"MAKING UP" From Pieces. — I have before mentioned that birds are sometimes made up feather by feather, and also when pulled to pieces for "relaxing." The first is simply pretty pastime, which any person possessed of patience, some little ability, and a stock of feathers, paste, and paper, may indulge in as a recreation.
The latter, however, is a different matter, and is practised in cases where a bird's skin is accidentally torn in several parts, or drops to pieces when "relaxed" through imperfect curing, or by old age. When this happens, the amateur need not feel as if the world would be the next thing to tumble to pieces, but simply get to work thus: Make a body of tow, with neck attached, as described; next, pull the legs off (if they have not previously fallen off), wire them, and attach them firmly to the body by clenching their free ends; bend these legs into the position you wish the specimen ultimately to assume and attach the wires at the feet to a block or perch. A T, formed of two pieces of wood, the bottom end attached to a block, is, perhaps, the best support, as you can get all round to adjust everything, even to the tail.
Your progress up to this point is simply a headless neck attached to a tow body, supported by natural legs fixed to a perch. I assume that your fragments are sufficiently relaxed, and the feathers cleaned and nearly dried. All the fat must, of course, have been scraped off the inside of each piece of skin. Arrange these pieces in the order they should come upon the model, to get the "fit," as a dressmaker would arrange the patterns of a dress upon a lady. Notice where your model is too small or misshapen, and bind on pieces of tow; or paste and bind on wadding, excepting near the wings, where wires would fail to pierce wool or wadding.
When properly-shaped, give the whole of the model a good dressing with flour paste (see No. 31), into which a little carbolic acid has been stirred. Paste the inside of each piece of skin with this, and commence to finally rearrange them. As a rule, the under and breast pieces are fixed first, then the wings are wired* and firmly clenched on the body; adjust the wings into proper position, bringing the breast feathers over at the shoulders; next, put on the wing coverts, the back, the tail (firmly wired), and the upper and under tail coverts; lastly, the head and neck pieces, shaping the made neck into position, etc.., as you proceed.[Footnote:Note that even in close-winged birds, which a pieced specimen such as this one described must be of necessity, it is always advisable to wire the wings as for flight, running them on these wires close to the body, and giving them by this means the necessary curvature; entirely different, and much more natural, than if simply bolted on by straight wires running through the shoulders into the body.]
Sometimes it is necessary to slip a piece of wadding underneath to swell out a certain set of feathers; in this case, lift up the surrounding parts with a crooked awl or with the feather-pliers, and carefully insert the wadding in such a manner that the paste shall not clog the other feathers in juxtaposition.
When finished to your satisfaction, lightly sponge off any excess of paste with warm water; wipe down with benzoline, and dust plaster thickly over all the specimen; this assists the drying and cleans it. In an hour or so dust off the plaster with a bunch of feathers, and bind the skin with "wrapping cotton" in the usual manner. Set it in a warm place, or in a current of air, for a week or so, to dry, and, lastly, put in the eyes and finish off. The foregoing, though apparently a Caesarian operation, is not difficult to a practised hand. I may, perhaps, here mention, in order to encourage my readers, that I myself once successfully mounted a large snowy owl from thirteen pieces of skin, and that had there been twenty-three it would have come out just as well.
In "relaxing" it is often better, especially in such specimens as Birds of Paradise, to pull off the legs and wings; by this means the skin is more easily stretched, and always, in the hands of a master, makes up more satisfactorily than by any other means.
CHAPTER XIIColouring Bills And Feet Of Birds, Bare Skin Of Mammals, Fishes, Etc. — Restoring Shrunken Parts By A Wax Process — Drying And Colouring Ferns Grasses, Seaweeds, Etc. — "Piece Moulds," And Modelling Fruit In Plaster — Preserving Spiders — Making Skeletons Of Animals, Skeleton Leaves Etc. — Polishing Horns, Shells, Etc. — Egg Collecting And Preserving — Additional Formulae, Etc.
COLOURING BILLS AND FEET OF BIRDS. — Birds which, when alive, have either legs, bills, or faces of various bright colours, lose these tints when dead, and after lapse of time, the colouring matter in some cases totally disappears, and nothing can restore the loss of pigment but artificial treatment of the faded parts. To do this satisfactorily is not one of the easiest matters in the world, inasmuch as two things are to be strictly guarded against. One — thick painting, which hides all the characteristics of the scutellae, or plates of the legs and toes, or fills up the minute papillae of the face; the other — imparting a too shining or varnished appearance to the parts coloured. So little colour is required for this purpose that I have found the oil-colour tubes used by artists to be the handiest and cheapest. The colour, when squeezed out, is to be thinned with turpentine only, until it readily flows off the brush on to the beak or legs of the specimen; if properly done it is very transparent, and of just sufficient quality to give the necessary brightness without undesirable shininess.
The colours that are most useful are chrome yellow, yellow ochre, Prussian blue, permanent blue, light red, burnt umber, flake white, and vermilion. With these every shade of grey, blue, green, red, or pink can be obtained; they are all cheap, but if a quantity of vermilion is desired, it is cheapest bought as a powder at the oilman's, and mixed as required. When colour tubes are not procurable, the same colours are to be obtained at the oilman's in powder, or ready mixed, which latter must be thinned with one part transparent paper varnish to two parts turpentine (turps), the varnish being added or decreased as dry or mixed colours are used.
"Brunswick black," a cheap and durable brown, if laid on thinly,i.e., thinned with turps, is sometimes used for colouring the noses of mammals. It must be recollected, however, that greys predominate in some noses over browns, and that the surface is seldom of one tint, hence "Brunswick black" is seldom used by artists, who prefer to make tints from some of the colours mentioned.
Faces of parrots must be whitened with dry "flake white" applied with a piece of cotton wool.
