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All Afloat Part 3

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It was the change from wood to metal that caused the decline of s.h.i.+pbuilding in Canada. It was also partly the change to steam; but only partly, for Canada started well in the race for building steams.h.i.+ps.

What proves that the disuse of wood was the real cause of the decline is the fact that Canada never even attempted to compete with other countries in building metal sailing vessels. If Canada had developed her metal industries a generation sooner she would have had steel clippers running against 'Yankees,' 'Britishers,' and German 'Dutchmen'; for there was a steel-built sailing-s.h.i.+p age that lasted into the twentieth century and that is not really over yet. Indeed, even wooden and composite sailers are still at work; and with their steel comrades {77} they still make a very large fleet. Singular proof of this is sometimes found. Nothing collects sailing s.h.i.+ps like a calm; vessels run into it from all quarters and naturally remain together till the breeze springs up. But, even so, most readers will probably be surprised to learn that, only a few years ago, a great calm off the Azores collected a fleet of nearly three hundred sail.

Canadian s.h.i.+pbuilders had some drawbacks to contend with. One was of their own making. Certain builders in the Maritime Provinces, especially at Pictou and in Prince Edward Island, turned out such hastily and ill constructed craft as to give 'Bluenoses' a bad name in the market. By 1850, however, the worst offenders were put out of business, and there was an increasing tendency for the builders to sail their own vessels instead of selling them.

A second, and this time a general, drawback was the difficulty of getting Canadian-built vessels rated A1 at Lloyd's. 'Lloyd's,' as every one knows, is the central controlling body for most of the marine insurance of the world, and its headquarters are in London. There were very few foreign 'Lloyd's' then, and no colonial; so it was a serious matter when the {78} English Lloyd's looked askance at anything not built of oak.

Canada tried her own oak; but it was outcla.s.sed by the more slowly growing and sounder English oak. Canada then fell back on tamarac, or 'hackmatac,' as builders called it. This was much more buoyant than oak, and consequently freighted to advantage. But it was a soft wood, and Lloyd's was slow to rate it at its proper worth. Tamarac hulls went sound for twenty years, and sometimes forty, especially when hardwood treenails were used--a treenail being a bolt that did the service of a nail in woodwork or a rivet in steel plating. At first Canadian vessels were only rated Al for seven years, as compared with twelve for those built of English oak. A year was added for hardwood treenails, and another for 'salting on the stocks.' In 1852 Lloyd's sent out its own surveyor, Menzies, who would guarantee work done under his own eye for twenty-five cents a ton; while Lloyd's, for its part, would give preferential rates to any vessels thus 'built under special survey.'



Perhaps Canadian timber is not as lasting as the best European.

Certainly it has no such records of longevity; though there is no reason why Canadian records should not be better than they are in this respect.

Few {79} people know how long a well-built and well-cared-for s.h.i.+p can live. Lloyd's register for 1913 contains vessels launched before Queen Victoria began to reign. Merchantmen have often outlived their century.

Nelson's _Victory_ still flies the flag at Portsmouth, though she was laid down the year before Wolfe took Quebec. And the _Konstanz_, a thirty-five-ton sloop, still plies along the Danish coast, although her launch took place in 1723--a hundred and ninety years ago.

A third drawback for Canadian builders was the lack of capital.

s.h.i.+pbuilding fluctuates more than most kinds of business, and requires great initial outlay as well; so failures were naturally frequent. The firm of Ross at Quebec did much to steady the business by sound finance.

But the smaller yards were always in difficulties, and no s.h.i.+pbuilder ever made a fortune.

Excellent craft, however, came out of Canadian yards: notable craft wherever they sailed. One of the best builders at Quebec was a French Canadian, whose beautiful clipper s.h.i.+p _Brunelle_, named after himself, logged over fourteen knots an hour and left many a smart sailer, and steamer too, hull down astern. Mackenzie of Pictou was builder and {80} skipper both. With the help of a friend he began by cutting down the trees and doing all the rest of the work of building a forty-five-ton schooner. By 1850 he had built a fourteen-hundred-tonner, the famous _Hamilton Campbell Kidston_, which greatly astonished Glasgow, for she was then the biggest s.h.i.+p the Clyde had ever seen. His last s.h.i.+p was launched in the 'record' year of 1865. The Salter Brothers did some fine work at the 'Bend,' as Moncton was then called. Their first vessel, a barque of eight hundred tons, was sold at once in England. Next year they built a clipper s.h.i.+p called the _Jemsetgee Cursetgee_ for an East Indian potentate, who sent out an Oriental figurehead supposed to be a likeness of himself. A peculiar feat of theirs was rigging as a schooner and sending across the Atlantic a scow-like coal barge ordered by a firm in England.

