Bohra paulae Flannery & Szalay, 1982

Bohra paulae Flannery & Szalay, 1982

Bohra pauli: Dawson (2004a) , p. 271, table 1; lapsus calami.

Holotype. AM F62099 / AM F62100 , right adult calcaneus and talus. The holotype was originally based solely on the calcaneus ( AM F62099 ); the talus was listed and described separately as a referred specimen ( AM F62100 ). However, given their precise anatomical fit and similar preservation, it is beyond reasonable doubt that these two elements belong to the same individual.

Type locality. Wellington Caves (site not specified), New South Wales. No specific locality or collection details are associated with the holotype of B. paulae . However, the type locality is very likely a Pleistocene deposit (see ‘Locality information’) .

Referred specimens. Cathedral Cave, Wellington Caves. AM F62101, left tibia. AM F62102, left tibia (proximal half). Collected by Henry Barnes of the Australian Museum in 1881 ( Ramsay 1882). The stratigraphic origins of the tibiae are unknown, but Ramsay’s Shaft No. 2, positioned in the alcove south of the ‘Altar’ formation in the main chamber, evidently produced much of the larger fossil material collected from Cathedral Cave in 1881 ( Ramsay 1882).

Wellington Caves (site not specified). AM F103802 , adult right metatarsal V. AM F104075 , left juvenile metatarsal IV. AM F104092 , adult right metatarsal V. AM F104550 , juvenile left metatarsal IV. These specimens are part of the ‘Old Collection’ of the Australian Museum ( Dawson 1985), and probably originate from a Pleistocene deposit based on the same line of reasoning as for the holotype .

Etymology. Named in honour of Flannery & Szalay’s draftsperson Paula Kendall.

Revised diagnosis. A large species of Bohra , closest in size to B. wilkinsonorum in calcaneal dimensions. The species is distinguished by the following combination of calcaneal features: dorsal half of tuber calcanei barrel-shaped; plantar aspect less flared posteriorly, particularly laterally, than in the similarly large B. wilkinsonorum ; medial and lateral talar facets of calcaneus continuous anteriorly but with facet contours distinct; calcaneocuboid articulation transversely broad, with step between dorsal facets smoothed, and confluent with ventromedial facet; talar and cuboid articular surfaces separated by short distance. The talus is distinguished from that of other species of Bohra by having a shallow trochlear groove that is slightly deeper medially, and a very short talar neck. The tibia is relatively more robust than in B. illuminata and B. nullarbora , particularly distally. The metatarsals IV and V are more robust than those of B. illuminata and B. nullarbora , and the metatarsal IV diaphysis is proportionally deeper anteriorly than in B. nullarbora .

Description and comparisons. Tibia. The tibia of B. paulae ( Figure 11 View FIGURE 11 ) is significantly larger ( Table 8 View TABLE 8 ) and more robust than that of B. illuminata and is more similar to species of Dendrolagus ( Figure 8 View FIGURE 8 ) in its stockiness. Other aspects of its morphology, including the relative size of the anterior tibial crest ( Figure 8A View FIGURE 8 ), the curvature of the shaft, and the length of distal fibular facet ( Figure 8B View FIGURE 8 ) are similar between B. paulae and B. illuminata , although the proximal fibular facet ( Figure 8D View FIGURE 8 ) is more pronounced in B. paulae . The tibial crest is shorter and the lateral fossa for m. tibialis cranialis ( Figure 8D View FIGURE 8 ) is deeper in both B. paulae ( Figure 11 View FIGURE 11 ) and B. illuminata than in species of Dendrolagus . Caudolaterally, the interosseous border of the tibia is more sinuous than that of B. illuminata and B. nullarbora , but less so than in species of Dendrolagus . The tibial diaphysis is more flared distally than in B. illuminata and B. nullarbora . The distal articular surface of AM F62101 has sustained significant post-mortem damage from rodent gnawing ( Figure 11F View FIGURE 11 ), but the relatively short medial malleolus reflects the corresponding morphology of the talus.