The bills of toucans, and similar birds, require some nice colouring to blend the various tints one within the other. If the reader requires a more scientific method of doing this, I must refer him to "Waterton's Wanderings in South America," in which work he will find an account of the manner in which that eccentric naturalist cut out the insides of his toucans' bills, paring them down to the outer layer, through which the subsequent artificially-introduced colour was revealed.
It would, no doubt, be possible to introduce colour into combs and wattles, and also into the bills of some species of birds by subcutaneous injections of various dyes when the specimen was fresh, but as all taxidermists are not skilled anatomists, and have not too much time to spare in doing what is — at best — but an unsatisfactory and unpractical method, I may relieve their anxiety by saying at once that the difficulty attendant on shrinkage of the integument may be avoided by using wax, with which to thinly paint the large bills of some birds, and the legs of all, restoring also the fleshy appearance of wattles, etc..
Let us take one or two representative birds -- first, an eagle, to work upon, Premising that your bird is finished and dry, and that you have previously accurately copied into your note-book the colours of the soft parts, you will begin by brushing over the parts to be coloured with a very little turpentine. Next, heat in a pipkin, or "patty-pan," some beeswax, into which a little common resin has been powdered, just sufficient to harden the wax under the point of brittleness; apply this with camel-hair brushes of different sizes to the eyelids (the eye being in and fixed), the superciliary ridge, the cere, the gape, and all over the bill, and legs, and feet, regulating the thickness of the wax thus — very thin over the bill and eyelids, a little thicker upon the cere, ridge, and gape, and quite thick upon the legs and feet; so much so, indeed, in places on the latter, as to necessitate carving up with tools to reproduce the underlying shrunken scutes, etc.. This, of course, is a delicate operation, involving practice and artistic perception of form.
Remove all superfluous wax by paring with curved awls of various sizes, and rubbing down with rag wetted in turpentine. Some parts of the legs may be treated with hot irons (large wires, old awls, knives, etc..). When the wax is sufficiently cold, which it will be in a quarter of an hour after finishing, commence colouring, by using the colours direct from the tubes, with as little admixture of "turps" as possible.[Footnote:Winsor and Newton, Rowney, or Roberson, are some of the best makers of these.]Note the different tints — quite three shades of yellow upon the cere, four or five upon the bill itself, and perhaps half-a-dozen upon the legs and feet, and carefully put them on. Properly finished, your eagle will — if correctly shaped — be quite life-like; all the soft parts now look full and fleshy, having lost that hard appearance inseparable from direct painting on the shrivelled integument without the intervention of wax.
The wattles and combs of gallinaceous birds, after being washed with preservative (Formula No. 15), or, when practicable, skinned out and filled, together with analogous processes on the vultures, and also the pouches of pelicans, etc.., may be treated in like manner, the wax being thinly or thickly painted as required.
The inside of the mouths of mammals, their tongues, eyelids, and noses, should be treated in a similar manner.
The skin of fishes also, which, when dry, shrinks away above the eye and around the mouth and lips, should have these parts replaced by wax before colouring, in the manner practised on the new specimens in the Leicester Museum. So little, however, is the want of this understood, that, of the thousands of stuffed fishes exhibited in the Fisheries Exhibition, I looked in vain for one with unshrivelled lips or orbital ridges. For the credit of artistic taxidermy, let us hope I overlooked some, finished as they should be.
The fins of fishes may be repaired with thin tissue paper, or, if finless by accident — "ware cat!" — may be replaced by wax. White wax may be coloured in some instances before using. Paraffin wax does in some situations, but is not a very tractable medium.Drycolours may sometimes be rubbed into the wax with advantage. The colouring of a fish's skin, which, when set up and dried, is colourless, as noted, is a nice operation involving some artistic ability; the same remarks apply as those upon the colouring of the bills and feet of birds (seeante), but with this difference, that although the colour should bethinlyapplied as directed, yet in this instance the appearance ofwetnesshas to be represented. In ordinary taxidermic work this is managed by adding clear "paper" varnish, or "Roberson's medium," to the colours, thinned by turpentine, floating the tints on the skin of the specimen, and nicely blending them, in order to obviate unnatural streaks or bands of colour.
Speaking of the duck-billed platypus, the Rev. J. G. Wood, in "Homes without Hands," has some pertinent remarks upon the manner in which nearly all taxidermists allow the cuticle to dry and shrivel, to the ultimate distortion of the surrounding parts:
"The wonderful duck-like mandibles into which the head is prolonged are sadly misrepresented in the stuffed specimens which we generally see, and are black, flat, stiff, and shrivelled, as if cut from shoe leather. The dark colour is unavoidable, at all events in the present state of taxidermy. Bare skin invariably becomes blackish-brown by lapse of time, no matter what the previous colour may have been, so that the delicate tints of an English maiden's cheek and the sable hue of the blackest negro would in a few years assume the same dingy colour, and become quite undistinguishable from each other.
But there is no excuse now-a-days for allowing the bare skin to become shrivelled. The colours we cannot preserve, the form we can and ought to reproduce. No one would conceive, after inspecting a dried specimen, how round, full, and pouting were once those black and wrinkled mandibles, and how delicately they had been coloured while the animal retained life. Their natural hue is rather curious, the outer surface of the upper mandible being very dark grey, spotted profusely with black, and its lower surface pale flesh-colour. In the lower mandible the inner surface is flesh-coloured, and the outer surface pinky white, sometimes nearly pure white."
All this could easily be avoided by the taxidermist first skinning the beak and lips to their farthest extent, and then filling them with clay or composition, and afterwards waxing and colouring the parts in question.
Small birds having black feet or bills, which permanently retain their colour, need only to have them slightly brushed with oil, before casing up, to give them proper freshness.
