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Miocene diversification of a golden‐thread nanmu tree species (<i>Phoebe zhennan</i>, Lauraceae) around the Sichuan Basin shaped by the East Asian monsoon

Jianhua XiaoPlant Phylogenetics and Conservation Group Centre for Integrative Conservation Xishuangbanna Tropical Botanical Garden Chinese Academy of Sciences Kunming ChinaXin DingDepartment of Landscape Architecture Guangdong Eco‐engineering Polytechnic Guangzhou ChinaLang LiCenter of Conservation Biology Core Botanical Gardens Chinese Academy of Sciences Mengla ChinaHui MaPlant Phylogenetics and Conservation Group Centre for Integrative Conservation Xishuangbanna Tropical Botanical Garden Chinese Academy of Sciences Kunming ChinaXiuqin CiCenter of Conservation Biology Core Botanical Gardens Chinese Academy of Sciences Mengla ChinaMarlien van der MerweResearch Centre for Ecological Resilience Australian Institute of Botanical Science The Royal Botanic Garden Sydney Sydney NSW AustraliaJohn G. ConranAustralian Centre for Evolutionary Biology and Biodiversity (ACEBB) Sprigg Geobiology Centre (SGC) School of Biological Sciences The University of Adelaide Adelaide SA AustraliaJie LiCenter of Conservation Biology Core Botanical Gardens Chinese Academy of Sciences Mengla China
2020en
ABI

Abstract

Abstract Understanding the role of climate changes and geography as drivers of population divergence and speciation is a long‐standing goal of evolutionary biology and can inform conservation. In this study, we used restriction site‐associated DNA sequencing (RAD‐seq) to evaluate genetic diversity, population structure, and infer demographic history of the endangered tree, Phoebe zhennan which is distributed around the Sichuan Basin. Genomic patterns revealed two distinct clusters, each largely confined to the West and East. Despite sympatry of the two genomic clusters at some sites, individuals show little or no evidence of genomic introgression. Demographic modeling supported an initial divergence time between the West and East lineages at ~15.08 Ma with further diversification within the West lineage at ~7.12 Ma. These times largely coincide with the two independent intensifications of the East Asian monsoon that were initiated during the middle (Langhian) and late Miocene (Messinian), respectively. These results suggest that the Miocene intensification phases of the East Asian monsoon played a pivotal role in shaping the current landscape‐level patterns of genetic diversity within P. zhennan , as has been found for the interspecific divergence of other subtropical Chinese plants. Based on isolation‐by‐distance and species distribution modeling, we hypothesize that P. zhennan followed a ring diversification which was facilitated by the Sichuan Basin acting as barrier to gene flow. In situ and ex situ conservation management plans should consider the results obtained in this study to help secure the future of this beautiful and culturally significant endangered tree.

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