Function of revolute zygapophyses in the lumbar vertebrae of early placental mammals

Author:

Kort Anne E.1ORCID,Jones Katrina E.2ORCID

Affiliation:

1. Department of Earth and Environmental Sciences University of Michigan Ann Arbor Michigan USA

2. Department of Earth and Environmental Sciences University of Manchester Manchester UK

Abstract

AbstractThe unique morphology of mammalian lumbar vertebrae allows the spine to flex and extend in the sagittal plane during locomotion. This movement increases stride length and allows mammals to efficiently breathe while running with an asymmetric gait. In extant mammals, the amount of flexion that occurs varies across different locomotor styles, with dorsostable runners relying more on movement of long limbs to run and dorsomobile runners incorporating more flexion of the back. Although long limbs and a stabilized lumbar region are commonly associated with each other in extant mammals, many “archaic” placental mammals with short limbs had lumbar vertebrae with revolute zygapophyses. These articulations with an interlocking S‐shape are found only in artiodactyls among extant mammals and have been hypothesized to stabilize against flexion of the back. This would suggest that archaic placental mammals may not have incorporated dorsoventral flexion into locomotion to the same extent as extant mammals with similar proportions. We tested the relative mobility of fossil lumbar vertebrae from two early placental mammals, the creodonts Patriofelis and Limnocyon, to see how these vertebrae may have functioned. We compared range of motion (ROM) between the original vertebrae, with revolute morphology and digitally altered vertebrae with a flat morphology. We found that the revolute morphology had relatively little effect on dorsoventral flexion and instead that it likely prevented disarticulation due to shear forces on the spine. These results show that flexion of the spine has been an important part of mammalian locomotion for at least 50 million years.

Funder

College of Arts and Sciences, Indiana University Bloomington

Geological Society of America

Publisher

Wiley

Subject

Ecology, Evolution, Behavior and Systematics,Histology,Biotechnology,Anatomy

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