HOLLOW EYES. — I have for a great number of years discarded the conventional glass eyes — glass buttons I have heard them irreverently termed! — for all fishes, reptiles, birds, and mammals, excepting the smallest, using, in their stead, hollow half-globes rather more oval than round; these are hand-painted on the inside with either water or oil-colours, and when dry are varnished, filled in with wadding and putty, or modelling-wax, not clay, and fixed in the orbits with wax, see ante. These, properly coloured, and, in the instance of fishes, gilded inside, are wonderful representations of the natural eye, and when properly inserted, the cornea in mammals reproduced by wax, and the eyelids properly managed, give a most life-like and natural appearance to any specimen.[Footnote:Glass eyes have of late been much improved in shape and colour by the Germans, and also by some English eyemakers, who have had the sense to listen to the suggestions of artistic taxidermists. I have by me now a really beautiful pair of glass lynx eyes, veined and streaked, and "cornered" in porcelain, in almost as perfect a manner as could be managed by hand-painting.]
"PIECE MOULDS" AND MODELLING TONGUES, MUSCLES, etc.., IN COMPOSITION. — As I stated at the end of Chapter VII., "composition" has for its base one of three things — clay, plaster, or wax. The uses of the first I have fully explained — glue-water and plaster will stiffen or toughen it. There is also "terra-cotta" clay, which, if moulded into shape, can be "fired," and is lighter, and retains its shape without cracking. Its service to the taxidermist is limited to the reproduction of certain bones and some few natural objects, such as fungi, etc..
Plaster casts of almost anything may be made by "piece-casting," which is casting arranged to take moulds from anything "undercut" or complicated; such, let us say, as a lion's head with open jaws, or the human face, surrounded by a wreath of leaves and flowers, as in the antique sculptures. Assuming you had such a model as this to cast from, you would commence by oiling or soaping the whole in the ordinary manner. The plaster being prepared, is poured on the neck or chin, being prevented from spreading to other parts by clay placed across as a barrier. The first section, being cast, is trimmed, and its edges cut diagonally toward the chin, in such a manner that the next piece ultimately unlocks from it, without being wedged by undercasting.
So you may proceed, trimming each piece, cutting its edges to prevent locking, and casting bit by bit until you reach the hair and forehead, with wreath. Here the pieces will be numerous, and your ingenuity will be exercised to keep out of trouble from getting some piece or another to lock the others. The face will often mould into three or four pieces; but it is on the forehead, chin, and throat — and, if a lion's head, in the open mouth — where the multiplicity of parts may perplex.
These small pieces are, when taken from off the model, very difficult to put together again without a core; hence, when the mould is complete, each little piece must have a shallow hole cut on its top, be replaced on the model, and a "jacket-mould" cut into two or more pieces by string (as described at chapter VII) made over the whole. This jacket keeps all together for the ultimate casting by the pegs in its surface made by the holes of the pieces underneath.
The ultimate cast is made by plaster being poured into a hole left at one end of the mould for that purpose. Should this ultimate casting be wanted hollow, it will be necessary to shake the plaster, when poured in, around the mould in the manner described for making wax fruit.
Small undercut articles may be cast from, by making a mould of best glue — "gelatine glue" — which readily stretches enough to "clear" undercuts and come off the model. To get a model from this glue mould, cover the original model you wish to cast from with as thick a covering of clay as you wish your gelatine mould to be when run; upon this pour plaster to form a "jacket," letting its top and bottom rest on the top and bottom of the original model. When the clay is removed, and the "jacket" fitted on again, it will, of course, only touch at top and bottom, leaving an interspace all over the remainder of the model. A hole being now cut in the "jacket," the glue[Footnote:Made by steeping for a night, and allowing it to absorb all the water it will, throwing away the surplus, and boiling the remainder in the usual manner in a glue-kettle. Pour on when hot, not boiling.]is poured in over the original oiled model, and fills up the interspace left by the removal of the clay. When cold, it, of course, forms a mould into which plaster can be run, in the usual manner, to form the ultimate model.
Piece-casting of large subjects, where the various parts are cast and then fitted together afterwards, is best understood by learning a little from some Italian modeller, or looking over the seams (representing the "piece-casting" joints) in some one or other of Brucciani's reproductions, which may be seen in almost any art gallery or museum.
One great advantage of this system is, that by its means large models, if built up in ordinary field clay, or by any other means, may be cast from in plaster or in metal by the intervention of piece moulds, failing which it would be impossible to do so. The resultant model, if in plaster, is not cast solid, but is hollowed out in the casting — to prevent weight — by "cores" being inserted in the moulds. "Casting sand" is, however, necessary when casting in metal, together with all sorts of technical appliances and knowledge beyond the scope of the taxidermist, and although I have found it necessary to cast in metal for some purposes, it is so seldom needed that I do not purpose describing what any friendly brass founder will tell the amateur in a few minutes. The casting by amateurs at an ordinary fire is limited to three metals — lead, tin, and zinc — or a mixture of two.
How large models in clay, etc.., can be made is described by Mr. Waterhouse Hawkins, F.G.S., etc.., in his paper on the reproductions he made of the extinct animals exhibited at the Crystal Palace, Sydenham:
"By careful study of their works I qualified myself to make preliminary drawings, with careful measurements of the fossil bones in our Museum of the College of Surgeons, British Museum and Geological Society. Thus prepared, I made my sketch-models to scale, either a sixth or twelfth of the natural size, designing such attitudes as my long acquaintance with the recent and living forms of the animal kingdom enabled me to adapt to the extinct species I was endeavouring to restore.
"I caused the clay model to be built of the natural size by measurements from the sketch model, and when it approximated to the form, I, with my own hand in all instances, secured the anatomical details and the characteristics of its nature.
