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New insights into morphological adaptation in common mole-rats (Cryptomys hottentotus hottentotus) along an aridity gradient.

Authors
  • Merchant, Hana N1, 2
  • Portugal, Steven J1
  • Bennett, Nigel C3
  • Janse van Vuuren, Andries K3
  • Faulkes, Chris G2
  • Bowen, James4
  • Hart, Daniel W3
  • 1 Department of Biological Sciences, School of Life and Environmental Sciences Royal Holloway University of London Egham, Surrey UK.
  • 2 School of Biological and Behavioural Sciences Queen Mary University of London London UK.
  • 3 Department of Zoology and Entomology University of Pretoria Pretoria Gauteng South Africa. , (South Africa)
  • 4 Faculty of Science, Technology, Engineering, and Mathematics Open University Milton Keynes UK.
Type
Published Article
Journal
Ecology and Evolution
Publisher
Wiley (John Wiley & Sons)
Publication Date
Apr 01, 2024
Volume
14
Issue
4
Identifiers
DOI: 10.1002/ece3.11301
PMID: 38651162
Source
Medline
Keywords
Language
English
License
Unknown

Abstract

Morphological adaptation is the change in the form of an organism that benefits the individual in its current habitat. Mole-rats (family Bathyergidae), despite being subterranean, are impacted by both local and broad-scale environmental conditions that occur above ground. Common mole-rats (Cryptomys hottentotus hottentotus) present an ideal mammalian model system for the study of morphological variation in response to ecology, as this species is found along an aridity gradient and thus can be sampled from geographically non-overlapping populations of the same species along an environmental longitudinal cline. Using the mass of five internal organs, ten skeletal measurements and 3D morphometric analyses of skulls, we assessed the morphology of wild non-breeding individuals from five common mole-rat populations in South Africa. We found that the body mass and mean relative mass of the spleen and kidneys in arid populations was larger, and individuals from arid regions possessed shorter legs and larger inter-shoulder widths compared to individuals from mesic regions. Additionally, arid populations demonstrated greater skull depth, and shape change of features such as angular processes of the lower jaw than mesic individuals, indicating that these distinct geographic populations show differences corresponding to the aridity gradient, potentially in response to environmental factors such as the variation in food sources found between different habitats, in addition to different soil compositions found in the different regions. Arid populations potentially require a stronger jaw and neck musculature associated with mastication to chew xeric-adapted plants and to dig through hard soil types, whereas mesic populations excavate through soft, looser soil and may make use of their front limbs to aid the movement of soils when digging. Aridity influences the morphology of this species and could indicate the impact of environmental changes on speciation and mammalian skull morphology. © 2024 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.

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