2021
DOI: 10.1186/s12864-021-07553-x
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Rapid genetic adaptation to recently colonized environments is driven by genes underlying life history traits

Abstract: Background Uncovering the mechanisms underlying rapid genetic adaptation can provide insight into adaptive evolution and shed light on conservation, invasive species control, and natural resource management. However, it can be difficult to experimentally explore rapid adaptation due to the challenges associated with propagating and maintaining species in captive environments for long periods of time. By contrast, many introduced species have experienced strong selection when colonizing environm… Show more

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Cited by 15 publications
(17 citation statements)
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“…Habitat fragmentation was predicted to reduce N e , which negatively affects genetic diversity due to increased genetic drift (Ellstrand & Elam, 1993;Young et al, 1996). Honnay and Jacquemyn (2007) corroborated this theoretical prediction with a meta-study and emphasized that such a response to habitat fragmentation can be observed in rare and common species.…”
Section: Drivers Of Genetic Diversitysupporting
confidence: 55%
See 1 more Smart Citation
“…Habitat fragmentation was predicted to reduce N e , which negatively affects genetic diversity due to increased genetic drift (Ellstrand & Elam, 1993;Young et al, 1996). Honnay and Jacquemyn (2007) corroborated this theoretical prediction with a meta-study and emphasized that such a response to habitat fragmentation can be observed in rare and common species.…”
Section: Drivers Of Genetic Diversitysupporting
confidence: 55%
“…Another cause of genetic differentiation following a founder event is described by the monopolization hypothesis (De Meester et al, 2016). After the colonization of a new habitat, rapid adaptation may occur (Boheemen et al, 2019; Szűcs et al, 2017; Yin et al, 2021) and can provide an adaptive advantage to early founders over late comers leading to evolution‐mediated priority effects (De Meester et al, 2016). The resulting adaptive divergence can cause reduced gene flow with the parent population due to the same processes like in the case of IBE (above).…”
Section: Introductionmentioning
confidence: 99%
“…Another cause of genetic differentiation following a founder event is described by the monopolization hypothesis (De Meester et al, 2002). After the colonization of a new habitat, rapid adaptation may occur (van Boheemen et al, 2018; Szűcs et al, 2017; Yin et al, 2021) and can provide an adaptive advantage to early founders over late comers leading to evolution-mediated priority effects (De Meester et al, 2016). The resulting adaptive divergence can cause reduced geneflow with the parent population due to the same processes like in the case of IBE (above).…”
Section: Introductionmentioning
confidence: 99%
“…In the molecular ecology literature, BCAFD has been used or mentioned many times since Berner's publications (Berner, 2019a , 2019b ), including for assessment of population differentiation in time or space, with implications for likely genetic connectivity (Amos, 2021 ; Lou et al, 2021 ; Popovic et al, 2021 ; Subramanian, 2021 ; Taylor et al, 2021 ; Weldekidan et al, 2022 ; Wolf et al, 2021 ), as well as identifying candidate adaptive loci by their strong differentiation relative to other presumably neutral loci (Bharti et al, 2021 ; Boyle et al, 2021 ; Haenel, Guerard, et al, 2021 ; Haenel, Oke, et al, 2021 ; Price et al, 2020 ; Yin et al, 2021 ; Zhou et al, 2021 ).…”
Section: Introductionmentioning
confidence: 99%