"Some of these models contained thirty tons of clay, which had to be supported on four legs, as their natural history characteristics would not allow of my having recourse to any of the expedients for support allowed to sculptors in an ordinary case. I could have no trees, nor rocks, nor foliage to support these great bodies, which, to be natural, must be built fairly on their four legs. In the instance of the iguanodon, it is not less than building a house upon four columns, as the quantities of material of which the standing iguanodon is composed, consist of 4 iron columns, 9 ft. long by 7 in. diameter, 600 bricks, 650 5 in. half-round drain-tiles, 900 plain tiles, 38 casks of cement, 90 casks of broken stone; making a total of 640 bushels of artificial stone. These, with 100 ft. of iron hooping and 20 ft. of cube inch bar constitute the bones, sinews, and muscles of this large model, the largest of which there is any record of a casting being made."
Other uses of plaster are also described in Chapters VI. and VII. One of the uses of plaster in modelling is, however, to reproduce flesh, etc.. For this purpose mix plaster of Paris (best S.F.) with boiled oil until it forms a smooth, thick putty, which, though at first capable of much finger-and-thumb manipulation, dries as hard as stone, and is fairly light and impervious to damp. Plaster will also make a putty if mixed with glue-water.
The composition used by the picture-frame makers is also a first-rate medium, being susceptible to the softening influences of hot water when newly made, but ultimately dries as hard as the preceding. It is made variously, but perhaps the best is made thus:
Cement for Modelling.
Three parts best glue.
One part linseed oil.
One part powdered resin.
Whiting.
Tallow candle.
Melt the glue with water until it is moderately thin. Boil up the resin and oil together (be careful of fire). Mix up this with the glue by thorough stirring and boiling together, turn it all out into a bucket (unless you are boiling it in one), and add half a tallow candle. Stir in enough powdered whiting to make a thick putty. Pour some out on a plate, and let it get cold; you will then be able to determine whether the mixture requires more or less glue, whiting or oil. It should dry tough, but not too brittle, and should, when cut into strips and warmed by hot water or steam, be tough and yet pliable. Properly made, this cement is invaluable to the taxidermist, as it works well by the hand or by tools, drying slowly until it sets. It can be worked over real or modelled bones to show sinews or muscles as previously mentioned. The tongues of mammals or fishes may be cast either in plaster, glue, or wax, and subsequently modelled in this cement, plaster, or wax, as required.
Wax is the last, and, as I have before pointed out, is, whether used melted or softened by warm water, of the highest service to the artist. Beeswax, when melted, will mix well with either plaster or whiting, or with both, and will make a useful modelling composition, its brittleness being determined by its containing more or less plaster. Wax will also mix with red ochre, and makes a modelling composition. Modelling wax is sold, however, ready prepared, and is useful to pack under the skin for delicate muscles or "flabby" folds of skin.
Paraffin wax melted, and modelled when half cold, is also sometimes of service; it has, however, so little affinity for "sticking" as to come away from almost anything smooth, on the slightest provocation.
White lead stiffened with whiting is sometimes useful in taking the place of putty, and is a trifle more durable.
Perhaps, at the end of this section, it may not be amiss to point out to the modeller that it is of the highest importance that all his tools should be freed from dirt and plaster at the conclusion of his day's work; scarcely anything rusts and spoils tools more quickly than damp plaster left on them.
TO IMITATE BLOOD. — Frequently blood is required to be shown, as in instances where some animal may be represented tearing its prey. Usually this is done by thickly painting on vermilion and red lead mixed with varnish, or brushing on red lead mixed with thick glue, as a base on which to subsequently lay the vermilion. I may point out, however, that blood differs in tint, and that the appearance of torn flesh, fresh blood, and coagulated blood is best got by painting the parts with wax, and tinting, with a little vermilion, some madder brown, or madder lake (a rather expensive colour), and light red, arranged and blended one with the other as in nature.
Should you be setting up a large group, such as a tiger tearing open a deer, or a vulture at a sheep, you may represent the liver and other organs in modelling clay or plaster, dried, waxed, and coloured, or by coloured wax alone if the part to be modelled is not large.
SNOW, FROST, AND ICE. — The appearances of snow and frost are imitated in a variety of ways. Pounded white sugar; alum powdered, or put on boiling, and suffered to crystallize; borax, two parts, alum, four parts, burnt in a shovel over the fire; and various other crystalline preparations. Nothing, however, is half so good as using best S.F. plaster of Paris mixed with powdered "glass frosting" — bought from the glass-blower's or artificial eyemaker's — to imitate snow, the powdered glass frosting being thrown upon the foliage and rocks — the latter being gummed or varnished with paper varnish — to imitate ice. Blocks of ice require special treatment with glass and thin paper strained over a framework and varnished to get a good and natural effect. Icicles are best modelled in glass.
WATER AND WAVES. — Water is best represented by "hammered glass" coloured, and streaked and varnished, to the tint required. Birds may be represented swimming by being cut in halves, their upper and under surfaces fixed to the corresponding sides of the glass, or the glass may be cut to receive the body,* which is the most satisfactory, although the most difficult to manage without smashing the glass.[Footnote:There is a black-necked swan (Cygnus nigricollis), from Chili, treated in this manner, in the Leicester Museum.]Holes may be drilled in the glass to allow water plants to come through, or to allow long-legged birds, such as herons, to stand mid-leg in water.
Waves are moderately well imitated by thin paper creased, varnished and coloured, on which white wool "foam" is arranged.
MODELLING FRUIT, etc.., IN PLASTER. — You may, perhaps, wish to model an apple, peach, or plum, to place in the hands of some mounted object, such as a monkey. To do this, you take a natural fruit, which oil, and push it half way (on its longest axis) into a bed of damped and hard-pressed sand banked up all round. At some little distance from the edges of the fruit stick two or three small pegs of wood (points downwards) about half-an-inch long, leaving a quarter-of-an-inch out of the sand. Over all this pour some plaster of Paris mixed with water to the thickness of a paste; when set, lift it up carefully — the plaster now appears with the fruit half set in it, and the two or three little pegs of wood sticking up, their other half firmly fixed in the plaster — oil their points, the face of the plaster, and also the fruit, and laying the half-cast fruit uppermost, pour over it some more plaster.
