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Digital restoration of the pectoral girdles of two Early Cretaceous birds and implications for early-flight evolution

The morphology of the pectoral girdle, the skeletal structure connecting the wing to the body, is a key determinant of flight capability, but in some respects is poorly known among stem birds. Here, the pectoral girdles of the Early Cretaceous birds Sapeornis and Piscivorenantiornis are reconstructe...

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Autores principales: Wang, Shiying, Ma, Yubo, Wu, Qian, Wang, Min, Hu, Dongyu, Sullivan, Corwin, Xu, Xing
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9023055/
https://www.ncbi.nlm.nih.gov/pubmed/35356889
http://dx.doi.org/10.7554/eLife.76086
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author Wang, Shiying
Ma, Yubo
Wu, Qian
Wang, Min
Hu, Dongyu
Sullivan, Corwin
Xu, Xing
author_facet Wang, Shiying
Ma, Yubo
Wu, Qian
Wang, Min
Hu, Dongyu
Sullivan, Corwin
Xu, Xing
author_sort Wang, Shiying
collection PubMed
description The morphology of the pectoral girdle, the skeletal structure connecting the wing to the body, is a key determinant of flight capability, but in some respects is poorly known among stem birds. Here, the pectoral girdles of the Early Cretaceous birds Sapeornis and Piscivorenantiornis are reconstructed for the first time based on computed tomography and three-dimensional visualization, revealing key morphological details that are important for our understanding of early-flight evolution. Sapeornis exhibits a double articulation system (widely present in non-enantiornithine pennaraptoran theropods including crown birds), which involves, alongside the main scapula-coracoid joint, a small subsidiary joint, though variation exists with respect to the shape and size of the main and subsidiary articular contacts in non-enantiornithine pennaraptorans. This double articulation system contrasts with Piscivorenantiornis in which a spatially restricted scapula-coracoid joint is formed by a single set of opposing articular surfaces, a feature also present in other members of Enantiornithines, a major clade of stem birds known only from the Cretaceous. The unique single articulation system may reflect correspondingly unique flight behavior in enantiornithine birds, but this hypothesis requires further investigation from a functional perspective. Our renderings indicate that both Sapeornis and Piscivorenantiornis had a partially closed triosseal canal (a passage for muscle tendon that plays a key role in raising the wing), and our study suggests that this type of triosseal canal occurred in all known non-euornithine birds except Archaeopteryx, representing a transitional stage in flight apparatus evolution before the appearance of a fully closed bony triosseal canal as in modern birds. Our study reveals additional lineage-specific variations in pectoral girdle anatomy, as well as significant modification of the pectoral girdle along the line to crown birds. These modifications produced diverse pectoral girdle morphologies among Mesozoic birds, which allowed a commensurate range of capability levels and styles to emerge during the early evolution of flight.
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spelling pubmed-90230552022-04-22 Digital restoration of the pectoral girdles of two Early Cretaceous birds and implications for early-flight evolution Wang, Shiying Ma, Yubo Wu, Qian Wang, Min Hu, Dongyu Sullivan, Corwin Xu, Xing eLife Evolutionary Biology The morphology of the pectoral girdle, the skeletal structure connecting the wing to the body, is a key determinant of flight capability, but in some respects is poorly known among stem birds. Here, the pectoral girdles of the Early Cretaceous birds Sapeornis and Piscivorenantiornis are reconstructed for the first time based on computed tomography and three-dimensional visualization, revealing key morphological details that are important for our understanding of early-flight evolution. Sapeornis exhibits a double articulation system (widely present in non-enantiornithine pennaraptoran theropods including crown birds), which involves, alongside the main scapula-coracoid joint, a small subsidiary joint, though variation exists with respect to the shape and size of the main and subsidiary articular contacts in non-enantiornithine pennaraptorans. This double articulation system contrasts with Piscivorenantiornis in which a spatially restricted scapula-coracoid joint is formed by a single set of opposing articular surfaces, a feature also present in other members of Enantiornithines, a major clade of stem birds known only from the Cretaceous. The unique single articulation system may reflect correspondingly unique flight behavior in enantiornithine birds, but this hypothesis requires further investigation from a functional perspective. Our renderings indicate that both Sapeornis and Piscivorenantiornis had a partially closed triosseal canal (a passage for muscle tendon that plays a key role in raising the wing), and our study suggests that this type of triosseal canal occurred in all known non-euornithine birds except Archaeopteryx, representing a transitional stage in flight apparatus evolution before the appearance of a fully closed bony triosseal canal as in modern birds. Our study reveals additional lineage-specific variations in pectoral girdle anatomy, as well as significant modification of the pectoral girdle along the line to crown birds. These modifications produced diverse pectoral girdle morphologies among Mesozoic birds, which allowed a commensurate range of capability levels and styles to emerge during the early evolution of flight. eLife Sciences Publications, Ltd 2022-03-31 /pmc/articles/PMC9023055/ /pubmed/35356889 http://dx.doi.org/10.7554/eLife.76086 Text en © 2022, Wang et al https://creativecommons.org/licenses/by/4.0/This article is distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Evolutionary Biology
Wang, Shiying
Ma, Yubo
Wu, Qian
Wang, Min
Hu, Dongyu
Sullivan, Corwin
Xu, Xing
Digital restoration of the pectoral girdles of two Early Cretaceous birds and implications for early-flight evolution
title Digital restoration of the pectoral girdles of two Early Cretaceous birds and implications for early-flight evolution
title_full Digital restoration of the pectoral girdles of two Early Cretaceous birds and implications for early-flight evolution
title_fullStr Digital restoration of the pectoral girdles of two Early Cretaceous birds and implications for early-flight evolution
title_full_unstemmed Digital restoration of the pectoral girdles of two Early Cretaceous birds and implications for early-flight evolution
title_short Digital restoration of the pectoral girdles of two Early Cretaceous birds and implications for early-flight evolution
title_sort digital restoration of the pectoral girdles of two early cretaceous birds and implications for early-flight evolution
topic Evolutionary Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9023055/
https://www.ncbi.nlm.nih.gov/pubmed/35356889
http://dx.doi.org/10.7554/eLife.76086
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