Helically arranged cross struts in azhdarchid pterosaur cervical vertebrae and their biomechanical implications

Helically arranged cross struts in azhdarchid pterosaur cervical vertebrae and their biomechanical implications

Summary: Azhdarchid pterosaurs, the largest flying vertebrates, remain poorly understood, with fundamental aspects of their palaeobiology unknown. X-ray computed tomography reveals a complex internal micro-architecture for three-dimensionally preserved, hyper-elongate cervical vertebrae of the Creta...

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Main Authors: Cariad J. Williams, Martino Pani, Andrea Bucchi, Roy E. Smith, Alexander Kao, William Keeble, Nizar Ibrahim, David M. Martill
Format: Article
Language:English
Published: Elsevier 2021-04-01
Series:iScience
Subjects:
Imaging Anatomy
Paleontology
Paleobiology
Animal Morphology
Online Access:http://www.sciencedirect.com/science/article/pii/S2589004221003060
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spelling doaj-101e36bb28d34b5a843df1e5b8454f262021-04-26T05:57:54ZengElsevieriScience2589-00422021-04-01244102338Helically arranged cross struts in azhdarchid pterosaur cervical vertebrae and their biomechanical implicationsCariad J. Williams0Martino Pani1Andrea Bucchi2Roy E. Smith3Alexander Kao4William Keeble5Nizar Ibrahim6David M. Martill7School of the Environment, Geography and Geosciences, University of Portsmouth, Burnaby Building, Burnaby Road, Portsmouth, PO1 3QL, UK; Center for Paleontology, Illinois Natural History Survey, Prairie Research Institute, University of Illinois at Urbana-Champaign, Forbes Natural History Building 1816 S. Oak Street, Champaign, IL 61820, USASchool of Mechanical and Design Engineering, University of Portsmouth, Anglesea Building, Anglesea Road, Portsmouth PO1 3DJ, UKSchool of Mechanical and Design Engineering, University of Portsmouth, Anglesea Building, Anglesea Road, Portsmouth PO1 3DJ, UKSchool of the Environment, Geography and Geosciences, University of Portsmouth, Burnaby Building, Burnaby Road, Portsmouth, PO1 3QL, UKSchool of Engineering, University of Portsmouth, Portland Building, Portland Street, PO1 3DJ, Portsmouth, UK; Elettra Synchrotron Trieste, Science Park, 34149 Basovizza TS, ItalyFaculty of Technology, University of Portsmouth, Anglesea Building, Anglesea Road, Portsmouth PO1 3DJ, UKSchool of the Environment, Geography and Geosciences, University of Portsmouth, Burnaby Building, Burnaby Road, Portsmouth, PO1 3QL, UKSchool of the Environment, Geography and Geosciences, University of Portsmouth, Burnaby Building, Burnaby Road, Portsmouth, PO1 3QL, UK; Corresponding authorSummary: Azhdarchid pterosaurs, the largest flying vertebrates, remain poorly understood, with fundamental aspects of their palaeobiology unknown. X-ray computed tomography reveals a complex internal micro-architecture for three-dimensionally preserved, hyper-elongate cervical vertebrae of the Cretaceous azhdarchid pterosaur, Alanqa sp. Incorporation of the neural canal within the body of the vertebra and elongation of the centrum result in a “tube within a tube” supported by helically distributed trabeculae. Linear elastic static analysis and linearized buckling analysis, accompanied with a finite element model, reveal that as few as 50 trabeculae increase the buckling load by up to 90%, implying that a vertebra without the trabeculae is more prone to elastic instability due to axial loads. Subsuming the neural tube into the centrum tube adds considerable stiffness to the cervical series, permitting the uptake of heavy prey items without risking damage to the cervical series, while at the same time allowing considerable skeletal mass reduction.http://www.sciencedirect.com/science/article/pii/S2589004221003060Imaging AnatomyPaleontologyPaleobiologyAnimal Morphology
collection DOAJ
language English
format Article
sources DOAJ
author Cariad J. Williams
Martino Pani
Andrea Bucchi
Roy E. Smith
Alexander Kao
William Keeble
Nizar Ibrahim
David M. Martill
spellingShingle Cariad J. Williams
Martino Pani
Andrea Bucchi
Roy E. Smith
Alexander Kao
William Keeble
Nizar Ibrahim
David M. Martill
Helically arranged cross struts in azhdarchid pterosaur cervical vertebrae and their biomechanical implications
iScience
Imaging Anatomy
Paleontology
Paleobiology
Animal Morphology
author_facet Cariad J. Williams
Martino Pani
Andrea Bucchi
Roy E. Smith
Alexander Kao
William Keeble
Nizar Ibrahim
David M. Martill
author_sort Cariad J. Williams
title Helically arranged cross struts in azhdarchid pterosaur cervical vertebrae and their biomechanical implications
title_short Helically arranged cross struts in azhdarchid pterosaur cervical vertebrae and their biomechanical implications
title_full Helically arranged cross struts in azhdarchid pterosaur cervical vertebrae and their biomechanical implications
title_fullStr Helically arranged cross struts in azhdarchid pterosaur cervical vertebrae and their biomechanical implications
title_full_unstemmed Helically arranged cross struts in azhdarchid pterosaur cervical vertebrae and their biomechanical implications
title_sort helically arranged cross struts in azhdarchid pterosaur cervical vertebrae and their biomechanical implications
publisher Elsevier
series iScience
issn 2589-0042
publishDate 2021-04-01
description Summary: Azhdarchid pterosaurs, the largest flying vertebrates, remain poorly understood, with fundamental aspects of their palaeobiology unknown. X-ray computed tomography reveals a complex internal micro-architecture for three-dimensionally preserved, hyper-elongate cervical vertebrae of the Cretaceous azhdarchid pterosaur, Alanqa sp. Incorporation of the neural canal within the body of the vertebra and elongation of the centrum result in a “tube within a tube” supported by helically distributed trabeculae. Linear elastic static analysis and linearized buckling analysis, accompanied with a finite element model, reveal that as few as 50 trabeculae increase the buckling load by up to 90%, implying that a vertebra without the trabeculae is more prone to elastic instability due to axial loads. Subsuming the neural tube into the centrum tube adds considerable stiffness to the cervical series, permitting the uptake of heavy prey items without risking damage to the cervical series, while at the same time allowing considerable skeletal mass reduction.
topic Imaging Anatomy
Paleontology
Paleobiology
Animal Morphology
url http://www.sciencedirect.com/science/article/pii/S2589004221003060
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