When set, trim the edges, the complete mould will then part in halves, and the fruit will shake out. Oil the mould inside, and when dry procure some wax — beeswax from the oilman's will do for this purpose — and after heating it carefully, for fear of fire, pour it while hot into the mould through a hole cut for that purpose. When about a quarter full, put your thumb or finger over the hole, and rotate the mould rapidly. Allow it to cool, and on opening the mould the artificial fruit will drop out, and may then be coloured by powder or varnish colours to the tints required.
My friend, Wright Wilson, F.L.S., etc.., surgeon to the Birmingham Ear and Throat Hospital, has very kindly written me a short description of the plan he adopts, which, it will be seen, is a complete reversal of the foregoing:
"With regard to plaster casts of fruit, etc.., a much neater and readier method of making the mould is to mix a sufficient quantity of beeswax with resin in a pipkin over a slow fire. It must be used whilst just lukewarm by either dipping the fruit — say, an apple — until sufficient adheres to form a good strong coating. When cold (dipping in cold water will readily make it so), the whole can be cut through with a sharp knife, the halves of the fruit come out easily, and a perfect mould in two halves is thus obtained. Fasten the halves of the mould together with string, and smear a little of the warm material over the joint to hold it together, and cast your model (into this, through a small hole made for the purpose) in the usual way with plaster of Paris made rather thin with water. When set, place in a little warm water, when the mould easily strips off, leaving a model of the most perfect kind and at a small expense, for the mould can be melted up and used over and over again."
Glue may sometimes be substituted for the wax.
The advantage of being able to fall back on this system is obvious, especially if the modelled fruit is to be placed in a position exposed to considerable heat. Of course, the plaster model must be coloured to nature, and, as I have before pointed out, this is not one of the easiest things to do. I would suggest dipping the model (when dry) in melted wax to give a surface for colouring, or modelling it in paper.
PRESERVING SPIDERS, etc.. — Spiders, which from their rarity or the beauty of their markings it may be desirable to preserve, require the contents of the abdomen to be pressed out, or their bodies to be cut underneath. A first-rate article on preserving these crustaceans appeared in Science Gossip for January, 1868, in which the author points out what is just as well to bear in mind, which is "that the colouring matter or pigment is placed between the outer or abdominal covering and the pulpy contents within, upon a very delicate membrane, which adheres very loosely to both, but more firmly to the contents within; so that when the viscera or contents are rudely removed, and without much tearing, the whole mass will be found more or less coloured, while the outer skin will be left entirely transparent. To preserve, therefore, the beauty of spiders, this must be untouched."
He further says: "Make an incision along the ventral aspect of the abdomen, nearly its whole length, or as long as will enable the pulpy contents to be easily removed; then pinch up the pulpy mass with a small forceps, carefully avoiding any dragging; then, with sharp-pointed scissors, cut away the contents bit by bit until the whole is nearly removed, or until you can see the brilliant colour shining through what remains in the cavity — better leave a little too much than be too nice in clearing all away; then, with a blowpipe, distend the empty abdomen; it will very soon become firm, and retain its original form, but until it is so the blowing must be frequently repeated."
A correspondent toScience Gossip, page 21, 1868, says: "I found the best way to preserve spiders was to suspend them by a loop round their waist in a solution of glycerine 2/3, water 1/3. The solution may want changing once or twice at first, after that it will keep unchanged for years."
images/Image172.gifFig. 36 — Blow-pipe for inflating larvae
PRESERVING CATERPILLARS. — The larvae of moths and butterflies may be preserved by pressing out the contents of their bodies, and by working from the head to the tail in a gentle manner, and assisting the removal of the mass by a careful dragging with a crochet needle. When empty, a little corrosive sublimate solution may be injected with a metal or glass blow-pipe, and the empty skin then distended by blowing into it through a very fine blowpipe, made by drawing out in a clear flame a small glass tube until it is attenuated to a fine point. This being inserted in the orifice at the last segment of the caterpillar, is kept in place by being tied round with a piece of darning cotton, or, better still, by a contrivance shown in Fig. 36 (the invention of Mr. Auld, in Science Gossip for 1872). A A are pieces of watch spring tied on the thick part of the blowpipe, and holding the caterpillar by pressure on the last segments when the point B is inserted.
Mr. Auld, I see by his article, used a spirit lamp under a glass jar to form a drying chamber while blowing; but I have myself found a "box iron" a most convenient arrangement. The inner iron, being heated in the fire, is placed in the chamber or "box," which it thoroughly heats; then removed, and the larvae introduced and blown out in the hot air, but not so full as to unnaturally distend the segments.
A certain loss of colour inevitably takes place in preserved larvae, which in the larger ones may be restored by colouring inside them with powder colours mixed in turps. Coloured wax is sometimes injected, and makes the skin very firm, but it is a delicate operation, requiring great skill in application. When finished, they may be "mounted" on green silk-covered wire, or, more naturally, on nicely modelled leaves of their various food-plants, by gum attached to their claspers.
It is often necessary to plunge the more delicate larvae into a weak solution of carbolic acid, or alum and water, to harden them before preservation.
SKELETONS OF ANIMALS. — Many people being under the impression that it is only necessary to remove the flesh of any mammal or bird in order to get a perfect skeleton, it may be as well to point out that as the flesh rots, so do the ligaments which hold the bones, and consequently the skeleton falls to pieces. When, therefore, you have made your skeleton by the means recommended by various authors, such as exposing it in an ant-hill, a wasp's nest, or to the attacks of the "blow-flies" or "mealworm" (the larvae of a beetle), to "tadpoles," or — as is the usual way with the bone preservers — by maceration in water for a lengthened period (after removal of a great deal of the flesh, the skin, and entrails), you will, after the careful removal of the flesh still remaining, and subsequent drying of the bones in the sun and air, find that nearly every bone will have to be attached to its fellow by fine brass wire, and in the case of the bones of large animals, each bone will have to be neatly drilled and coupled with brass wire of greater strength.
