Inferring cost of transport from whole-body kinematics in three sympatric turtle species with different locomotor habits

William I. Sellers; Kayleigh A.r. Rose; Dane A. Crossley; Jonathan R. Codd

doi:10.1016/j.cbpa.2020.110739

Inferring cost of transport from whole-body kinematics in three sympatric turtle species with different locomotor habits

William I. Sellers, Kayleigh A.r. Rose, Dane A. Crossley, Jonathan R. Codd

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Abstract

Chelonians are mechanically unusual vertebrates as an exoskeleton limits their body wall mobility. They generally move slowly on land and have aquatic or semi-aquatic lifestyles. Somewhat surprisingly, the limited experimental work that has been done suggests that their energetic cost of transport (CoT) are relatively low. This study examines the mechanical evidence for CoT in three turtle species that have differing degrees of terrestrial activity. Our results show that Apolone travels faster than the other two species, and that Chelydra has higher levels of yaw. All the species show poor mean levels of energy recovery, and, whilst there is considerable variation, never show the high levels of energy recovery seen in cursorial quadrupeds. The mean mechanical CoT is 2 to 4 times higher than is generally seen in terrestrial animals. We therefore find no mechanical support for a low CoT in these species. This study illustrates the need for research on a wider range of chelonians to discover whether there are indeed general trends in mechanical and metabolic energy costs.

Original language	English
Pages (from-to)	110739
Journal	Comparative Biochemistry and Physiology. Part A: Molecular & Integrative Physiology
Volume	247
Early online date	22 May 2020
DOIs	https://doi.org/10.1016/j.cbpa.2020.110739
Publication status	Published - 1 Sept 2020

Keywords

kinematics
energy recovery
walking
biomechanics

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10.1016/j.cbpa.2020.110739

Whole Body Locomotor Kinematics_resubmissionAccepted author manuscript, 380 KBLicence: CC BY-NC-ND

https://linkinghub.elsevier.com/retrieve/pii/S109564332030091X

ICAL: Interdisciplinary Centre for Ancient Life
Garwood, R. (PI), Wogelius, R. (PI), Sansom, R. (CoI), Buckley, M. (CoI), Chamberlain, A. (CoI), Manning, P. (CoI), Egerton, V. (CoI), Sellers, W. (CoI), Nudds, J. (CoI), Bulot, L. G. (CoI), Brocklehurst, R. (PGR student), Brassey, C. A. (CoI), Keating, J. (CoI), La Porta, A. (CoI), Brocklehurst, R. (PGR student), Callender-Crowe, L. (PGR student), Wallace, E. (PGR student), Chester, J. (PGR student), Davenport, J. (PGR student), Tuley, K. (PGR student), Lomax, D. (Researcher), Reeves, J. (PGR student), Smart, C. (PGR student), Ferro, C. (PGR student), Karoullas, C. (PGR student), Heath, J. (PGR student), Dickson, A. (PGR student), Austin Sydes, L. (PGR student), McLean, C. (PGR student), Harvey, V. (PGR student) & Jones, K. (PI)
Project: Research

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title = "Inferring cost of transport from whole-body kinematics in three sympatric turtle species with different locomotor habits",

abstract = "Chelonians are mechanically unusual vertebrates as an exoskeleton limits their body wall mobility. They generally move slowly on land and have aquatic or semi-aquatic lifestyles. Somewhat surprisingly, the limited experimental work that has been done suggests that their energetic cost of transport (CoT) are relatively low. This study examines the mechanical evidence for CoT in three turtle species that have differing degrees of terrestrial activity. Our results show that Apolone travels faster than the other two species, and that Chelydra has higher levels of yaw. All the species show poor mean levels of energy recovery, and, whilst there is considerable variation, never show the high levels of energy recovery seen in cursorial quadrupeds. The mean mechanical CoT is 2 to 4 times higher than is generally seen in terrestrial animals. We therefore find no mechanical support for a low CoT in these species. This study illustrates the need for research on a wider range of chelonians to discover whether there are indeed general trends in mechanical and metabolic energy costs.",

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Inferring cost of transport from whole-body kinematics in three sympatric turtle species with different locomotor habits. / Sellers, William I.; Rose, Kayleigh A.r.; Crossley, Dane A. et al.
In: Comparative Biochemistry and Physiology. Part A: Molecular & Integrative Physiology , Vol. 247, 01.09.2020, p. 110739.

Research output: Contribution to journal › Article › peer-review

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T1 - Inferring cost of transport from whole-body kinematics in three sympatric turtle species with different locomotor habits

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AU - Rose, Kayleigh A.r.

AU - Crossley, Dane A.

AU - Codd, Jonathan R.

PY - 2020/9/1

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N2 - Chelonians are mechanically unusual vertebrates as an exoskeleton limits their body wall mobility. They generally move slowly on land and have aquatic or semi-aquatic lifestyles. Somewhat surprisingly, the limited experimental work that has been done suggests that their energetic cost of transport (CoT) are relatively low. This study examines the mechanical evidence for CoT in three turtle species that have differing degrees of terrestrial activity. Our results show that Apolone travels faster than the other two species, and that Chelydra has higher levels of yaw. All the species show poor mean levels of energy recovery, and, whilst there is considerable variation, never show the high levels of energy recovery seen in cursorial quadrupeds. The mean mechanical CoT is 2 to 4 times higher than is generally seen in terrestrial animals. We therefore find no mechanical support for a low CoT in these species. This study illustrates the need for research on a wider range of chelonians to discover whether there are indeed general trends in mechanical and metabolic energy costs.

AB - Chelonians are mechanically unusual vertebrates as an exoskeleton limits their body wall mobility. They generally move slowly on land and have aquatic or semi-aquatic lifestyles. Somewhat surprisingly, the limited experimental work that has been done suggests that their energetic cost of transport (CoT) are relatively low. This study examines the mechanical evidence for CoT in three turtle species that have differing degrees of terrestrial activity. Our results show that Apolone travels faster than the other two species, and that Chelydra has higher levels of yaw. All the species show poor mean levels of energy recovery, and, whilst there is considerable variation, never show the high levels of energy recovery seen in cursorial quadrupeds. The mean mechanical CoT is 2 to 4 times higher than is generally seen in terrestrial animals. We therefore find no mechanical support for a low CoT in these species. This study illustrates the need for research on a wider range of chelonians to discover whether there are indeed general trends in mechanical and metabolic energy costs.

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JO - Comparative Biochemistry and Physiology. Part A: Molecular & Integrative Physiology

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ER -

Inferring cost of transport from whole-body kinematics in three sympatric turtle species with different locomotor habits

Abstract

Keywords

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ICAL: Interdisciplinary Centre for Ancient Life

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