The number of eggs also contained in the ovaries varies. In Echinomyia grossa there is only one egg in each, and only two at once in the matrix[730]: in another fly produced by the cheese-maggot there are four[731]; in the louse there are five; in the cockchafer six[732]; in the hive-bee sixteen or seventeen are visible at the same time[733]; and in the silkworm-moth sixty or seventy[734]. Besides the eggs, the tubes contain a pellucid mucus, and at their upper extremity the eggs are lost in a granular mucous mass, in which, however, they may still be discovered with a microscope[735]. With regard to the termination of the ovaries or egg-tubes internally,—in those that have agglomerated ones it is not to be traced, the whole appearing like an oblong obtuse or acute body[736]: but in the branching ones it is more easily traced; at first they converge in most cases to a point; this is seen to advantage in the caterpillar of some butterflies, when near assuming the pupa, in which they are readily discovered, and represent with great truth and elegance the bud of some blossom[737]; but in time they diverge, and sometimes become convoluted[738]; they generally terminate in a slender simple filament, but in the louse in a fork[739]; they are sometimes extremely long, as in the wasp and Lepidoptera[740]; in the hive-bee they appear to be shorter[741].
IV. We are next to consider the Ovipositor, or instrument by which numerous insects are enabled to introduce their eggs into their appropriate situations, and where the new-born larva may immediately meet with its destined food. As this instrument is one of the most striking peculiarities with which the wisdom of the Creator has gifted these little animals, and in many cases is extremely curious and wonderful, both in its structure and modes of operation—though on a former occasion I gave you a brief account of several kinds of them[742], I shall now enter more at large into the subject, and describe these often complex machines, as they are exhibited in most of the different Orders of insects.
With regard to the Coleoptera Order, there are doubtless numerous variations in the structure of this organ; but very few have been noticed, and those chiefly belong to insects whose grubs feed on timber. In these it is usually retractile one part within another, like the pieces of a telescope: in Buprestis it consists of three long and sharp laminæ, the two lateral ones forming a sheath to the intermediate one, which probably conveys the eggs[743]: in Elater it is a cylindrical organ, terminating in a pair of conical joints, which seem to form a forceps, and including a tube probably conveying the egg to the forceps, which perhaps introduces it[744]. The Ovipositor of Prionus coriarius differs from that of Callidium violaceum, and many Capricorns before described[745]: it consists merely of a long bivalve piece ending in a kind of forceps, and hollowed above into a channel for the passage of the eggs[746].
In the Orthoptera the instrument of oviposition is more simple; in Locusta consisting merely of four robust three-sided pieces, two above and two below, the former pair at the end curving upwards and the latter downwards[747], these pieces seem calculated when they have entered the earth to enlarge the burrow, and the animal appears able to separate them very widely from each other[748]. The ovipositor of Acrida viridissima, which like that of many Hymenopterous insects forms a kind of appendage or tail to the body, has been described both by De Geer and Latreille as consisting of two valves only[749]; but in reality it consists of six, two upper and four lower, as you may ascertain by means of a pin or the point of a penknife, which will readily separate them. This is confirmed by a figure of Stoll's of a species which seems to connect Conocephalus with Gryllus. In this the ovipositor is considerably longer than the body of the animal, and is composed of six distinct pieces; viz. two external ones stouter than the rest, and within these four others finer than a hair and convolute at the apex[750]. There is a considerable variety in the shape of the ovipositors of the Acridæ and the cognate genera:—thus in A. viridissima this organ is straight, in A. verrucivora bent like a sabre, and in Pterophylla citrifolia and some others, the whole machine is short and boat-shaped; in Scaphura Vigorsii it is also rough with sharp little tubercles[751]. I had an opportunity of observing, with respect to the first of these insects, that in boring, as is the case with the Cicadæ and saw-flies, the motion of the valves was alternately backwards and forwards. It appeared also to me that the two outer pieces of each of the apparent valves were fixed in a groove in the margin of the intermediate one. I saw this clearly with respect to the upper pieces, and it is most probable that the lower are similarly circumstanced. In the cricket tribe (Gryllus) the ovipositor is as long as the abdomen, very slender, terminating in a knob[752]. It is apparently bivalve like that of Acrida, but I believe is resolvable into the same number of pieces.
In the Homopterous Hemiptera there seems to be more than one type on which the ovipositor is constructed. In an insect very common with us, the froth froghopper (Cercopis spumaria), some approach is made to the ovipositors last described, at least the number of pieces is the same—for it has a pair of external valves forming a sheath, which includes three sharp laminæ resembling the blades of a lancet, the middle one of which can be separated into two; this instrument De Geer had reason to think was scored transversely like a file[753]. In the insects of this Order so noted for their song[754] (Cicada), there are only five pieces; namely, two valves forming the sheath, two augers or borers, and an intermediate piece upon which they slide, each being furnished with an internal groove for that purpose, and the middle piece with a ridge to fit; a contrivance of Divine Wisdom, to prevent their dislocation when employed in boring; the augers terminate in a knob which is externally toothed[755]. This structure approaches that of the Hymenoptera, especially the saw-flies. With regard to the Heteropterous section of this Order—as they usually do not introduce their eggs into any substance, they have no call for any remarkable ovipositor, and therefore are not so furnished. A remark which will also apply to the Lepidoptera Order.