Skeleton-making by maceration in cold water is, perhaps, one of the most sickening operations. I have been somewhat successful by trimming off all the flesh possible, wiring some parts together, tying others in cloths and boiling them gently for several hours in water changed from time to time, afterwards taking them out and picking off, with fingers and blunt tools, all the flesh remaining —whilst hot— then drilling and wiring all together with galvanised or copper fastenings in a proper manner, boiling again in plenty of water, and then allowing the bones to remain in cold water — constantly changed — for a week or so; finally laying out in the sun and air to bleach.
By this system I have lately "skeletonized" part of a horse, and the bones are free from grease and fairly white. Experience, however, in this as in everything else, will tell you what to do and how to piece one system into another to best advantage. Washing the bones with Hudson's "dry" soap, or soda and water, will often remove a great deal of the grease. Chloride of lime and water will assist the bleaching, but must be managed cautiously, or in careless hands it is likely to do more harm than good. The making of good and nicely bleached osteological preparations really depends on carefulness and neatness, supplemented by water, air, and sun; by the three latter aids, I have repeatedly improved in a wonderful manner "old bones" which were greasy and discoloured.
Should the sea be close at hand, the skeleton, shut in a box with holes, may be sunk, and exposed to the attacks of various "small deer," especially "bees" (Aega tridens), which swarm in some shallow waters to such an extent as to clear the flesh from a large animal in a few hours.
SKELETON LEAVES. -- Very beautiful objects may be made by placing the leaves of trees and shrubs, or such as are of a strong or woody texture, in a pan, pouringboilingsoft or rain water over them, then exposing them to the atmosphere for a time varying from one to three or four months. They are then gently lifted out and held on a board, or on a plate, under running water, and the pulpy part, or epidermis, removed by gentle brushing with a camel-hair pencil or fine needle, to split the skin away from the mid-rib.
When nothing but the ligneous skeleton or woody fibre remains, it may be placed in aweaksolution of chloride of lime, and exposed to the sun under glass to dry and bleach. To prevent them sticking to the paper on which you may wish to dry them, use either blotting-paper or oiled paper, after well washing the leaves. If skeletonizing in summer time, trust to sun alone, as chloride of lime has a tendency to make the leaves go brittle. The seed vessels of various plants, such as the poppies, thorn apples (Daturae), and campions, as also the leaves of laurel, holly, ivy, lime, sycamore, poplar, and a host of others, may be treated in this manner. When finished, they may be mounted on wires whipped with white silk, and placed on black velvet under a shade.
Some writers have advised the boiling of the leaves in a solution of caustic soda, or steeping them in a strong mixture of chloride of lime and water, but I have hitherto considered these plans not so practical as the foregoing, though, perhaps, quicker; as, however, I find two writers, inScience Gossipfor 1867, very positive on the subject, I will give the following extracts:
"A solution of caustic soda is made by dissolving 3 oz. of washing soda in two pints of boiling water, and adding 1.5 oz. of quicklime, previously slacked; boil for ten minutes, decant the clear solution, and bring it to the boil. During ebullition add the leaves; boil briskly for some time — say, an hour — occasionally adding hot water to supply the place of that lost by evaporation. Take out a leaf and put into a vessel of water, rub it between the fingers under the water. If the epidermis and parenchyma separate easily, the rest of the leaves may be removed from the solution, and treated in the same way; but if not, then the boiling must be continued for some time longer.
To bleach the skeletons, mix about a drachm of chloride of lime with a pint of water, adding sufficient acetic acid to liberate the chlorine. Steep the leaves in this till they are whitened (about ten minutes), taking care not to let them stay in too long, otherwise they are apt to become brittle. Put them into clean water, and float them out on pieces of paper. Lastly, remove them from the paper before they are quite dry, and place them in a book or botanical press." — Dr. G. Dickson,Science Gossip, January, 1867.
"I once saw another way of managing skeleton leaves that interested me greatly. The leaves were boiled for two minutes, and then transferred to a strong solution of permanganate of potash and gently heated. In an hour or two the laxer tissues were easily removed by means of a brush. Sulphurous acid was used for bleaching them, and this liquid was also employed with much facility for the removing of the stains on the fingers caused by the permanganate of potash." — George Newlyn,Science Gossip, November, 1867.
The last-named gentleman appears to bleach his leaves by fastening them across a hat-box by means of strings, inserting a pan or tin cup containing sulphur, setting it on fire, and shutting down the lid (of course, out of doors). The whole article is very interesting, but too long for insertion here.
CRUSTACEANS. — Lobsters, crawfish, and crabs must have the cephalo-thorax (the upper part) disjointed from the body or "tail" part, the limbs taken off at their attachment to the body, and the whole of the flesh removed by means of the "undercutting tool" (see Fig. 29), and crooked wires; afterwards wash the inside with carbolic wash (No. 15), and fill the limbs and body with dry plaster and wadding, neatly fixing on the legs where disjointed, and putting the remainder of the body together with any of the cements mentioned in Chapter IV.
POLISHING HORNS. — As a commencement it will be requisite to remove all the rough shell-like layers of horn which stand up as knots and gnarls, and mar the symmetry of the horns. In some horns, old ones especially, you will find their inner sides covered with several thicknesses of this waste or dead stuff. Do not be afraid, but boldly pare this down level with the surrounding horn, for which purpose nothing is so good as a spokeshave. Blood stains usually lie in the soft upper layers; shave these down carefully until they end, which will be underneath where the horn becomes white and of a more ivory-like texture. When nearing this it will be as well to give up the use of the spokeshave, and use some instrument in a scraping manner; the side of a chisel (not the cutting edge) or a knife is best for this purpose. The handle being held in the right hand and the point in the left, scrape the horn until you get to the white part, which will be somewhat harder than the remainder.
