Personalities are not associated with different reproductive tactics in male Cape ground squirrels, Xerus inauris

Warrington, Miyako H.; Beaulieu, Sienna; Vos, Sjoerd B.; Jellicoe, Riley; Bennett, Nigel C.; Waterman, Jane M.

doi:10.1016/j.anbehav.2022.08.014

Animal Behaviour

2022

DOI: 10.1016/j.anbehav.2022.08.014

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Personalities are not associated with different reproductive tactics in male Cape ground squirrels, Xerus inauris

Miyako H. Warrington

Sienna Beaulieu

Sjoerd B. Vos

et al.

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Cited by 2 publications

References 80 publications

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Lovers, not fighters: docility influences reproductive fitness, but not survival, in male Cape ground squirrels, Xerus inauris

Warrington,

Beaulieu,

Jellicoe

et al. 2024

Behav Ecol Sociobiol

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Over their lifetime, individuals may use different behavioural strategies to maximize their fitness. Some behavioural traits may be consistent among individuals over time (i.e., ‘personality’ traits) resulting in an individual behavioural phenotype with different associated costs and benefits. Understanding how behavioural traits are linked to lifetime fitness requires tracking individuals over their lifetime. Here, we leverage a long-term study on a multi-year living species (maximum lifespan ~ 10 years) to examine how docility (an individual’s reaction to trapping and handling) may contribute to how males are able to maximize their lifetime fitness. Cape ground squirrels are burrowing mammals that live in social groups, and although males lack physical aggression and territoriality, they vary in docility. Males face high predation risk and high reproductive competition and employ either of two reproductive tactics (‘natal’ or ‘band’) which are not associated with different docility personalities. We found that although more docile individuals sired more offspring on an annual basis, docility did not affect an individual’s long-term (lifetime) reproductive output. Survival was not associated with docility or body condition, but annual survival was influenced by rainfall. Our findings suggest that although docility may represent a behavioural strategy to maximize fitness by possibly playing a role in female-male associations or female mate-choice, variations in docility within our study population is likely maintained by other environmental drivers. However, individual variations in behaviours may still contribute as part of the ‘tool kit’ individuals use to maximize their lifetime fitness.

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Lovers, not fighters: docility influences reproductive fitness, but not survival, in male Cape ground squirrels, Xerus inauris

Warrington,

Beaulieu,

Jellicoe

et al. 2024

Behav Ecol Sociobiol

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Temperature-associated morphological changes in an African arid-zone ground squirrel

Warrington

Waterman

2022

Journal of Mammalogy

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The ecology, life histories, and physiology of many animals are changing in response to human-induced climate change. As the Earth warms, the ability of an animal to thermoregulate becomes ecologically and physiologically significant. Morphological adaptations to warmer temperatures include larger appendages and smaller bodies. We examined morphological features in a ground squirrel, Xerus inauris, living in the arid zones of South Africa, to examine whether squirrels have responded to increases in temperature and changes in seasonal rainfall with morphological modifications over the last 18 years. We found that over time, absolute hindfoot length and proportional hindfoot length increased, while spine length decreased. These changes are consistent with ecogeographical rules (Allen’s rule and Bergmann’s rule) and provide evidence in support of “shape-shifting” in response to climatic warming. Body mass also increased with time; however, these changes were not consistent with Bergmann’s rule, indicating that mass is influenced by other ecological factors (e.g., resource availability). Our study adds to the growing evidence that animal morphologies are changing in response to changing climatic conditions, although it remains to be seen whether these changes are adaptive.

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Personalities are not associated with different reproductive tactics in male Cape ground squirrels, Xerus inauris

Cited by 2 publications

References 80 publications

Lovers, not fighters: docility influences reproductive fitness, but not survival, in male Cape ground squirrels, Xerus inauris

Lovers, not fighters: docility influences reproductive fitness, but not survival, in male Cape ground squirrels, Xerus inauris

Temperature-associated morphological changes in an African arid-zone ground squirrel

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