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Title
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Does aquatic performance predict terrestrial performance : a case study with an aquatic frog, Xenopus laevis
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Author
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Abstract
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| The physical properties of the environment impose strong selection on organisms and their form-function relationships. In water and on land, selective pressures differ, with water being more viscous and denser than air, and gravity being the most important external force on land for relatively large animals such as vertebrates. These different properties of the environment could drive variation in the design and mechanics of the locomotor system of organisms. Animals that use multiple environments can consequently exhibit locomotion conflicts between the demands imposed by the media, leading to potential trade-offs. Here, we tested for the presence of such locomotor trade-offs depending on the environment (water or land) in a largely aquatic frog, Xenopus laevis. We focused on terrestrial and aquatic exertion capacity (time and distance swum or jumped until exhaustion) and aquatic and terrestrial burst capacity (maximal instantaneous swimming velocity and maximal force jump) given the ecological relevance of these traits. We tested these performance traits for trade-offs, depending on environments (water versus air) and locomotor modes (i.e. exertion and burst performance). Finally, we assessed the contribution of morphological traits to each performance trait. Our data show no trade-offs between the performance traits and between the environments, suggesting that X. laevis is equally good at swimming and jumping thanks to the same underlying morphological specialisations. We did observe, however, that morphological predictors differed depending on the environment, with variation in head shape and forelimb length being good predictors for aquatic locomotion and variation in hindlimb and forelimb segments predicting variation in jumping performance on land. |
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Language
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English
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Source (journal)
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The journal of experimental biology. - London, 1930, currens
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Publication
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London
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2023
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ISSN
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0022-0949
[print]
1477-9145
[online]
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DOI
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10.1242/JEB.246545
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Volume/pages
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226
:24
(2023)
, p. 1-8
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Article Reference
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jeb246545
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ISI
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001137365300009
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Pubmed ID
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37990942
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Full text (Publisher's DOI)
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Full text (publisher's version - intranet only)
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