Low elbow mobility indicates unique forelimb posture and function in a giant extinct marsupial

• Published in: Journal of anatomy Vol. 238; no. 6; pp. 1425 - 1441
• Main Authors: Richards, Hazel L., Bishop, Peter J., Hocking, David P., Adams, Justin W., Evans, Alistair R.
• Format: Journal Article
• Language: English
• Published: England Wiley Subscription Services, Inc 01.06.2021; John Wiley and Sons Inc
• Subjects: Animals; Australia; Biomechanical Phenomena - physiology; biomechanics; Computer applications; Elbow; Elbow Joint - anatomy & histology; Elbow Joint - physiology; Extinction; forelimb; Forelimb - anatomy & histology; Forelimb - physiology; Fossils; functional morphology; Gait; helical axes; Humerus; Humerus - anatomy & histology; Humerus - physiology; joint mobility; Mapping; Marsupialia; Marsupials; megafauna; Mobility; Movement; Original Paper; Original Papers; Palorchestes; Pleistocene; Posture; Posture - physiology; range of motion; Range of Motion, Articular - physiology; Australia; functional morphology; joint mobility; megafauna; range of motion; biomechanics; forelimb; Palorchestes; helical axes
• ISSN: 0021-8782; 1469-7580; 1469-7580
• DOI: 10.1111/joa.13389

Joint mobility is a key factor in determining the functional capacity of tetrapod limbs, and is important in palaeobiological reconstructions of extinct animals. Recent advances have been made in quantifying osteological joint mobility using virtual computational methods; however, these approaches generally focus on the proximal limb joints and have seldom been applied to fossil mammals. Palorchestes azael is an enigmatic, extinct ~1000 kg marsupial with no close living relatives, whose functional ecology within Australian Pleistocene environments is poorly understood. Most intriguing is its flattened elbow morphology, which has long been assumed to indicate very low mobility at this important joint. Here, we tested elbow mobility via virtual range of motion (ROM) mapping and helical axis analysis, to quantitatively explore the limits of Palorchestes' elbow movement and compare this with their living and extinct relatives, as well as extant mammals that may represent functional analogues. We find that Palorchestes had the lowest elbow mobility among mammals sampled, even when afforded joint translations in addition to rotational degrees of freedom. This indicates that Palorchestes was limited to crouched forelimb postures, something highly unusual for mammals of this size. Coupled flexion and abduction created a skewed primary axis of movement at the elbow, suggesting an abducted forelimb posture and humeral rotation gait that is not found among marsupials and unlike that seen in any large mammals alive today. This work introduces new quantitative methods and demonstrates the utility of comparative ROM mapping approaches, highlighting that Palorchestes' forelimb function was unlike its contemporaneous relatives and appears to lack clear functional analogues among living mammals. Palorchestes azael, a giant extinct marsupial, showed the lowest three‐dimensional elbow mobility among a sample of living and extinct mammals. Using helical axis analysis, we show their limited elbow movement was likely skewed, indicating a crouched and abducted forelimb posture unusual for mammals of their size. This suggests Palorchestes used its forelimbs in ways unrepresented by mammals today.