Title:
Genome sequences and population genomics reveal climatic adaptation and genomic divergence between two closely related sweetgum species
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Author:
Wuqin Xu, Chaoqian Ren, Xinyi Zhang, Hans Peter Comes, Xinhong Liu, Yingang Li, Christopher J. Kettle, Riina Jalonen, Hannes Gaisberger, Yazhen Ma*, Yingxiong Qiu*
Pubyear:
2024
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Plant Journal
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Abstract:
Understanding the genetic basis of population divergence and adaptation is an important goal in population genetics and evolutionary biology. However, the relative roles of demographic history, gene flow, and/or selective regime in driving genomic divergence, climatic adaptation, and speciation in non-model tree species are not yet fully understood. To address this issue, we generated whole-genome resequencing data of Liquidambar formosana and L. acalycina, which are broadly sympatric but altitudinally segregated in the Tertiary relict forests of subtropical China. We integrated genomic and environmental data to investigate the demographic history, genomic divergence, and climatic adaptation of these two sister species. We inferred a scenario of allopatric species divergence during the late Miocene, followed by secondary contact during the Holocene. We identified multiple genomic islands of elevated divergence that mainly evolved through divergence hitchhiking and recombination rate variation, likely fostered by long-term refugial isolation and recent differential introgression in low-recombination genomic regions. We also found some candidate genes with divergent selection signatures potentially involved in climatic adaptation and reproductive isolation. Our results contribute to a better understanding of how late Tertiary/Quaternary climatic change influenced speciation, genomic divergence, climatic adaptation, and introgressive hybridization in East Asia's Tertiary relict flora. In addition, they should facilitate future evolutionary, conservation genomics, and molecular breeding studies in Liquidambar, a genus of important medicinal and ornamental values.We assembled a chromosome-scale genome of Liquidambar formosana and resequenced 160 individuals of L. formosana and its high-altitude sister species L. acalycina. Benefiting from advanced analytical methods and robust evidence, we found that multiple genomic islands mainly evolved as a result of divergence hitchhiking and recombination rate variation, as likely fostered by long-term refugial isolation and recent differential introgression in low-recombination genomic regions; and identified some candidate genes associated with climatic adaptation and reproductive isolation.
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