The decline of Canadian sailing craft was swifter than its rise; and with the sailing craft went the Canadian-built steamers, because wood was the material used for both, and the use of iron and steel in the yards of the British Isles soon drove the wooden hulls from the greater highways of the sea. Once the palmy days of the third quarter of the century were {81} over the decline went on at an ever-increasing rate. In 1875 Canada built nearly 500 vessels, and, if small craft are included, the tonnage must have nearly reached 200,000. In 1900 she built 29 vessels, of 7751 tons--steam, steel, wood, and sail. s.h.i.+powning does not show such a dramatic contrast, but the decline has been very marked. Within twenty-two years, from 1878 to 1900, the Canadian registered tonnage was almost exactly halved. The drop was from a grand total, sail and steam together, of a million and a third, which then made Canada the fourth s.h.i.+powning country in the world and put her ahead of many nations with more than ten times her population.

{82}

CHAPTER VI

SAILING CRAFT: THE BUILDING OF THE s.h.i.+P

s.h.i.+pbuilding was and is a very complex industry. But only the actual construction can be noticed here, and that only in the briefest general way. The elaborate methods of European naval yards were not in vogue anywhere in Canada, not even in Quebec, much less in Nova Scotia. It was not uncommon for a Bluenose crew to make everything themselves, especially in the smaller kinds of vessels. They would cut the trees, draft the plan, build the s.h.i.+p and sail her: being thus lumbermen, architects, builders, and seamen all in one. The first step in building is to lay the blocks on which the keel itself is laid. These blocks are short, thick timbers, arranged in graduated piles, so that they form an inclined plane of over one in twenty, from which the completed hull can slide slowly into the water, stern first. Then comes the laying of the keel, that part which is to the whole vessel what {83} the backbone is to a man. A false keel is added to the bottom of this in order to increase its depth and consequent grip.

This prevents the side drift which is called making leeway. The false keel is only fastened to the keel itself from underneath, because such a fastening is strong enough to resist water pressure and weak enough to allow of detachment in case of grounding. The slight projection of the keel itself then gives too little purchase for a dangerous amount of leverage on the frame. A long keel is made up of several pieces of square timber, with their ends shaped into scarfs, an overlapping and interlocking arrangement of great strength. The foremost keel piece is scarfed into the stem, which is the fore-end of the vessel's bow. The aftermost keel piece joins the stern-post, on which the rudder hangs.

Elm makes a good keel, especially with oak for stem and stern-post.

The frame, to pursue our simile, is to the s.h.i.+p what ribs are to our bodies. In the same way the planking is the skin. The frame, or ribs, determines the vessel's form. There were, and still are, many varieties of frame. In a very small vessel there are very few timbers.

The keel is probably all in one piece, and the planks may possibly run from stem {84} to stern without a break. In this case the unity of each piece supplies enough longitudinal resistance to strains. But when a vessel is large, and more especially when she is long, the strains known as hogging and sagging are apt to rack her timbers apart.

A s.h.i.+p is not built for mere pa.s.sive resistance, like a house, or even for resistance only to pressures and vibrations, like a bridge. She is built to resist every imaginable strain of pitching and rolling, and so requires architectural skill of a far higher kind than is required (in the constructional, not the aesthetic, sense) for any structure on the land. When a s.h.i.+p is on the top of a single wave she tends to hog, because there is much less support for her ends than for her centre, and so her ends dip down, racking her upper and compressing her lower parts amids.h.i.+ps. When the seas are shorter she often has her ends much more waterborne than her centre, and this in spite of the fact that the extreme ends are not naturally waterborne themselves. Then she sags, and the strains of racking and compressing are reversed, because her centre tends to sink and her ends to rise. Now, a series of hogging and sagging strains alternately compresses and opens every resisting join in every {85} timber, with the inevitable result of loosening the whole. To meet these strains longitudinal strength must be supplied.

The keel supplies much of it, so does the planking (or skin) to a lesser degree; but not enough; and the ribs, by themselves, are for transverse stiffening only. Four means are therefore employed to hold the parts together lengthwise--keelsons, shelf-pieces, fillings, and some form of truss.

The keelson is an inverted keel inside the vessel. The floors, which are the timbers uniting the two sides of the frame (or ribs), are given a middle seating on the keel. The keelson is then placed over them, exactly in line with the keel, when bolts as long as the thickness of all three are used to unite the whole in one solid backbone, and this backbone with the ribs. Side or 'sister' keelsons were used in the Navy on either side of the mainmast for a distance equal to about a third of the length of the keelson. But they were little used in merchant vessels, and their longitudinal resistance was only partial and incidental. Shelf-pieces and waterways were adapted from French models by Sir Robert Seppings, who became chief constructor to the Navy some years after Trafalgar. They are thick timbers running continuously under and {86} over the junctions of the deck beams with the s.h.i.+p's sides, to both of which they are securely fastened.

