Abstract
Previous studies of the morphology of the humerus in kangaroos showed that the shape of the proximal humerus could distinguish between arboreal and terrestrial taxa among living mammals, and that the extinct “giant” kangaroos (members of the extinct subfamily Sthenurinae and the extinct macropodine genus Protemnodon) had divergent humeral anatomies from extant kangaroos. Here, we use 2D geometric morphometrics to capture the shape of the distal humerus in a range of extant and extinct marsupials and obtain similar results: sthenurines have humeral morphologies more similar to arboreal mammals, while large Protemnodon species (P. brehus and P. anak) have humeral morphologies more similar to terrestrial quadrupedal mammals. Our results provide further evidence for prior hypotheses: that sthenurines did not employ a locomotor mode that involved loading the forelimbs (likely employing bipedal striding as an alternative to quadrupedal or pentapedal locomotion at slow gaits), and that large Protemnodon species were more reliant on quadrupedal locomotion than their extant relatives. This greater diversity of locomotor modes among large Pleistocene kangaroos echoes studies that show a greater diversity in other aspects of ecology, such as diet and habitat occupancy.
Highlights
Kangaroos (Marsupialia: Diprotodontia: Macropodoidea) are renowned for their mode of locomotion – bipedal hopping
With the exception of H. moschatus, all extant kangaroos can hop, and all use some form of quadrupedal locomotion as a slow gait
We investigate the morphology of the distal humerus in extinct giant kangaroos, comparing these with extant kangaroos and a diversity of other extant marsupials
Summary
Kangaroos (Marsupialia: Diprotodontia: Macropodoidea) are renowned for their mode of locomotion – bipedal hopping ( known as saltation or ricochetal locomotion). The "poster child” of kangaroos is a fairly large animal that hops, such as a red or grey kangaroo (Osphranter rufus or Macropus giganteus/fuliginosus, respectively). Extant kangaroos possess a diversity of body masses and locomotor modes. Species today range from the tiny musky rat-kangaroo (Hypsiprymnodon moschatus) at a body mass of 500 g to the red kangaroo at up to 90 kg (a large male); kangaroos occupy almost every available Australasian habitat, from closed rainforest to arid grassland (Kear et al 2008). With the exception of H. moschatus, all extant kangaroos can hop, and all use some form of quadrupedal locomotion as a slow gait. Evidence suggests that kangaroo locomotor diversity was even greater in the past (Janis et al 2014, 2020; Den Boer et al 2019; Warburton and Prideaux 2021); this paper aims to investigate this further
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