Not playing by the rules: mixed support of ecogeographic rules in an arid‐adapted African ground squirrel

Not playing by the rules: mixed support of ecogeographic rules in an arid‐adapted African ground squirrel

Body size impacts nearly all aspects of an animal's life and can be subject to considerable variation in response to differences in climate and resource availability. We studied the impact of temperature and resource availability on arid‐living Cape ground squirrels (Xerus inauris), relative to...

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Bibliographic Details
Published in:Journal of zoology (1987) Vol. 312; no. 2; pp. 94 - 101
Main Authors: LaFlèche, L. J., Waterman, J. M.
Format: Journal Article
Language:English
Published: London Blackwell Publishing Ltd 01-10-2020
Subjects:
Annual rainfall
Aridity
Availability
Bergmann's rule
Body size
ecogeographic variance
Feet
Ground squirrels
hind‐foot
Rain
Rainfall
Rensch's rule
Resource availability
resource rule
Resources
Rodents
Sexual dimorphism
Squirrels
Temperature
Temperature effects
Xerus inauris
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Summary:Body size impacts nearly all aspects of an animal's life and can be subject to considerable variation in response to differences in climate and resource availability. We studied the impact of temperature and resource availability on arid‐living Cape ground squirrels (Xerus inauris), relative to body size and degree of sexual dimorphism, over three locations differing in annual rainfall and temperature to test Bergmann's rule, the resource rule and Rensch's rule. We found that squirrels were the largest where resources were the highest and temperatures were the lowest but squirrels were similar in mass where resources were medium or low and temperatures medium and highest, partially supporting Bergmann's rule and the resource rule. Hind‐feet were the largest where resources were medium and temperatures were medium and similarly small in low and high resource and high‐ and low‐temperature areas. The degree of sexual dimorphism of hind‐foot and mass was constant no matter the resource abundance or temperature, suggesting no impact of resource availability or temperature on the degree of sexual dimorphism, contradicting Rensch's rule. Our findings suggest that, while resource availability and temperature may have an impact on body size, other mechanisms may be important in limiting both body size and degree of sexual dimorphism in this species. We examined body size and degree of sexual dimorphism in an African ground squirrel and found that they were heaviest in a high resource, low‐temperature site compared with sites with lower resources and higher temperatures but not in hind‐foot size, partially supporting Bergmann's rule and the resource rule. We did not find the resources or temperature to be related to the degree of sexual dimorphism. The constraints of living in burrows may limit body size and the degree of sexual dimorphism in this species.
Bibliography:Editor: Nigel Bennett
ISSN:0952-8369
1469-7998
DOI:10.1111/jzo.12810