Comparative evolutionary history of two closely related desert plant, <i>Convolvulus tragacanthoide</i> and <i>Convolvulus gortschakovii</i> (Convolvulaceae) from northwest China

Jia, Shuwen; Xu, Lina; Geng, Xiaoxiao; Zhang, Hongxiang

doi:10.1002/ece3.9355

Ecology and Evolution

2022

DOI: 10.1002/ece3.9355

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Comparative evolutionary history of two closely related desert plant, Convolvulus tragacanthoide and Convolvulus gortschakovii (Convolvulaceae) from northwest China

Shuwen Jia

Lina Xu

Xiaoxiao Geng

et al.

Abstract: Desert ecosystems are one of the most fragile ecosystems on Earth. The study of the effects of paleoclimatic and geological changes on genetic diversity, genetic structure, and species differentiation of desert plants is not only helpful in understanding the strategies of adaptation of plants to arid habitats, but can also provide reference for the protection and restoration of vegetation in desert ecosystem. Northwest China is an important part of arid regions in the northern hemisphere. Convolvulus tragacant… Show more

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Integrated genomic analysis reveals the fine‐scale population genetic structure and variety differentiation of Taihangia rupestris, a rare cliff plant

Liu,

Xing,

Zhang

et al. 2024

J of Systematics Evolution

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Taihangia rupestris Yu & Li, an early spring flowering plant of the Rosaceae family, is classified as a second‐level protected species in China. Endemic to the cliff faces of the Taihang Mountains in central China, this rare species requires a comprehensive understanding and conservation approach. In this study, we analyzed population‐level genetic variations in both chloroplast and nuclear genomes. Taihangia rupestris var. ciliate exhibited higher genetic diversity than T. rupestris var. rupestris in both genome types. All individuals of T. rupestris var. rupestris formed a single cluster, while individuals of T. rupestris var. ciliate were grouped into three distinct clusters. Approximately 29.82 Ma, T. rupestris diverged from its closely related species. Taihangia rupestris var. ciliate appeared first, followed by the differentiation of T. rupestris var. rupestris, which adapted to the climate of the southern Taihang Mountains, around 3.55 Ma. Additionally, our study identified several chloroplast genes potentially involved in variety adaptive differentiation. These findings enhance our understanding of environmental adaptation and differentiation in the two T. rupestris varieties, providing valuable genetic insights for the conservation and utilization of this species.

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Integrated genomic analysis reveals the fine‐scale population genetic structure and variety differentiation of Taihangia rupestris, a rare cliff plant

Liu,

Xing,

Zhang

et al. 2024

J of Systematics Evolution

View full text Add to dashboard Cite

show abstract

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Comparative evolutionary history of two closely related desert plant, Convolvulus tragacanthoide and Convolvulus gortschakovii (Convolvulaceae) from northwest China

Cited by 1 publication

References 62 publications

Integrated genomic analysis reveals the fine‐scale population genetic structure and variety differentiation of Taihangia rupestris, a rare cliff plant

Integrated genomic analysis reveals the fine‐scale population genetic structure and variety differentiation of Taihangia rupestris, a rare cliff plant

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