203 



nearly straight ; the very slight degree in which they deviate from that line tends to an 

 upward curve (Plate XXIII. fig. 4). 



The length is 10 inches, the circumference 5 inches 6 lines. The longitudinal ex- 

 tent of the worn surface in those of the skull (Plate XIX.) is 3 inches ; its transverse 

 breadth is 1 inch 4 lines. The transverse section of the entire tooth (Plate XXIII. 

 fig. 6) is oblong; in some it presents an irregular oval with the small end upward. The outer 

 side at its lower two-thirds is usually prominent ; the inner side is more even or flat, in 

 some instances feebly convex ; in one specimen very slightly concave along its middle third. 

 The outer side is more constantly traversed by a narrower shallow longitudinal channel, 

 rather above the middle of that side. The enamel (Plate XXIII. figs. 5, 6, e) is con- 

 tinued from the border of this channel round the lower part of the incisor, to about one- 

 fifth of the extent of the inner side (ib. e') : its terminal borders are abrupt on both sides, 

 with the rather thick cemental covering of the unenamelled part of the circumference 

 extending over the enamel borders. The surface of the enamel is finely ridged length- 

 wise and reticulo-granulate ; the minute studs of enamel being, however, more conspi- 

 cuous than the holes ; although these are not absent. 



About two-thirds of the tooth is lodged in the socket, which extends backward a little 

 beyond the symphysis, but without causing, as in Rodents, a prominence of the inner 

 wall of the ramus (Plate XXVI. fig. 2) ; in this respect Diprotodon resembles Macropus 

 and Phascolomys. The line of the socket forms an angle of 147° with the basal line 

 of the mandibular ramus. The pulp-cavity (Plate XXVII. fig. 5,p) is a long cone 

 widely open at the base. The pair of tusks run almost parallel, slightly approximating 

 so as to come into contact at their working ends. 



The form of the lower incisor, described as it is shown in the most perfect specimen 

 of the lower jaw of a full-grown example, is subject to some variety. Being a tooth of 

 unlimited growth, it increases with the size of the jaw. In young specimens the out- 

 swelling of the outer side, or the contraction of the upper third of that side, is either not 

 apparent or not so conspicuous, and the transverse section of the incisor yields a full 

 oval, as in that of the young Diprotodon from the Wellington Valley Cave * (Cut, fig. 1 «), 

 and, slightly modified, in the one of similar age from Darling Downs, Queensland (Plate 

 XXVI. fig. 1, a). 



But under all these slight varieties, which I cannot regard as specific, there prevail the 

 same essential characters of structure, disposition of enamel, &c, pointed out in my 

 original Memoir as differentiating Diprotodon from Ilalichore, Hippopotamus, and other 

 Mammals with tusks of similar size *. 



A diastema, between three and four inches in extent, rises gently as it recedes from the 

 incisor (Plate XXV. i), to the first molar (d 3), and more so, as the molar series becomes 

 completed and pushed out for use as in Plate XIX. fig. 1, and Plate XXVI. fig. 2. 



Of the first molar tooth (d 3) I have no specimen. Its existence was indicated by traces 

 of its socket in the portion of mandible obtained by Dr. E. C. Hobson, from a gravel- 

 * Mitchell's ' Three Expeditions into the Interior of Australia,' 8vo, 1838, vol. ii. p. 362, pi. 31. figs. 1 & 2. 



