatlantic Lines.

This list gives only the regular lines engaged in the freight and passenger business, besides which there are the tank steamships, the tramp steamships, and a large number of vessels which call for orders from other ports, as well as steamships which are chartered for special freights.

Central and South American, West Indian, and other Lines from New York.

Besides the regular lines there is a big fleet of tramp steamships. During the fiscal year ending June 30, 1891, 136 of these steamships, with 102,856 net registered tonnage, entered at the port of New York. This did not include the tramps who found their way here from West Indian and South American ports, or our own domestic ports, or those who may have drifted in from provincial ports. Many foreign tramps find their way to this port in ballast, seeking cargo, or for orders.

Aside from all these lines to foreign ports, there are our coastwise steamships, operated by a dozen or more lines, prominent among them being the Old Dominion, the Savannah, the Clyde, the Mallory, the Cromwell, the Morgan, the New York Steamship Company, and the Red Cross lines.

The ocean steamship lines require an auxiliary fleet of harbor vessels as tenders to them. Of these, the most numerous are the tow-boats, or tugs, as they are popularly called. There are 375 tow-boats registered at New York, but fully 400 float on the waters in the vicinity of the city. About 50 tow-boats have a gross tonnage of over 100 tons. Among the largest are the Amboy, of 272 tons, and the Luckenback, an ocean tug, of 255 tons. Still larger than these are the Vanderbilt and Oswego, the side-wheelers which pull the long strings of canal-boats up and down the Hudson. The tow-boats are fitted with powerful engines, and the facility with which one little tug will pull a ship many times her size, or a dozen canal-boats, is a marvel to the visitor from inland districts. The most powerful of these tugs have engines of 900 indicated horse-power, and of the type known as the fore-and-aft, or tandem. Two of these harbor tugs, the Amboy and the Raritan, both belonging to the Pennsylvania Railroad Company, have been operated with twin screws for twenty years at least.

Less than twenty-five per cent. of the freight trade of the country is carried on by ships flying the Stars and Stripes. During the calendar year of 1890, 33,359 vessels engaged in foreign trade entered at the ports of the United States. Their total tonnage was 18,510,374. American vessels, to the number of 11,033, carried 4,334,774 tons of the total amount, and foreign ships handled 14,175,600 tons. The merchant marine of the United States has a total tonnage of 4,424,497. The coastwise fleet has an aggregate tonnage of 3,409,435; the foreign trade, 928,062; and vessels registering 87,000 tons are engaged in the cod and whale fisheries. The vessels belonging to the port of New York in 1890 were 1,976 sailing vessels, of 409,468 tons; 1,032 steam vessels, of 374,673 tons; 230 canal boats, of 23,709 tons; and 671 barges, of 143,540 tons.

The volume of the ocean freight is enormous. Some idea of it can be gathered from the statistics of imports and exports issued by the United States Government. Of cotton alone, the vast quantity of 2,907,308,000 pounds was shipped from American ports during the fiscal year ending June 30, 1891. This is the largest quantity of cotton sent out of the country in any one year. The value of the cotton exported was $290,708,898, which is nearly half the value of the sum total of the four leading agricultural products. This amounted to $588,251,912. Next to cotton, the most important agricultural products exported were breadstuffs, including grain, which were valued at $127,668,092. Provisions, including meats and dairy products, amounted to $31,696,234. It is worth noting that the total value of the exports of these five leading products was $15,263,951 in excess of the same products in the previous year. The total value of exports and imports of merchandise, during the fiscal year ending June 30, 1891, was $1,729,330,896, an increase of $82,191,803 over the previous year, and of $241,797,869 since 1889. The foreign commerce of the United States for the year 1890 was the largest in the history of the country. The movement of the vast quantities of agricultural products and manufactured goods kept the ocean fleet busy. Forty per cent. of the total export trade of the United States goes from the port of New York. During 1890 the export business from the five principal ports was as follows: New York, $370,322,430; New Orleans, $107,300,637; Baltimore, $73,967,796; Boston, $70,364,955; and Philadelphia, $37,241,645. The total from all ports was $881,076,017. The imports in 1890 amounted to a total of $823,286,735, out of which New York received $527,497,196, considerably over one-half. It might be noted in passing, that of the total amount of customs duties collected by the Government in 1890, 67.17 per cent. came from New York.

Time is a great factor in ocean freight transportation, as well as in the passenger business. In the old days when the clipper ship was considered a perfect type of ocean travel, twenty days was a quick passage between New York and Liverpool, and when the Red Jacket made her famous trip in 13 days, 1 hour, and 25 minutes, the feat created as much excitement as the breaking of a record by an ocean greyhound does in these days of marine triumphs. The trip was made in 1854, and was an eastward one, the sailer logging 3,017 miles from Sandy Hook to Liverpool. In the following year the clipper ship Mary Whitredge ran from Baltimore to Liverpool in 13 days and 7 hours; she travelled 3,400 miles. Another remarkable trip was made by the Dreadnaught in 1860. She sighted the Irish coast in 9 days and 17 hours after leaving New York; but it took her three days longer to reach Liverpool. An instance showing the sailing quality of the old clipper ships occurred in 1864. The Adelaide, of the Williams & Guion line, while on her way down New York Bay, was passed by the steamship Sidon, of the Cunard line; but the Adelaide arrived in the Mersey before the Sidon, having made the passage in 12 days and 8 hours.

The clipper ship was the ocean greyhound of the Fifties. Her lines were those of a racer, her towering masts and broad expanse of canvas gave her the benefit of every breeze. She carried only the better class of freight in addition to her passengers, and it was not until some time after steamships had become an established fact that the passengers abandoned the clippers to the freight traffic.

For a time the sailing vessels held their own as freight carriers, but the improvements in steamships of recent years have robbed them of the bulk of their trade. They still hold their own for long sea voyages. There is a limit to the use of steam, and it is reached when the distance to be travelled makes the cost of coal and the space it occupies greater than the value of the cargo will warrant. Until some new motive power replaces steam, or steam is produced by the use of petroleum or other concentrated fuel, the clipper ship still has an occupation, and the hearts of all old-time skippers will be gladdened by the sight of her white wings upon the seas.

In 1850 a 1,400-ton sailing vessel was considered a big ship, but some of the new British four-masted steel ships sailing between Europe and America carry from 5,000 to 6,000 tons of cargo.

Great as have been the changes in ocean transportation, still greater changes are pending. The transatlantic business shows the most marked changes. From the old time packetship to the early type of steamship was but the first step. Faster vessels were built, and the space devoted to cargo was encroached upon by enormous engines and boilers, by big coal bunkers, and by large saloons and an increased number of state-rooms. The hulls changed from the bulging sides of the first types to the narrow, racing pattern of to-day. Speed and the arrangements for the comfort of a large list of passengers robbed the vessels of their freight capacity, and now the freight of an ocean greyhound is a secondary consideration. This necessitated the creation of a distinct class, known as the freighter.

The first railway cars having compartments for passengers, baggage, and freight were changed to express trains, where speed and comfort are the first considerations, and freight trains, where carrying capacity is the main object. In just the same manner, and for the same reasons, the ocean traffic is undergoing changes. The day cannot be far distant when the passenger ships will take only passengers, mails, specie, and express packages. The best-informed nautical men to-day declare that the progress of the last five years, remarkable as it has been, is but a circumstance compared with the possibilities of the future.