Evolutionary Triggers of Plant Speciation in the Himalaya-Tibet-Hengduan Biodiversity Epicentre

IF 3.4 2区环境科学与生态学 Q2 ECOLOGY

Journal of Biogeography Pub Date : 2025-04-26 DOI:10.1111/jbi.15152

Maharaj K. Pandit, Kumar Manish, Sandeep Sen, Kamaljit S. Bawa, Andrew H. Knoll, A. Alexander G. Webb, Peter D. Clift, Fabien L. Condamine, Carina Hoorn

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引用次数: 0

Abstract

Background

Past studies linking geologic and climatic controls on speciation in the Himalaya, Tibet and Hengduan (HTH) regions do not fully capture the mechanisms underlying patterns of plant diversity and endemism in hyperdiverse mountain ecosystems.

Aims

This study sheds new light on the orogenic and climatic drivers of plant endemism and diversity in the HTH region and unravels the mechanisms behind plant speciation and assembly.

Materials & Methods

We re-examine the past findings on geo-climatic controls on speciation in the HTH. We also analyse new datasets on the elevational patterns of endemic species richness in the HTH regions and correlate these with the hypsometric profiles based on digital elevation models of these regions.

Results

We discover that the phased evolution of HTH mountain-building and climate oscillations, and species radiations were not exactly synchronous, but were interspersed with periods of inactivity. We find an inverse yet overlapping relationship between elevation-area troughs (EATs) of hypsometric profiles and peaks of endemic plant richness in the HTH, indicating that most endemic species occupy the higher elevational belts with the least geographic areas. These elevational belts comprise geographically and biologically isolated habitats.

Discussion and Conclusions

We infer that orogeny, monsoon and glaciations have shaped the highly dissected HTH landscapes, characterised by high-relief topography, leading to population isolation, speciation and endemism, albeit with temporal lags. Glacial–interglacial cycles have further promoted isolation, co-habitation, hybridisation and polyploidy among plant populations, generating and accelerating endemic radiations. Our results provide crucial evidence linking mountain-building, climatic events and landform development with plant species richness and endemism in the HTH regions and potentially in other mountain ecosystems.

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喜马拉雅-西藏-横断生物多样性震中区植物物种形成的进化触发因素

过去的研究将喜马拉雅、西藏和横断（HTH）地区的地质和气候控制与物种形成联系起来，但没有完全捕捉到高度多样化山地生态系统中植物多样性和特有模式的机制。目的揭示高原地区植物特有和多样性的造山和气候驱动因素，揭示植物物种形成和聚集的机制。材料,方法对过去关于地球气候控制HTH物种形成的研究结果进行重新分析。我们还分析了HTH地区特有物种丰富度的新数据集，并将其与基于这些地区数字高程模型的低空剖面相关联。结果HTH造山活动与气候振荡、物种辐射的阶段性演化并非完全同步，而是穿插在非活跃期。研究发现，低海拔剖面的高程谷（EATs）与高原特有植物丰富度峰呈反比重叠关系，表明高原特有物种大多分布在地理面积最小的高海拔地带。这些海拔带包括地理上和生物上孤立的栖息地。我们推断，造山运动、季风和冰川作用塑造了高度解剖的HTH景观，其特征是高起伏地形，导致种群隔离、物种形成和地方性，尽管存在时间滞后。冰期-间冰期旋回进一步促进了植物种群间的隔离、共生、杂交和多倍体，产生并加速了地方性辐射。我们的研究结果为高山地区和其他山地生态系统的植物物种丰富度和特有性与造山、气候事件和地貌发展之间的联系提供了重要证据。

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来源期刊

Journal of Biogeography 环境科学-生态学

CiteScore

7.70

自引率

5.10%

发文量

203

审稿时长

2.2 months

期刊介绍： Papers dealing with all aspects of spatial, ecological and historical biogeography are considered for publication in Journal of Biogeography. The mission of the journal is to contribute to the growth and societal relevance of the discipline of biogeography through its role in the dissemination of biogeographical research.