High genetic load and recent anthropogenic bottleneck in the endangered Cupressus austrotibetica (Cupressaceae), Asia's tallest tree

Heng Yang; Jialiang Li; Mi Yoon Chung; Myong Gi Chung; Zhitong Han; Dayu Wu; Jingge Kuang; Xinran Zhang; Xi Zhou; Linning Bai; Jianquan Liu; Jian Luo; Kangshan Mao

doi:10.1111/jse.70030

Journal of Systematics and Evolution ›› 2026, Vol. 64 ›› Issue (1) :125 -137. DOI: 10.1111/jse.70030

Research Article

High genetic load and recent anthropogenic bottleneck in the endangered Cupressus austrotibetica (Cupressaceae), Asia's tallest tree

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¹. Key Laboratory of Bio-Resource and Eco-Environment of Ministry of Education, Chengdu Botanical Garden-Sichuan University Joint Laboratory for Ex Situ Conservation and Resource Utilization of Mountain Plants, College of Life Sciences, State Key Laboratory of Hydraulics and Mountain River Engineering, Sichuan University, Chengdu, 610064 China

². Chengdu Botanical Garden, Chengdu, 610503 China

³. Department of Biological Sciences, Chungnam National University, Daejeon, 34134 Republic of Korea

⁴. Division of Life Science, Gyeongsang National University, Jinju, 52828 Republic of Korea

⁵. State Key Laboratory of Herbage Innovation and Grassland Agro-Ecosystem, College of Ecology, Lanzhou University, Lanzhou, 730000 China

⁶. Xizang Key Laboratory of Forest Ecology in Plateau Area of Ministry of Education, Research Institute of Xizang Plateau Ecology, National Key Station of Field Scientific Observation & Experiment of Alpine Forest Ecology System in Nyingchi, Xizang Agriculture & Animal Husbandry University, Nyingchi, 860000 China

⁷. School of Ecology and Environment, Xizang University, Lhasa, 850000 China

liujq@nwipb.ac.cn

luojian@xza.edu.cn

maokangshan@163.com

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Abstract

Understanding the genetic diversity and genetic load of endangered species is essential for developing effective conservation strategies, particularly in ecologically sensitive regions such as the Himalayas. Cupressus austrotibetica, a rare conifer and the tallest recorded tree in Asia, reaching up to 102.3 m, faces substantial anthropogenic and environmental threats. To evaluate its genetic status, we sequenced transcriptomes of 54 individuals sampled across its restricted range and compared them with 96 individuals of C. gigantea, a closely related endangered species with broader distribution at higher elevations. Our analysis reveals that C. austrotibetica exhibits higher genetic diversity (π = 0.0091) compared to C. gigantea (π = 0.0042). Demographic analyses identified three historical bottleneck events in C. austrotibetica and two in C. gigantea, with two of these events coinciding with Quaternary climatic oscillations. Despite its relatively high genetic diversity, C. austrotibetica has a smaller effective population size based on Stairway Plot 2 (N_e ≈ 7200) than C. gigantea (N_e ≈ 17 600). Furthermore, C. austrotibetica harbors a higher proportion of severe deleterious mutations, while C. gigantea retains more moderate deleterious variants. These findings indicate that a recent anthropogenic bottleneck event has likely driven the reduced population size and increased genetic load in C. austrotibetica, emphasizing the urgent need for conservation priorities for this imperiled species.

Keywords

conservation / endangered species / genetic diversity / genetic load / small population

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Heng Yang, Jialiang Li, Mi Yoon Chung, Myong Gi Chung, Zhitong Han, Dayu Wu, Jingge Kuang, Xinran Zhang, Xi Zhou, Linning Bai, Jianquan Liu, Jian Luo, Kangshan Mao. High genetic load and recent anthropogenic bottleneck in the endangered Cupressus austrotibetica (Cupressaceae), Asia's tallest tree. Journal of Systematics and Evolution, 2026, 64(1): 125-137 DOI:10.1111/jse.70030