Journal of Systematics and Evolution

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  • 收稿日期:2021-08-03 接受日期:2021-11-07

Linked selection, ancient polymorphism, and ecological adaptation shape the genomic landscape of divergence in Quercus dentata

Biao‐Feng Zhou1,2, Yong Shi1, Xue‐Yan Chen1, Shuai Yuan1, Yi‐Ye Liang1, and Baosheng Wang1,3,4*   

  1. 1 Key Laboratory of Plant Resources Conservation and Sustainable Utilization, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou 510650, China
    2 University of the Chinese Academy of Sciences, Beijing 10094, China
    3 Center of Conservation Biology, Core Botanical Gardens, Chinese Academy of Sciences, Guangzhou 510650, China
    4 Guangdong Provincial Key Laboratory of Applied Botany, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou 510650, China
  • Received:2021-08-03 Accepted:2021-11-07

Abstract: Multiple evolutionary forces contribute to heterogeneous genomic landscapes; however, disentangling their relative contributions is challenging. We sampled nine populations across the distribution of Quercus dentata, a dominant forest tree in East Asia, and used whole-genome sequencing data to investigate mechanisms underlying divergence. We identified two genetic groups (north and south) that diverged ~1.84 million years ago, consistent with the uplift of the Qinling Mountains during the Pleistocene. The north group experienced a bottleneck during the middle–late Pleistocene and expanded from multiple refugia. The south group experienced a more severe bottleneck and showed high population differentiation, probably due to long-term isolation and habitat fragmentation. We detected genomic islands with elevated relative differentiation (FST) scattered across the genome. Among these, 65.9% showed reduced absolute divergence (dXY) consistent with linked selection, while the remaining (34.1%) showed elevated dXY suggestive of divergent sorting of ancient polymorphisms. The recombination rate in genomic islands was lower than background, suggesting the importance of genome structure in shaping the genomic landscape. We detected 108 single nucleotide polymorphisms significantly associated with environmental factors, 12 of which clustered in a region of ~500 kb. This region showed multiple signals of positive selection in the north group, including the enrichment of XP-extended haplotype homozygosity scores, an elevated population branch statistic, and an excess of high-frequency derived alleles. In addition, we found that linkage disequilibrium was low and derived haplotypes declined rapidly in this region, indicating selection on standing variation. Our results clarify the evolutionary processes driving genomic divergence in Q. dentata.

Key words: ancestral polymorphism, demographic history, genomic divergence, local adaptation, recombination rate, selective sweep, standing genetic variation