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W4322008398 abstract "Abstract Quaternary climate fluctuations drove many species to shift their geographic ranges, in turn shaping their genetic structures. Recently, it has been argued that adaptation may have accompanied species range shifts via the “sieving” of genotypes during colonisation and establishment. However, this has not been directly demonstrated, and knowledge remains limited on how different evolutionary forces, which are typically investigated separately, interacted to jointly mediate species responses to past climatic change. Here, through whole-genome re-sequencing of over 1200 individuals of the carnation Dianthus sylvestris coupled with integrated population genomic and gene-environment models, we reconstruct the past neutral and adaptive landscape of this species as it was shaped by the Quaternary glacial cycles. We show that adaptive responses emerged concomitantly with the post-glacial range shifts and expansions of this species in the last 20 thousand years. This was due to the heterogenous sieving of adaptive alleles across space and time, as populations expanded out of restrictive glacial refugia into the broader and more heterogeneous range of habitats available in the present-day inter-glacial. Our findings reveal a tightly-linked interplay of migration and adaptation under past climate-induced range shifts, which we show is key to understanding the spatial patterns of adaptive variation we see in species today." @default.
W4322008398 created "2023-02-26" @default.
W4322008398 creator A5005248562 @default.
W4322008398 creator A5027137230 @default.
W4322008398 creator A5075053284 @default.
W4322008398 creator A5081540828 @default.
W4322008398 date "2023-02-25" @default.
W4322008398 modified "2023-10-14" @default.
W4322008398 title "Climate-induced range shifts drive adaptive response via spatio-temporal sieving of alleles" @default.
W4322008398 cites W1544875105 @default.
W4322008398 cites W1583332749 @default.
W4322008398 cites W1641182855 @default.
W4322008398 cites W1793793548 @default.
W4322008398 cites W1919257374 @default.
W4322008398 cites W1952666299 @default.
W4322008398 cites W1967161447 @default.
W4322008398 cites W1985217958 @default.
W4322008398 cites W1988653472 @default.
W4322008398 cites W1995886291 @default.
W4322008398 cites W1997722194 @default.
W4322008398 cites W2000155340 @default.
W4322008398 cites W2001672825 @default.
W4322008398 cites W2005287518 @default.
W4322008398 cites W2015834247 @default.
W4322008398 cites W2025992337 @default.
W4322008398 cites W2033062640 @default.
W4322008398 cites W2034951669 @default.
W4322008398 cites W2048525966 @default.
W4322008398 cites W2055880741 @default.
W4322008398 cites W2061192713 @default.
W4322008398 cites W2066305270 @default.
W4322008398 cites W2069294836 @default.
W4322008398 cites W2070811844 @default.
W4322008398 cites W2095914660 @default.
W4322008398 cites W2098126593 @default.
W4322008398 cites W2100481775 @default.
W4322008398 cites W2103441770 @default.
W4322008398 cites W2107549082 @default.
W4322008398 cites W2109069692 @default.
W4322008398 cites W2112700353 @default.
W4322008398 cites W2113332887 @default.
W4322008398 cites W2122403114 @default.
W4322008398 cites W2123337039 @default.
W4322008398 cites W2124631232 @default.
W4322008398 cites W2129034036 @default.
W4322008398 cites W2131271579 @default.
W4322008398 cites W2136801133 @default.
W4322008398 cites W2139416101 @default.
W4322008398 cites W2140784970 @default.
W4322008398 cites W2146127418 @default.
W4322008398 cites W2146290595 @default.
W4322008398 cites W2146782058 @default.
W4322008398 cites W2152042241 @default.
W4322008398 cites W2155670634 @default.
W4322008398 cites W2157149092 @default.
W4322008398 cites W2161973008 @default.
W4322008398 cites W2164254602 @default.
W4322008398 cites W2166999834 @default.
W4322008398 cites W2168113371 @default.
W4322008398 cites W2256193935 @default.
W4322008398 cites W2338956084 @default.
W4322008398 cites W2417209869 @default.
W4322008398 cites W2478924953 @default.
W4322008398 cites W2552708329 @default.
W4322008398 cites W2557127383 @default.
W4322008398 cites W2586465157 @default.
W4322008398 cites W2588003345 @default.
W4322008398 cites W2592694401 @default.
W4322008398 cites W2598701004 @default.
W4322008398 cites W2739656689 @default.
W4322008398 cites W2744032814 @default.
W4322008398 cites W2763922522 @default.
W4322008398 cites W2787978013 @default.
W4322008398 cites W2799598759 @default.
W4322008398 cites W2801361050 @default.
W4322008398 cites W2884215398 @default.
W4322008398 cites W2888329609 @default.
W4322008398 cites W2949157422 @default.
W4322008398 cites W2950285143 @default.
W4322008398 cites W2950373858 @default.
W4322008398 cites W2951478696 @default.
W4322008398 cites W2952718368 @default.
W4322008398 cites W2958856141 @default.
W4322008398 cites W2982437619 @default.
W4322008398 cites W2987877352 @default.
W4322008398 cites W3048503067 @default.
W4322008398 cites W3104895181 @default.
W4322008398 cites W3106227399 @default.
W4322008398 cites W3124359799 @default.
W4322008398 cites W3133935491 @default.
W4322008398 cites W3135298369 @default.
W4322008398 cites W3141968000 @default.
W4322008398 cites W3164158775 @default.
W4322008398 cites W3191470031 @default.
W4322008398 cites W4251304755 @default.
W4322008398 cites W4282935730 @default.
W4322008398 cites W4322008398 @default.
W4322008398 doi "https://doi.org/10.1038/s41467-023-36631-9" @default.
W4322008398 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36841810" @default.
W4322008398 hasPublicationYear "2023" @default.