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Adaptations to life on arid islands of South Africa: renal performance and phenotypic plasticity in the European rabbit Oryctolagus cuniculus

Adaptations to life on arid islands of South Africa: renal performance and phenotypic plasticity... Morphological parameters of the mammalian kidney can provide information on the extent to which an animal is able to regulate water relations within its body and cope with arid conditions. Certain groups of mammals, such as rabbits and hares, show a flexible phenotype (phenotypic plasticity) with respect to renal physiology that enables them to inhabit a variety of bioclimatic regions.We investigated kidney morphology in the European rabbit, Oryctolagus cuniculus, located on two isolated islands off the coast of the Western Cape South Africa, at sites with varying water and food availability, to ascertain whether these populations demonstrate differences in renal morphology that would link to differential renal physiology. In summer, Dassen Island is more restricted in available water and plants than Robben Island; we tested the prediction that rabbits from Dassen Island would be physiologically more suited to waterlimited conditions. Our data showed that O. cuniculus exhibits phenotypic plasticity, with Dassen Island rabbits displaying renal adaptations more suited to survival in drier environments, such as an increased relative medullary thickness and a higher predicted maximal urineconcentrating ability. This suggests increased renal performance in the Dassen Island population with the consequent increased ability to concentrate urine and conserve body water. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png African Zoology Taylor & Francis

Adaptations to life on arid islands of South Africa: renal performance and phenotypic plasticity in the European rabbit Oryctolagus cuniculus

Tate, Gareth J.; Marco, Heather G.
African Zoology , Volume 49 (2): 10 – Oct 1, 2014
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Adaptations to life on arid islands of South Africa: renal performance and phenotypic plasticity in the European rabbit Oryctolagus cuniculus

Abstract

Morphological parameters of the mammalian kidney can provide information on the extent to which an animal is able to regulate water relations within its body and cope with arid conditions. Certain groups of mammals, such as rabbits and hares, show a flexible phenotype (phenotypic plasticity) with respect to renal physiology that enables them to inhabit a variety of bioclimatic regions.We investigated kidney morphology in the European rabbit, Oryctolagus cuniculus, located on two isolated...
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Publisher
Taylor & Francis
Copyright
© Zoological Society of Southern Africa
ISSN
2224-073X
eISSN
1562-7020
DOI
10.1080/15627020.2014.11407636
Publisher site
See Article on Publisher Site

Abstract

Morphological parameters of the mammalian kidney can provide information on the extent to which an animal is able to regulate water relations within its body and cope with arid conditions. Certain groups of mammals, such as rabbits and hares, show a flexible phenotype (phenotypic plasticity) with respect to renal physiology that enables them to inhabit a variety of bioclimatic regions.We investigated kidney morphology in the European rabbit, Oryctolagus cuniculus, located on two isolated islands off the coast of the Western Cape South Africa, at sites with varying water and food availability, to ascertain whether these populations demonstrate differences in renal morphology that would link to differential renal physiology. In summer, Dassen Island is more restricted in available water and plants than Robben Island; we tested the prediction that rabbits from Dassen Island would be physiologically more suited to waterlimited conditions. Our data showed that O. cuniculus exhibits phenotypic plasticity, with Dassen Island rabbits displaying renal adaptations more suited to survival in drier environments, such as an increased relative medullary thickness and a higher predicted maximal urineconcentrating ability. This suggests increased renal performance in the Dassen Island population with the consequent increased ability to concentrate urine and conserve body water.

Journal

African ZoologyTaylor & Francis

Published: Oct 1, 2014

Keywords: Oryctolagus cuniculus; relative medullary thickness (RMT); phenotypic plasticity; renal performance; maximum urine-concentrating ability

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