2021
DOI: 10.1016/j.tree.2021.03.007
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Life in Deserts: The Genetic Basis of Mammalian Desert Adaptation

Abstract: Deserts are among the harshest environments on Earth. The multiple ages of different deserts and their global distribution provide a unique opportunity to study repeated adaptation at different timescales. Here, we summarize recent genomic research on the genetic mechanisms underlying desert adaptations in mammals. Several studies on different desert mammals show large overlap in functional classes of genes and pathways, consistent with the complexity and variety of phenotypes associated with desert adaptation… Show more

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Cited by 54 publications
(44 citation statements)
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“…We first identified Earth's largest arid systems, focusing on those delineated by Olson et al (2001) in the Biome 'Deserts and Xeric Shrublands' (Biome 13). Within this biome, we considered the major regions to be those with a substantial component of arid and hyperarid conditions, that is, with an aridity index (AI) < .2 (Parsons & Abrahams, 1994;Rocha et al, 2021). This delimitation set includes eight main arid systems (Figure 1): Atacama, Australian desert, Central Asian desert, Gobi, Kalahari, North American desert, Persian desert, and Saharo-Arabian desert.…”
Section: Delimitation Of Arid Systems and Species Categorizationmentioning
confidence: 99%
See 1 more Smart Citation
“…We first identified Earth's largest arid systems, focusing on those delineated by Olson et al (2001) in the Biome 'Deserts and Xeric Shrublands' (Biome 13). Within this biome, we considered the major regions to be those with a substantial component of arid and hyperarid conditions, that is, with an aridity index (AI) < .2 (Parsons & Abrahams, 1994;Rocha et al, 2021). This delimitation set includes eight main arid systems (Figure 1): Atacama, Australian desert, Central Asian desert, Gobi, Kalahari, North American desert, Persian desert, and Saharo-Arabian desert.…”
Section: Delimitation Of Arid Systems and Species Categorizationmentioning
confidence: 99%
“…The simplest hypothesis to explain geographic differences in species diversity relates to the total evolutionary time over which species F I G U R E 1 Desert systems considered in this study. We focused on regions with aridity indices (AI) < .2, which describe systems that are formally 'arid' or 'hyper-arid' but which exclude 'semi-arid' (Parsons & Abrahams, 1994;Rocha et al, 2021). Map in an equal-area Behrmann projection have accumulated in different regions.…”
Section: Evolutionary Time Hypothesismentioning
confidence: 99%
“…The imperiled state of many Dipodomys populations, combined with the vast array of occupied habitat types that include arid environments, make species of this genus valuable subjects for studying the impacts of habitat degradation and fragmentation on population genomic patterns and for characterizing the genomic bases of adaptation to extreme environments. Specifically, the latter application may provide a key link between historical studies of Dipodomys kidney morphology ( Schmidt-Nielsen and Schmidt-Nielsen 1952 ; Vimtrup and Schmidt-Nielsen 1952 ) and more recent investigations of gene and protein expression related to osmoregulation in arid conditions (reviewed in Rocha et al 2021 ).…”
Section: Introductionmentioning
confidence: 99%
“…The genetic basis of desert adaptation has been studied independently in a handful of species and individual genes and pathways which may underlie this adaptive phenotype have been identified (Rocha et al 2021). Here, we leverage three phylogenetically independent lineages of rodents that have all converged on a common phenotype, ultra-high urine concentration associated with desert living, to identify shared molecular changes associated with habitat type.…”
Section: Introductionmentioning
confidence: 99%