Spring or string: does tendon elastic action influence wing muscle mechanics in bat flight?
Spring or string: does tendon elastic action influence wing muscle mechanics in bat flight?
Tendon springs influence locomotor movements in many terrestrial animals, but their roles in locomotion through fluids as well as in small-bodied mammals are less clear. We measured muscle, tendon and joint mechanics in an elbow extensor of a small fruit bat during ascending flight. At the end of downstroke, the tendon was stretched by elbow flexion as the wing was folded. At the end of upstroke, elastic energy was recovered via tendon recoil and extended the elbow, contributing to unfurling the wing for downstroke. Compared with a hypothetical 'string-like' system lacking series elastic compliance, the tendon spring conferred a 22.5% decrease in muscle fascicle strain magnitude. Our findings demonstrate tendon elastic action in a small flying mammal and expand our understanding of the occurrence and action of series elastic actuator mechanisms in fluid-based locomotion.
Konow, Nicolai
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Cheney, Jorn A.
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Roberts, Thomas J
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Waldman, J Rhea S
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Swartz, Sharon M.
8112b896-ef39-413e-abed-8d21e9e58cfc
7 October 2015
Konow, Nicolai
5007b728-a5cb-426b-8eca-6470c5a2d8d7
Cheney, Jorn A.
3cf74c48-4eba-4622-9f29-518653d79d93
Roberts, Thomas J
6b1bb45e-dad5-4a04-92ee-ad05cbf24dab
Waldman, J Rhea S
4198a12c-43fd-4b66-82d4-3d7814745891
Swartz, Sharon M.
8112b896-ef39-413e-abed-8d21e9e58cfc
Konow, Nicolai, Cheney, Jorn A., Roberts, Thomas J, Waldman, J Rhea S and Swartz, Sharon M.
(2015)
Spring or string: does tendon elastic action influence wing muscle mechanics in bat flight?
Proceedings. Biological sciences, 282 (1816).
(doi:10.1098/rspb.2015.1832).
Abstract
Tendon springs influence locomotor movements in many terrestrial animals, but their roles in locomotion through fluids as well as in small-bodied mammals are less clear. We measured muscle, tendon and joint mechanics in an elbow extensor of a small fruit bat during ascending flight. At the end of downstroke, the tendon was stretched by elbow flexion as the wing was folded. At the end of upstroke, elastic energy was recovered via tendon recoil and extended the elbow, contributing to unfurling the wing for downstroke. Compared with a hypothetical 'string-like' system lacking series elastic compliance, the tendon spring conferred a 22.5% decrease in muscle fascicle strain magnitude. Our findings demonstrate tendon elastic action in a small flying mammal and expand our understanding of the occurrence and action of series elastic actuator mechanisms in fluid-based locomotion.
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Published date: 7 October 2015
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Local EPrints ID: 471867
URI: http://eprints.soton.ac.uk/id/eprint/471867
ISSN: 0962-8452
PURE UUID: e59b489d-d5f3-4a44-9b03-df4ca91981fe
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Date deposited: 22 Nov 2022 17:31
Last modified: 17 Mar 2024 04:16
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Author:
Nicolai Konow
Author:
Jorn A. Cheney
Author:
Thomas J Roberts
Author:
J Rhea S Waldman
Author:
Sharon M. Swartz
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