In colourless horns you must get down to this white part, or your polish will not be high; besides this, blood stains will show up, and the surface will look of a soapy, greasy nature, instead of the ivory-like texture it should assume. Be careful when working to the largest part, or base of the horn, not to run your tool through, as it is much thinner there than at the tips.
Whilst thinning rough places in certain horns you will find a half round and flat fine rasp of great assistance. When you have obtained a nice even surface all over, use glass paper of different degrees of fineness, and pumice-stone. Collect the dust which falls off, with a rag dipped in linseed oil and well rub the horn with this. Next get some "putty powder" (oxide of tin), which rub violently on all parts of the horn with a rag and linseed oil, finally finishing off with brown paper, a soft rag, and the palm of the hand, using plenty of "elbow grease."
Remember, horn polishing is all hard work, unless managed by "bobbing" on a lathe, so let no one attempt it who is not prepared to work very hard, as plenty of quick and violent friction is indispensable in the latter stages to give the high polish requisite. Horn may be softened, and ultimately dissolved in caustic soda.
POLISHING TORTOISE-SHELL, etc.. — To polish tortoise-shell (which is in many cases turtle-shell) it is necessary to scrape the shell very carefully with a broad knife, taking care not to cut through to the under shell or "bone." When properly smoothed rub it over with pumice-stone and water, then with bath-brick and water, finally polishing off, when you have a nice fine surface, with putty-powder and oil, or rotten-stone and oil, with plenty of hard work and hand-polishing towards the last. A little tallow rubbed in with the hand, as the very last finishing touch, will be found of benefit. A paste made of sal volatile and rouge has been recommended to be applied to the shell after scraping, then suffered to remain until dry, and finally polished off.
Bad places in the shell, where it has peeled or been broken off, should be made up with coloured shellac, or hardened wax, put in with a warmed knife after polishing, and finished off separately. Tortoise-shell may be welded by heat.
Sea shells may be polished by being plunged for a little time in dilute nitric acid, then rubbed down with sand paper or fine emery and oil, finished with "Water-Ayr" or "Snake-stone," and finally polished with putty-powder and oil. A mussel-shell treated in this manner makes a most beautiful object, coming out purple, with streaks of lighter blue and pearl.
Stones, such as agates, which are found on the sea beach, or any stone which is required to be polished, is to be first ground down to a rough surface, then polished by successive rubbings of first, second, and third grit-stones of different degrees of fineness, lastly "Water-Ayr" or "Snake-stone," and finished with "putty powder" applied with oil. All of the stones or grits mentioned are to be procured at the marble mason's at a low rate. Serpentine treated in this manner makes a very beautiful object.
EGGS, COLLECTING AND PRESERVING. — Eggs of various birds may be sought for in their seasons in the localities best suited to the several species. But so much depends upon special training or aptitude in the collecting of birds' eggs, that a detailed description of localities where to seek and how to find, eggs, is hardly necessary, in the pages of this work, further than to remark that a pair of "climbing irons" are requisite for those individuals who do not possess the agility of a cat or of a schoolboy.
Climbing Irons(see Fig. 37), to fit the foot and leg, are best made of wrought iron with a welding of finely-tempered steel from C to DE, to form the claw used when climbing. To affix them to the leg, the foot is placed as in a stirrup from C to B, the claw ED pointing inward. A strap should now be passed through a slot or square hole punched in the metal between C and D (not shown in the figure), and laced under and across the foot to and through the loop shown between B and A at a, thus keeping the foot itself tightly fixed. Another strap passes through the loop at the top where marked A, and is strapped round the calf of the leg, keeping all below the knee rigid and secure. When climbing, the hands clasp the tree in the usual manner, and the side of the foot is struck smartly against the trunk, to cause the claw to penetrate. The climber now rests on this, and strikes the claw of the other iron in, on the other side, higher up, and so on alternately.
images/Image173.gifFig. 37 — Climbing iron
Eggs, when procured, must have their contents removed. To do this they must first be drilled with little steel instruments called egg-drills, which are made of various degrees of fineness according to the size of the egg to be operated upon. Drills are to be procured from the various dealers, but can be made from steel wire softened in the fire and filed to a sharp three-cornered point--afterwards tempered to hardness — for the smaller eggs, or filed up for the larger eggs to the pattern of a "countersink" used for wood; indeed, the smallest-sized "countersink" made — to be procured at any ironmonger's — will do very well for eggs the size of a hen's. Capital egg-drills are to be made from "pinion wire" used by watchmakers. Simply file to a point, and "relieve" with a small "three-square" file the channels of the wire, giving them a cutting edge up to their point. With such a drill as this — cost, about 2d. — I have blown, without any breakage, eggs varying in size, from swallows' to hens'. A drill costing 2s. 6d., which was the price I paid for my first — purchased from a surgical-instrument maker in London, since deceased — could not do the work better.
To use these drills, rotate the point by "twiddling" the drill between the finger and thumb, making only one hole, and that in the centre of the egg. When a nicely-rounded hole is cut, the egg must be emptied by means of an "egg-blower," or blowpipe; the point being introduced into the hole, the contents are blown out or sucked up into the bulb, which, when full, is emptied out at the other end. It sometimes happens that the egg is "hard set." The embryo must, in that case, be cut out with small curved scissors specially made. If hard set, putrid, or stale, an egg often bursts when touched. To obviate this, drill and blow it under water.
Young birds can often be extracted, with a little care, uninjured from their egg-shells, and yet — as happened to me lately in the instance of a hawk — the shell may make a presentable museum object, after such extraction.
