TY - JOUR
T1 - Musculoskeletal modeling of sprawling and parasagittal forelimbs provides insight into synapsid postural transition
AU - Brocklehurst, Robert J.
AU - Fahn-Lai, Philip
AU - Regnault, Sophie
AU - Pierce, Stephanie E.
N1 - Funding Information:
We thank Karl Bates and three anonymous reviewers for detailed feedback which greatly improved this manuscript. We would like to thank Rachel Norris and Anthony Wilkes (University of Adelaide) for donating the echidna specimens; Emma Hanslowe, Jillian Josimovich, Bryan Falk, and Robert Reed (United States Geological Survey Daniel Beard Center) for donating the tegu specimens; and Tom French (Massachusetts Division of Fisheries and Wildlife) for donating the opossum specimens. We would also like to thank Ken Angielczyk (Field Museum) for continued advice and Peter Bishop (Harvard University) for providing constructive feedback on this work. This research was supported in part by NSF DEB Grant 1754459 awarded to S.E.P. and published by a grant from the Wetmore Colles fund. R.J.B. and S.E.P. conceived and designed the study. P.F-L. and S.R. collected the original muscle data. R.J.B. built and analyzed the musculoskeletal models. R.J.B. and S.E.P. interpreted the results and drafted the manuscript. All authors edited the manuscript and gave final approval for publication. We declare we have no competing interests.
Funding Information:
We thank Karl Bates and three anonymous reviewers for detailed feedback which greatly improved this manuscript. We would like to thank Rachel Norris and Anthony Wilkes (University of Adelaide) for donating the echidna specimens; Emma Hanslowe, Jillian Josimovich, Bryan Falk, and Robert Reed (United States Geological Survey Daniel Beard Center) for donating the tegu specimens; and Tom French (Massachusetts Division of Fisheries and Wildlife) for donating the opossum specimens. We would also like to thank Ken Angielczyk (Field Museum) for continued advice and Peter Bishop (Harvard University) for providing constructive feedback on this work. This research was supported in part by NSF DEB Grant 1754459 awarded to S.E.P. and published by a grant from the Wetmore Colles fund .
Publisher Copyright:
© 2021 The Authors
PY - 2022/1/21
Y1 - 2022/1/21
N2 - The sprawling–parasagittal postural shift was a major transition during synapsid evolution, underpinned by reorganization of the forelimb, and considered key to mammalian ecological diversity. Determining when and how this transition occurred in the fossil record is challenging owing to limited comparative data on extant species. Here, we built forelimb musculoskeletal models of three extant taxa that bracket sprawling–parasagittal postures—tegu lizard, echidna, and opossum—and tested the relationship between three-dimensional joint mobility, muscle action, and posture. Results demonstrate clear functional variation between postural grades, with the parasagittal opossum occupying a distinct region of pose space characterized by a highly retracted and depressed shoulder joint that emphasizes versatility and humeral elevation. Applying our data to the fossil record support trends of an increasingly retracted humerus and greater elevation muscle moment arms indicative of more parasagittal postures throughout synapsid evolution.
AB - The sprawling–parasagittal postural shift was a major transition during synapsid evolution, underpinned by reorganization of the forelimb, and considered key to mammalian ecological diversity. Determining when and how this transition occurred in the fossil record is challenging owing to limited comparative data on extant species. Here, we built forelimb musculoskeletal models of three extant taxa that bracket sprawling–parasagittal postures—tegu lizard, echidna, and opossum—and tested the relationship between three-dimensional joint mobility, muscle action, and posture. Results demonstrate clear functional variation between postural grades, with the parasagittal opossum occupying a distinct region of pose space characterized by a highly retracted and depressed shoulder joint that emphasizes versatility and humeral elevation. Applying our data to the fossil record support trends of an increasingly retracted humerus and greater elevation muscle moment arms indicative of more parasagittal postures throughout synapsid evolution.
KW - Biomechanics
KW - Comparative anatomy
KW - Evolutionary biology
KW - Zoology
UR - http://www.scopus.com/inward/record.url?scp=85121620858&partnerID=8YFLogxK
U2 - 10.1016/j.isci.2021.103578
DO - 10.1016/j.isci.2021.103578
M3 - Article
C2 - 37609446
AN - SCOPUS:85121620858
SN - 2589-0042
VL - 25
JO - iScience
JF - iScience
IS - 1
M1 - 103578
ER -