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and in Dendronotm there are several. In Zomanotm, Antiopa, and Proctmotm, the lateral spines are numerous, the lingual membrane being broad in these genera, as in Doris, loma- notm has no central spines. Hermaa, SMger, and Alderia, also present a peculiar modification of this organ. In them there is a. single longitudinal series of plates, as in Solis; butthey are articulated, resembling the vertebra of the spinal column, and each bears a very large, broad, simple spine. In addition to the dentigerous tongue, Doris repanda, D. pilosa, Goniodoris, Idalia, and Anmta, have a spiny, prehensile collar, placed at the entrance of the buccal organ, on what has been denominated the buccal lip. D. coccinea, D. HlameUata, and Suphcamus croceus, are also provided with a similar collar; but in these the surface of the organ is roughened with papilla; or imbricated scales. The genera in which this apparatus is most strongly developed, are characterised by narrowness of tongue and deficiency of jaws. It would therefore seem probable, that the collar is'a compensation for-diminished prehensile power, consequent upon these circumstances. At least it is rarely associated with a powerful tongue, and never with lateral jaws. There is a narrow belt of spines on the outer surfaoe of the jaws of IHloxia, but this would seem to differ from a prehensile collar. The tongue, in all the Nudibranchs, is more of a prehensile than a rasping instrument: in Solis the protruded jaws lay hold of its prey, cutting out lump after lump, which the tongue,, advancing, seizes by the aid of it's recurved spines, and with a backward motion carries to the. entrance of the oesophagus. The broad tongue of Doris acts at once in the capacity of both jaws and tongue ; it is hollow or scoop- formed, and, on being applied to the surface of its food is flattened out ; the sides then collapse, when the spines laying hold, a piece is torn or licked out, as it were, and brought immediately to the back of the mouth by the withdrawal of the tongue. The tongue in Tritonia must act much in the same way, but here, probably from the different nature of its food, it requires the assistance of a pair of powerful jaws. In most of- the species with a prehensile collar, the lingual organ is narrow, has lost the scoop-like character, and is functionally very similar to that of Solis. The collar, in these forms, will seize the prey somewhat in the manner of jaws; then the tongue will be advanced, and do its work of carrying the food to the cesophagus. The oesophagus, stomach, and intestine are well marked ; the former is generally short and passes from the upper surface of the buccal mass. In the Dorididts, and in a portion of the Tritoniadts, there is a pair of well-developed salivary glands, pouring their secretion into the buccal cavity, one on each side of the cesophagus. The Eolididts* appear to be devoid of these organs, with the exception of Tethys, a very abnormal genus, in which they'are quite rudimentary. The stomach varies considerably in size and form ; and, in the Dorididts, is frequently buried in the liver. In them, too, there is occasionally, besides the buccal gizzard already * We have described Dolo as possessing salivary glands, in the account of that genus. A more extended knowledge of the anatomy of these animals has, however, induced us to change pur opinion respecting the nature of these organs, which we are now disposed .to look upon as glands for secreting mucus to lubricate the foot, similar to those for the like purpose pointed out in Fiona. The salivary glands of CalBopm {Stiliger) described by M. Souleyet, will probably prove to be of the same nature. The minute salivary glands described under the head Eolis, we are now satisfied do not exist. We were deceived in our original examination by the lodgment of extraneous matter between the jaws and the fleshy walls of the mouth. noticed, an anterior stomach or crop, formed by a dilatation of the oesophagus. The most remarkable modification of the gastric organ is found in Scylltsa, where it is armed with a belt of horny plates or teeth. A similar armature of the stomach is not, as far as we are aware, to be met with in any other Nudibranch. The intestine is always short—in some of the Eolididts excessively so, never convoluted, and, in the Dorididts, terminates in an anal opening, on the medio-dorsal line, in the centre of the branchial circle. In the Tritoniadts, and in many of the Eolididts, the vent is on the right side. It is situated on the medio-dorsal line in Antiopa, Proctonotus, Alderia, Hermtsa, and Stiliger; in the three former, towards the posterior extremity, in the two latter, far forward in front of the heart. In some others of the Eolididts it is latero-dorsal. The liver presents two great types of form. In the Dorididts and Tritoniadts it is entire (excepting in Scylltsa, where it is broken up into six or seven globular masses), occupying its normal abdominal position; in the Eolididts it is more or less diffused. In those genera with an entire liver, it is very bulky, pouring the hepatic fluid into the stomach by one or several large ducts. When the gastric organ is free, as in D. tubermlata, it receives only one d u ct; but in those species with the stomach buried in the liver, the bile enters through several large openings in its under surface. In Scylltsa pelagica, and Doris tubermlata, the biliary secretion enters at the cardiac extremity of the stomach: in Tritonia Hombergii, at the pyloric. The diffusion of the liver is first seen in Tethys * but in it the great bulk of the hepatic organ is still found in the abdominal cavity; and the gastro-hepatic system is only in a rudimentary state, though developed distinctly on the plan of that of Eolis. Lateral vessels are given off from the stomach and liver, which pass to, and seem to penetrate, the papillae on the sides of the back between the branchial tufts. In the greater number of the Eolididts, however, the liver has entirely disappeared from the abdomen, and is broken up into numerous minute portions or glands which are thrust into the branchial papillae. The delicate ducts from these glands pass inwards and unite to form great hepatic ducts or trunk channels, which open into the stomach. In the Proctonotints, Glaucinte, and Eolidints, there are three such trunk-channels, two lateral and anterior,—one central and posterior: in the last-named sub-family the posterior duct lies above the ovary; in the two others, below it, shewing, in this respect, their relationship to the Dorididts and Tritoniadts, in both of which the ovary overlies the liver. The Hermtsints have four great gastro-hepatic ducts, all of which are lateral*—two being anterior and two posterior. The great ducts, and the numerous branches leading to them from the glands of the papillae, form the gastro-vascular system of M. Milne Edwards, and M. de Quatrefages. The gland of each papilla has appended to its extremity an ovate vesicle, which communicates externally by a minute orifice at the apex of the respiratory organ. This vesicle, which has been observed only in Eolis, has the power of discharging filamentous urticating bodies. * In the account of Scylltsa, under the head of the genus, we have described a series of vessels or tubes passing from the hepatic globular masses to the skin and branchial tufts;, these we deemed at the time to represent, in a rudimentary form, the gastro-hepatic system of the Eolididts, but we are now inclined to consider them as veins, carrying blood from the biliary organ to the aerating surface, and therefore of the same nature as the hepatic veins in Tritonia, and as the great hepatic trunk vein in Doris.