The keelson was an old invention and shelf-pieces and waterways were soon in vogue. But fillings and trusses, both expensive improvements, were not much favoured in any mercantile marine. The truss is even older than the keelson, having been used by the ancient Egyptians at least thirty-five centuries ago, and probably earlier. Four to eight pillars rose in crutches from the bottom amids.h.i.+ps to about six feet above the gunwale. The Egyptians ran a rope over the crutches and round the mast, and then used its ends to brace up the stem and stern.

The moderns discarded the rope, took the strains on connecting timbers, and modified the truss, sometimes out of recognition. But many Canadian and American river steamers of the twentieth century A.D.

employ the same principle for the same object as the Egyptians of the seventeenth century B.C. Fillings came from the French, like shelf-pieces and waterways. Seppings put them between the ribs, in the form of thick timbers. The whole frame thus became almost solid against any tendency of the ribs to close together, and quite strong {87} enough against their other tendency to draw apart.

All means that strengthen a well-built hull longitudinally have also been made to add their quota to its transverse strength. The ribs spring from the solid ma.s.s of their own floors bolted in between the keelson and the keel; and the planking, or skin, is let into the rabbets, or side grooves, of the keel and firmly fastened to the ribs throughout by hardwood pegs called treenails. The decks are, in themselves, a source of weakness. The beams supporting them are like the rafters of a house, which, of course, work the walls apart under pressure from the floors--and here, as in every other detail, the stability required for a house is nothing to what is required for a s.h.i.+p. The way to overcome this difficulty is to make the decks and beams so many bridges holding the sides together. At the point of junction of every beam-end with a shelf-piece, waterway, and rib there is an arrangement of bolts and dowellings (or dovetailings) which makes the whole as solid as possible. An extra bolt through the waterway, rib, and outside planking adds to the strength; and a knee, or angular piece of wood or iron connecting the shelf with the under side of the beam, almost completes the {88} beam-end connection. The final touches are the clamps below the shelves and the spirketing above the waterways, with short-stuff between the clamps of one deck and the spirketing of the next below.

All this is only the merest suggestion of what is done for the main part of the vessel's hull. The ends require many modifications, because the shape there approaches a V, and so the floors cannot cross the keel as holding bodies. But the breast-hooks forward and crutches aft, the deck transom, which is the foundation for the deck abaft as well as the a.s.semblage of timbers uniting the stern to the body of the vessel, with all the other parts that make up the ends, cannot be more than mentioned here. Then come the decks, which are quite complex in themselves, and still more complex by reason of the mast-holes and hatchways cut out of them all, and the windla.s.s, bitts, and capstan built into the one that is exposed to the storm. To make sure that whatever strength is taken out by cutting is restored in some other way, and that the exposed deck which has to resist the strains put upon the structures built into it is specially reinforced, the most careful provision must be made for the mast-holes; for the hatchways {89} with their coamings fore and aft on carlings that reach from beam to beam; for the riding bitts, which are posts to hold the cable when the vessel is at anchor, and which must therefore be immensely strong; for the windla.s.s, which in the merchant service often did the double duty of the bitts and capstan; and for a multiplicity of other parts.

A landsman could hardly believe what a marvellous adjustment of co-operating parts is required for a s.h.i.+p unless he actually watches its construction. He will then understand why it is by far the most wonderful structure man has ever built throughout all the ages of his evolution. It represents his first success in mastering an element not his own; and, whatever the future may see in the way of aviation, the priority of seamans.h.i.+p will always remain secure by thousands and thousands of known and unknown years.

But we are still no farther than a few parts of the hull. There is the stepping of the masts, with their heels set firm and square above the keel, and their rake 'right plim' throughout. Then there is the whole of the rigging--a perfect maze to look at, though an equally perfect device to use; the sails, which require the most highly expert workmans.h.i.+p to make; {90} the rudder, and many other essentials.

Finally, there is all that is needed in every well-found vessel which is 'fit to go foreign.' No vessel would go far unless its under-water parts were either sheathed, tarred, or tallowed; for sea-worms burrow alarmingly, and 'whiskers' grow like the obnoxious weeds they are.

These particulars, of course, leave many important gaps in the process.

Then the hull has to be transferred from the inclined plane of block piles, on which it was built, to a cradle, on which it moves down the sliding-ways into the water.