Calcaneus. The plantar surface of the holotype calcaneus was evidently expanded posteromedially, but the specimen is abraded in this area ( Figure 12B View FIGURE 12 ). It is also abraded on the lateral side ( Figure 12C View FIGURE 12 ), but the contour of the surrounding bone allows us to infer that it was flared to a lesser degree than in B. wilkinsonorum ( Figure 20A–B View FIGURE 20 ). Indeed, the tuber calcanei of B. paulae is distinctly barrel-shaped in dorsal view ( Figure 12A View FIGURE 12 ), and not as constricted anteriorly as in other tree-kangaroo species. Otherwise, the calcaneus is similar in general proportions and size to that of B. wilkinsonorum ( Table 8 View TABLE 8 ). The distance between the talar and cuboid facets is even shorter in B. paulae than in other tree-kangaroos, e.g., D. bennettianus ( Figure 9A View FIGURE 9 ). Although extended medially, the sustentaculum tali is relatively short, not extending as far posteriorly as in other tree-kangaroo species ( Figure 9A–B View FIGURE 9 ). The plantar surface is flat, only slightly rugose, and very broad anteriorly ( Figure 12B View FIGURE 12 ). The non-rugose flexor groove is shallow and wide, but not as wide as in D. lumholtzi ( Figure 9B View FIGURE 9 ).

The medial and lateral talar facets in B. paulae are broadly continuous ( Figure 12B, E View FIGURE 12 ) and more smoothed than in D. bennettianus ( Figure 9A View FIGURE 9 ), D. lumholtzi , B. illuminata and B. nullarbora . The lateral facet is only slightly tapered mesially, and the medial facet is large, ovoid and almost transverse in alignment ( Figure 12A View FIGURE 12 ). The calcaneocuboid articulation is relatively shallow, and the characteristic macropodid ‘step’ between the medial and lateral facets is not much more than an undulation ( Figure 12B, E, H View FIGURE 12 ; cf. Figure 9A View FIGURE 9 ). The ventromedial facet is broad and completely continuous with the medial and lateral facets (cf. Figure 9D View FIGURE 9 ). Overall, the cranial end of the calcaneus closely resembles that of D. lumholtzi . The sulcus for the m. flexor digitorum longus is short and narrow compared with all other species (cf. Figure 9B View FIGURE 9 ).

Talus. The talus of B. paulae is short and wide, but the medial crest is moderately high and steep, and the lateral crest is low and broad, resulting in a moderately shallow but asymmetrical trochlear groove ( Figure 12H, J View FIGURE 12 ). This marked asymmetry in crest contour is similar to that observed in D. lumholtzi , but less so in D. bennettianus ( Figure 9H, K View FIGURE 9 ) and other species of Bohra , where the crests are more equally pronounced. The talar neck is very short ( Figure 12K, N, L View FIGURE 12 ), shorter in fact than in all other tree-kangaroos for which the talus is known (e.g., Figure 9H View FIGURE 9 ). The navicular facet is slightly deeper relatively than that of D. lumholtzi , and most similar to that of D. bennettianus ( Figure 9K View FIGURE 9 ). The malleolar fossa is broad and shallow in comparison to the conditions observed in B. nullarbora , D. bennettianus and the species of Dorcopsulus , Petrogale Gray, 1837 , Setonix Lesson, 1842 and Thylogale Gray, 1837 . The posteroventral process is similar in its posterior extension to the condition observed in B. illuminata , B. nullarbora , D. lumholtzi and D. bennettianus ( Figure 9G View FIGURE 9 ), but more extended than in B. planei ( Figure 33J View FIGURE 33 ).

