Phylogeography and Population Demography of <i>Parrotia subaequalis</i>, a Hamamelidaceous Tertiary Relict ‘Living Fossil’ Tree Endemic to East Asia Refugia: Implications from Molecular Data and Ecological Niche Modeling

Phylogeography and Population Demography of <i>Parrotia subaequalis</i>, a Hamamelidaceous Tertiary Relict ‘Living Fossil’ Tree Endemic to East Asia Refugia: Implications from Molecular Data and Ecological Niche Modeling

The diverse topography and mild monsoon climate in East Asia are considered to be important drivers for the long-term ecological success of the Tertiary relict ‘living fossil’ plants during the glacial/interglacial cycles. Here we investigated the phylogeographic pattern and demographic history of a...

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Main Authors: Yunyan Zhang, Zhiyuan Li, Qixun Chen, Yahong Wang, Shuang Wang, Guozheng Wang, Pan Li, Hong Liu, Pengfu Li, Chi Xu, Zhongsheng Wang
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Plants
Subjects:
molecular phylogeography
population demography
genetic diversity and differentiation
glacial refugia
<i>Parrotia subaequalis</i>
Hamamelidaceae
Online Access:https://www.mdpi.com/2223-7747/14/12/1754
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Summary:The diverse topography and mild monsoon climate in East Asia are considered to be important drivers for the long-term ecological success of the Tertiary relict ‘living fossil’ plants during the glacial/interglacial cycles. Here we investigated the phylogeographic pattern and demographic history of a hamamelidaceous Tertiary relict ‘living fossil’ tree (<i>Parrotia subaequalis</i>) endemic to the subtropical forests of eastern China, employing molecular data and ecological niche modeling. In the long evolutionary history, <i>P. subaequalis</i> has accumulated a high haplotype diversity. Weak gene flow by seeds, geographical isolation, and heterogeneous habitats have led to a relatively high level of genetic differentiation in this species. The divergence time of two cpDNA lineages of <i>P. subaequalis</i> was dated to the late Miocene of the Tertiary period, and the diversification of haplotypes occurred in the Quaternary period. Paleo-distribution modeling suggested that <i>P. subaequalis</i> followed the pattern of ‘glacial expansion-interglacial compression’. The Dabie Mountain and Yellow Mountain in Anhui Province and the Tianmu Mountain and Simin Mountain in Zhejiang Province were inferred to be multiple glacial refugia of <i>P. subaequalis</i> in East Asia and have been proposed to be protected as ‘Management Units’. Collectively, our study offers insights into the plant evolution and adaptation of <i>P. subaequalis</i> and other Tertiary relict ‘living fossil’ trees endemic to East Asia refugia.
ISSN:2223-7747

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