When everything is ready, the christening of the s.h.i.+p takes place. A bottle of wine is broken against her bows and her name is p.r.o.nounced by some distinguished person in a formula which varies more or less, but which is generally some version of the good old English benediction: 'G.o.d bless the Dreadnought and all who sail in her.' No matter what the name may be, the s.h.i.+p herself is always 'she.' Many ingenious and mistaken explanations have been given of this supposedly female 'she.'

The schoolboy 'howler' on the subject is well known: 'All s.h.i.+ps are "she" except mail boats and men-of-war.' Had this schoolboy known a very little more he might {91} have added jacka.s.s brigs to his list of male exceptions. The real explanation may possibly be that the English still spoken at sea is, in some ways, centuries older than the English spoken on land, and that the nautical 'she' comes down to us from the ancient days in which all inanimate objects were endowed with life in everyday speech and neuters were as yet unknown.

Immediately this most stirring ceremony ceases, the stentorian order comes to 'Down dog-sh.o.r.e!' on which the dog-sh.o.r.e trigger is touched off, the dog-sh.o.r.es fall, an awakening quiver runs through the sliding-ways and cradle; and then the whole shapely vessel, still facing the land from which she gets her being, moves majestically into the water, where her adventurous life begins.

{92}

CHAPTER VII

SAILING CRAFT: 'FIT TO GO FOREIGN'

We will suppose that the s.h.i.+p is complete in hull, successfully launched, and properly rigged and masted. The two questions still remaining are: what is her crew like, and how does she sail?

The typical British North American crew of the nineteenth-century sailing s.h.i.+p is the Bluenose crew. Newfoundlanders were too busy fis.h.i.+ng in home waters, though some of them did s.h.i.+p to go foreign and others sailed their catch to market. Quebeckers built s.h.i.+ps, but rarely sailed them; while the Pacific coast had no s.h.i.+pping to speak of. Thus the Bluenoses had the field pretty well to themselves.

Bluenoses were so called because the fog along the Nova Scotian and New Brunswick coast was supposed to make men's noses bluer than it did elsewhere. The name was generally extended by outsiders to all sorts of British North Americans; and, of course, was also applied {93} to any vessel, as well as any crew, that hailed from any port in British North America, because a vessel is commonly called by the name of the people that sail her. 'There's a Bluenose,' 'that's a Yankee,' 'look at that Dago,' or 'hail that Dutchman' apply to s.h.i.+ps afloat as well as to men ash.o.r.e. And here it might be explained that 'Britisher'

includes anything from the British Isles, 'Yankee' anything flying the Stars and Stripes, 'Frenchie' anything hailing from France, 'Dago'

anything from Italy, Spain, or Portugal, and 'Dutchman' anything manned by Hollanders, Germans, Nors.e.m.e.n, or Finns, though Norwegians often get their own name too. A 'chequer-board' crew is one that is half white, half black, and works in colour watches.

[Ill.u.s.tration: s.h.i.+P _BATAVIA_, 2000 TONS. Built by F.-X. Marquis at Quebec, 1877. Lost on Inaccessible Island, 1879. From a picture belonging to Messrs Ross and Co., Quebec.]

Hard things have often been said of Bluenose crews. Like other general sayings, some of them are true and some of them false. But, mostly, each of them is partly true and partly false: and--'circ.u.mstances alter cases.' The fact is, that life aboard a Bluenose was just what we might expect from crews that lived a comparatively free-and-easy life ash.o.r.e in a spa.r.s.ely settled colony, and a very strenuous life afloat in s.h.i.+ps which depended, like all s.h.i.+ps, on disciplined effort for both success {94} and safety. When national discipline is not very strong ash.o.r.e it has to be enforced by hook or by crook afloat. The general public never bothered its head much about seamen's rights or wrongs in a rather 'hard' new country managing its own maritime affairs. So there certainly were occasional 'h.e.l.l s.h.i.+ps' among the Bluenoses, though very rarely except when there were Bluenose officers with a foreign crew.

This was quite in accordance with the practice all along the coast of North America. Even aboard the famous Black Ball Line of Yankee transatlantic packets in the forties there was plenty of 'handspike hash' and 'belaying-pin soup' for s.h.i.+rkers or mutineers. The men before the mast were mostly foreigners and riff-raff Britishers; very few were Yankees or Bluenoses. Discipline had to be maintained; and it was maintained by force. But these were not the real h.e.l.l s.h.i.+ps.