In all cases eggs should be thoroughly rinsed out with a solution of six grains of corrosive sublimate to an ounce of rectified spirits of wine. This may be sucked up into the bulb of the "egg-blower," and thence ejected into the egg, which is to be rotated, and what solution is left may then be sucked back and thrown away, or returned to the bottle. Great care must be taken, however, that the mixture shall not pass the bulb and be drawn up into the mouth, as it is, of course, a deadly poison; the egg, being placed (hole downwards) on blotting paper, is to be left until dry.
Those who object to poison may rinse their eggs out with water to which has been added a few drops of strong essence of cloves. This is agreeable to use, and appears to cleanse away all impurities.
A little label may finally be gummed over the orifice, and the specimen is then ready for the cabinet; or, as labels will in time fall off, however well they may have been previously gummed, it is better to write a distinguishing number, and as much of the history of its collection as is possible on the egg itself, the full history, of course, being posted up in the note book. Labels may, however, be used with great advantage on the divisions of the cabinet drawer which separate one species of egg from the other.
Loose labels are not to be used on any account, as they often get reversed and create confusion, and a collection thus treated is brought into grave discredit. Eggs, when being sent any distance, should be separately wrapped in cotton wool, and packed in a strong box, any interstices being lightly filled with wool also. Sawdust or bran should never be used as a packing medium, as the eggs shake together and break each other in travelling.
For those who require coloured figures of eggs I must refer them to Hewitson's "Eggs of British Birds," or Atkinson's "British Birds' Eggs and Nests," a much cheaper, but very good little work; also to a new work by Mr. H. Seebohm (the celebrated traveller in Siberia, etc..), entitled, "A History of British Birds," with coloured illustrations of their eggs.
PREPARATION OF MICROSCOPIC OBJECTS. — The same remark applies to this as to aquaria (see Chapter XIII.). The treatment is so varied, the objects so numerous, that books upon books have been written on it. Every naturalist and curator, however, has to work sometimes with the microscope; but taking into consideration the vastness of the subject, I must refer them to text-books, such as Beale's "How to Work with the Microscope;" Lankester's "Half-hours with the Microscope;" Hon. Mrs. Ward's "The Microscope;" Davies' "On the Preparation and Mounting of Microscopic Objects;" G. E. Davis' "Practical Microscopy;" Gosse's "Half-hours with the Microscope;" Wood's "Common Objects of the Microscope;" any of Quekett's works, and to late numbers of theMonthly Microscopical Journal, Nature, Science Gossip(the latter teeming with practical hints on all matters connected with natural history), and hosts of other works.
This chapter, dealing as it does with details and hints upon many subjects, may fittingly be closed with scraps forgotten in the body of this work, but which now occur to me as being useful knowledge.
STARCH AS PASTE: (see chapter IV). — Procure some common starch (that which is white looking is perhaps the best), mix it up with a little cold water, just sufficient to dissolve it, stirring it thoroughly to prevent lumps. Pour upon this sufficient boiling water to make it into a stiff paste. This will be found most useful for clean paper or photographic work, as it enables paper to be pasted on cardboard, etc.., without creasing. The paper should be first wetted on the face side, the back pasted with the starch-paste, fixed on the cardboard, and the whole dried off by blotting paper. For common taxidermic work, paste containing resin (sold at leather merchants') is strong and cheap.
BEST GLUE, made in the ordinary manner, but rather thicker than usual, then poured into a bottle containing enough methylated spirit to thin it, is recommended as being a strong medium to stick paper on wood or cardboard, with the advantage claimed for it that it does not cause the thin wood or cardboard to "cast" or "buckle."
MARINE GLUE dissolved in diluted acetic acid makes a strong cement for certain things, such as mending shells. This, as also the preparation of Formula No. 33, should be kept in bottles, or small stoppered jars, and melted for use by surrounding with hot water.
LEATHER is (so says a bookbinder) to be pasted, after it is damped on the outside. Cloth is to be glued. This is useful to know if making up cloth-covered boxes with leather backs, to imitate books (see Chapter XV., on Entomology).
ANTI-INSECT NOSTRUMS (see chapter IV). — Russian tallow in saucers, oil of birch, flowers of sulphur, hellebore, pepper, tobacco, are said to be "bogies," the last especially, to theDermestesbeetles and their cousin,Anthrenus museorum. Try them, but don't rely too much upon them, is my advice; nor, indeed, upon anything — not excepting even corrosive sublimate. Trust only to exposure to light and constant supervision, zinc or wire drying cases, and to "casing up" as soon as possible.
If sending specimens long distances, it is well to pepper the shot parts, enclosing also in the parcel some pieces of charcoal wrapped in paper. Of course, if the specimens are not for the table, dilute glacial carbolic acid, poured on the wounds and down the throat, is the best thing to do, but it should always be noted in an accompanying letter, for fear of accidents. Smearing the hands and face with paraffin is said to keep forest flies and midges from biting.
PRESERVATION OF ANIMAL TISSUE (see chapter IV).
Chloride of zinc, 1 part.
Water, 20 parts.
This formula appears to be one of the non-alcoholic preservatives most suited for fishes in preparation jars. I have so lately tried it that I cannot at present state if it is the very best.
PICRIC ACID, formed by a certain chemical fusion of carbolic acid with nitric acid, is recommended (when diluted) for the preservation of soft-bodied animals, such as zoophytes, etc..
BICHROMATE OF POTASH (see chapter IV), though so useful forpickling fishes, mollusca, worms, and even "jelly fish" and sea-anemones, is, I have found, liable to be attacked by mildew; to prevent this add a few drops of phenic (carbolic acid).[Footnote:Phenol, Phenic Acid, Phenic Alcohol, Hydrate of Phenyl (C6H5HO)=Carbolic add.]This salt is also used in microscopy to assist in fixing glass covers on glass slides. The cement in question appears so admirably adapted to many purposes, that I think it worth quoting (seeScience Gossip, 1879, p. 136):