In the Libellulina amongst the Neuroptera, an organ of this kind is sometimes discoverable. In Agrion, Reaumur noticed a part which he conjectured to be an ovipositor; it consists of four laminæ or lancets, the interior pair slender, the exterior wider, and all externally serrated[756].
The insects of the Hymenoptera Order have long been celebrated for the organs we are describing, whether used as saws, augers, or darts. I formerly gave you a very general account of the saws,—I shall now give you a very interesting one in detail copied from an admirable little essay of Professor Peck. "This instrument," says he, "is a very curious object; and in order to describe it it will be proper to compare it with the tenon-saw used by cabinet-makers, which being made of a very thin plate of steel, is fitted with a back to prevent its bending. The back is a piece of iron, in which a narrow and deep groove is cut to receive the plate, which is fixed: the saw of the Tenthredo is also furnished with a back, but the groove is in the plate, and receives a prominent ridge of the back, which is not fixed, but permits the saw to slide forward and backward as it is thrown out or retracted. The saw of artificers is single, but that of the Tenthredo is double, and consists of two distinct saws with their backs: the insect in using them, first throws out one, and while it is returning pushes forward the other; and this alternate motion is continued till the incision is effected, when the two saws receding from each other, conduct the egg between them into its place. In the artificial saw the teeth are alternately bent toward the sides, or out of the right line, in order that the fissure or kerf may be made sufficiently wide for the blade to move easily. To answer this purpose in some measure, in that of the Tenthredo the teeth are a little twisted, so as to stand obliquely with respect to the right line, and their point of course projects a little beyond the plane of the blade, without being laterally bent; and all those in each blade thus project a little outwards: but the kerf is more effectually made, and a free range procured for the saws, by small teeth placed on the outer side of each; so that while their vertical effect is that of a saw, their lateral effect is that of a rasp. In the artificial saw the teeth all point outward (towards the end) and are simple; but in the saw of the Tenthredo they point inward, or toward the handle, and their outer edge is beset with smaller teeth which point outwards (towards the end)[757]." Valisnieri, Reaumur, and De Geer describe the groove as being in the back; but in Mr. Peck's insect, if there is no error in his account, it is, as in the Cicadæ, in the saw itself[758]. In the genus Cimbex, belonging to the same tribe, the saw differs in shape, being somewhat sigmoidal or resembling the letter S, while in that of other saw-flies it is cultriform with a concave edge: other minor differences distinguish them, which need not be particularized.
A similar structure, with regard to the organ in question, obtains in the rest of the Hymenoptera, even those that use it as a weapon of offence; but the backs of the saws in them, composed of a single piece, become a sheath for the darts. The valves, however, vary. In most of those with an exerted sting, as Pimpla, they are linear, exerted, and as long as the aculeus itself[759]. In Proctotrupes they appear to be united so as to form a tube for the ovipositor, and are produced by a prolongation of the last abdominal segment. The darts usually run in two grooves of the sheath, and at their apex are retroserrulate[760]. In some cases the sheath itself is serrated[761]. The shanks of the darts are connected with the valves; so that when these open they are pushed out: sometimes on their outer side they have a triangular plate towards the base, which prevents their being pushed out too far[762].
In Sirex and many ichneumons, in which the ovipositor is too long to be withdrawn within the abdomen, it remains always exerted; but in general it is retracted within that part when unemployed. In the gall-fly (Cynips) this instrument is really as long as in Pimpla, &c.; but as it is infinitely more slender, when in repose it is rolled up spirally and concealed within the abdomen. It is the puncture of this minute organ that produces the curious galls formerly described to you[763]. But the most anomalous ovipositor in this Order appears to be that of Chrysis (C. ignita, &c.), which is covered by several demi-tubes or scales enveloping and sliding over each other: when these scales are removed, the true ovipositor appears, which is of a structure similar to that of the rest of the Order, but the valves are long and slender with their summit generally visible without the anus[764].
Though the ovipositor of the majority of Dipterous insects is a tube with retractile joints[765], in the crane-flies this organ is different, and, like that of Acrida above described, consists of what at first sight appear two valves, but each of which is formed of two pieces, the upper ones sharp and longer, and the lower pair blunt. The upper pair forms the auger that bores a hole in the ground, and the lower conducts the eggs into it after it is bored[766].