Reconstruction of soft noncontractile tissue in the derived therizinosaur Nothronychus: The interplay of soft tissue and stress on hindlimb ossification and posture

Author:

Smith David K.1ORCID,Gillette David D.2

Affiliation:

1. Biology Department Northland Pioneer College Holbrook Arizona USA

2. 24 W. Travertine Trail Flagstaff Arizona USA

Abstract

AbstractNothronychus graffami was a large therizinosaur from the Upper Cretaceous of North America. Much of the skeleton is well‐preserved and relatively undistorted. The synovial capsule, extracapsular, and intracapsular tendons are reconstructed in N. graffami using existing scars and comparison with the hips of extant theropods and models of extinct theropods. The iliofemoral, pubofemoral, and ischiofemoral ligaments are all modeled. Soft tissue, especially the ischiofemoral and pubofemoral ligaments reduced possible protraction/retraction of the femur at the hip while stabilizing the joint. Therefore, most hindlimb movements took place at the knee. Weight‐bearing function in Nothronychus was transferred from the supra‐acetabular crest to the pubic peduncle and associated labrum at rest. The femur possessed an intermediately angled neck, convergent with titanosaurs. Therefore, some lateral abduction is proposed, requiring a well‐developed meniscus at the knee. Such a posture would result in considerable mediolateral stress along the femoral shaft, resulting in increased transverse ossification. The femur is considered somewhat abducted from the midline, especially when maximally pronated, as the preacetabular ala is more extensive than the post‐acetabular ala. This trait would probably result in a laterally divergent femur, as in many birds, resulting in a broad‐gauge trackway with wider separation between left and right footprints than observed in many theropod trackways. Limb ratios and ossification patterns suggest a slow, waddling gait. A standard digitiform pose is reconstructed as is common for theropods, but a plantigrade stance cannot be firmly rejected.

Publisher

Wiley

Subject

Developmental Biology,Animal Science and Zoology

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