'h.e.l.l s.h.i.+ps' were commonest among deepwatermen on long voyages round the Horn, or among the whalers when the best cla.s.s of foremast hands were not to be had. Many of them are much more recent than is generally known; and even now they are not quite extinct. 'Black Taylor,' 'Devil Summers,' and 'h.e.l.l-fire {95} Sloc.u.m' are well within living memory. Black Taylor came to a befitting end. Because the rope surged at the capstan he kicked the nearest man down, and was jumping to stamp his ribs in, when the man suddenly whipped out his knife and ripped Black Taylor up with a New Orleans n.i.g.g.e.r trick-twist for which he got six months, though really deserving none.

But such mates and skippers always were exceptions; and, as a general rule, no better crews and vessels have ever sailed the sea than the Yankees at their prime. Their splendid clippers successfully challenged the slower Britishers on every trade route in the world. At the very time that the _America_ was beating British yachts hull-down, the old British East Indiamen were still wallowing along with eighty hands to a thousand tons, while a Yankee thousand-tonner could sail them out of sight with forty. The British excuse was that East Indiamen required a fighting crew as well as a trading one, and that British vessels were built to last, not simply put together to make one flashy record. But after the Napoleonic wars the British Navy could police the world of waters; so double numbers were no longer needed; and if East {96} Indiamen were built to last, how was it they only went an average of six times out and six times home before being broken up?

Nor was it only in speed that the Yankees were so far ahead. They paid better wages, they gave immeasurably better food, they were smarter to look at and smarter to go, their rigging was tauter, their sails better cut and ever so much flatter on a wind, their cargo more quickly and scientifically stowed, and, most important point of all, their discipline quite excellent. Woe betide the cook or steward whose galley or saloon had a speck of dirt that would make a smudge on the skipper's cleanest cambric handkerchief! It was the same all through, from stem to stern and keel to truck, from foremast hand to skipper.

Aboard the best clippers the system was well-nigh perfect. Each man had found, or had the chance of finding, the position for which he was most fit. The best human combination of head and heart and hand was sure to come to the top. The others would also find their own appropriate levels. But s.h.i.+rkers, growlers, flinchers, and mutineers were given short shrift. The officers were game to the death and never hesitated to use handspikes, fists, or firearms whenever the occasion required it. {97} As for sea-lawyers--the canting equivalent of ranting demagogues ash.o.r.e--they could hardly have got a hearing among any first-rate crew. No admiralissimo ever was a greater hero to a junior mids.h.i.+pman than the best Yankee skippers were to the men before the mast. There's no equalitarian nonsense out at sea.

This digression springs from and returns to the main argument; because the Yankee excellence is so little understood and sometimes so grudgingly acknowledged by British and foreign landsmen, and because Bluenose and Yankee circ.u.mstances and practice were so much alike.

Britishers were different in nearly all their natural circ.u.mstances, while, to increase the difference, their practice became greatly modified by a deal of good but sometimes rather lubberly legislation.

And yet all three--Britisher, Bluenose, and Yankee--are so inextricably connected with each other that it is quite impossible to understand any one of them without some reference to the other two.

Bluenose discipline was good, very good indeed. When the whole s.h.i.+p's company was Bluenose discipline was partly instinctive and mostly went well, as it generally did when Yankees and Bluenoses sailed together.

The whole population of the little home {98} port--men, women, and children--knew every vessel's crew and all about them. The men were farmers, fishermen, lumbermen, s.h.i.+pbuilders, and 'deepwatermen,' often all in one. Among other peoples, only Scandinavians ever had such an all-round lot as this. Even in the present century, with its increasing multiformity of occupation, books full of nauticalities can be read and understood in these countries by everybody, though such books cannot be read elsewhere except by the seafaring few. Business meant s.h.i.+ps or s.h.i.+pping; so did politics, peace and war, adventure and ambition.

But there is a different tale to tell when the tonnage outran the Bluenose ability to man it, and Dutchmen, Dagos, miscellaneous wharf-rats, and 'low-down' Britishers had to be taken on instead. If the crew was mixed and the officers Bluenose there was sure to be trouble of graduated kinds, all the way up from simple knock-downs to the fiercest gun-play of a real h.e.l.l s.h.i.+p. The food was inferior to that aboard the Yankees. But in discipline there was nothing to choose. An all-Bluenose or all-Yankee sometimes came as near the perfection of seamans.h.i.+p and discipline as anything human possibly can.

But aboard a mixed Bluenose the rule of bend or break {99} was enforced without the slightest reference to what was regarded as landlubber's law. The Britisher's Board of Trade regulations were regarded with contempt; and not without reason; for, excellent as they were, they struck the Bluenose seamen as being an interference made solely in the supposed interests of the men against the officers.

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All Afloat Part 3 summary

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