Metatarsals. Two juvenile metatarsal IV specimens are referred to B. paulae ( Figure 13A–J View FIGURE 13 ) on the basis of their overall proportions and relative robustness, and the transversely wide, conjoined articular facet for metatarsal V, as in species of Dendrolagus ( Figure 10B View FIGURE 10 ). AM F104075 is more robust and slightly shorter, and has a broader, more posteriorly restricted plantar ridge compared with AM F104550. Otherwise, they are very alike and morphologically distinct from the B. illuminata holotype metatarsal IV, which is also not fully grown and missing the distal epiphysis, and from the B. nullarbora holotype metatarsal IV, which is fully grown and has a fused distal epiphysis. The proximal articular facet for the cuboid is convex dorsally, while the peninsula of the cuboid facet that extends ventrally onto the posterior face of the plantar tuberosity is concave ( Figure 13E, J View FIGURE 13 ). In comparison, the dorsolateral corner of the cuboid facet is more pointed in B. illuminata , while the ventral peninsula of the facet is much broader in B. nullarbora . In B. paulae , the plantar sesamoid facet on the anteroventral face of the plantar tuberosity abuts the conjoined metatarsal V facets (AM F104550) or is separated from them by a 1-mm gap (AM F104075), as in the B. illuminata holotype, while the gap is closer to 2 mm in the B. nullarbora holotype and D. bennettianus ( Figure 10B View FIGURE 10 ). The metatarsal IV of B. paulae is more robust (broader relative to length) than that of the B. illuminata holotype. AM F104550 and the B. nullarbora holotype are very similar in size and general proportions, despite the ontogenetic difference between the specimens. However, the diaphysis of AM F104550 is comparatively deeper cranially (less concave ventrally).

Two metatarsal V specimens are referred to B. paulae ( Figure 13K–R View FIGURE 13 ) on the basis of their absolute size, proportions and distinctive robustness. Both are complete and fully grown with fused distal epiphyses. The proximal articular facet for the lateral facet of the cuboid is roughly triangular and concave, sweeping up onto the broad proximolateral process. The proximomedial surface has a single broad articular facet for metatarsal IV. There only noteworthy differences between them are that AM F103802 is 11% larger than AM F104092. AM F103802 and AM F104092 are 25% and 15% larger, respectively, than the B. nullarbora holotype metatarsal V ( Table 8 View TABLE 8 ), and slightly broader posteriorly (evident primarily in the plantar rugosity). Other points of morphological distinction in metatarsal V morphology between B. paulae and B. nullarbora include a relatively larger surface area of the metatarsal IV facet, shorter proximolateral process and commensurately less deeply flexed cuboid facet in B. paulae . From the smaller, ontogenetically younger B. illuminata holotype, B. paulae differs by having a more rounded medial end of the metatarsal IV facet and a more rugose interosseous ligament attachment ( Figure 13M, Q View FIGURE 13 ).

Remarks. We are confident that the only known calcaneus and talus of Bohra paulae once articulated with each other and, as Flannery & Szalay (1982) originally suggested, that the two referred left tibiae belong to the same species as the tarsal bones. Both tibiae were collected from Cathedral Cave within the Wellington Caves complex ( Figure 1 View FIGURE 1 ), likely from Ramsay’s Shaft No. 2. Subsequent excavations within this area of the cave led by Lyndall Dawson & others in 1982–1986 ( Dawson & Augee 1997) and by Diana Fusco and GJP since 2016 have revealed close spatial associations between limb elements of large macropodid individuals. It is conceivable that the holotype not only came from Shaft No. 2, but also belongs to the same individual as one of the referred tibiae.

By contrast, ‘ Wellington Caves’ is the only provenance information associated with the four metatarsals. Their larger size and morphological distinction from the metatarsals of B. illuminata and B. nullarbora prompt us to refer them to B. paulae rather than B. bandharr . Basic metrics ( Table 8 View TABLE 8 ) reinforce this: the holotype calcaneus of B. paulae is 23% longer than that of B. nullarbora , while metatarsal V length (mean of AM F103802 and AM F104092) is also 23% greater than that of B. nullarbora . Similarly, calcaneus length to metatarsal V length ( B. paulae holotype against mean of AM F103802 and AM F104092) is 0.72, as it is for the B. nullarbora holotype.