Danhui Qi scite author profile

Danhui Qi

4Publications

87Citation Statements Received

95Citation Statements Given

How they've been cited

152

How they cite others

Affiliations

Shandong University, Southwest Forestry University, Xishuangbanna Tropical Botanical Garden

Publications

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Variation in leaf traits at different altitudes reflects the adaptive strategy of plants to environmental changes

Liu

Zheng

2020

Ecology and Evolution

106

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Leaves are directly involved in photosynthetic carbon fixation, respiration, and transpiration, and are the most sensitive parts to climatic changes (Carlson, Adams, & Holsinger, 2016; Chen, Niklas, Chen, & Guo, 2012). Leaf traits, which vary across different climatic conditions, play key roles in plant functions under its environment and can provide insight into the adaptive evolutionary changes made to suit

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Morphological and Genetic Variation along a North-to-South Transect in Stipa purpurea, a Dominant Grass on the Qinghai-Tibetan Plateau: Implications for Response to Climate Change

et al. 2016

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Estimating the potential of species to cope with rapid environmental climatic modifications is of vital importance for determining their future viability and conservation. The variation between existing populations along a climatic gradient may predict how a species will respond to future climate change. Stipa purpurea is a dominant grass species in the alpine steppe and meadow of the Qinghai-Tibetan Plateau (QTP). Ecological niche modelling was applied to S. purpurea, and its distribution was found to be most strongly correlated with the annual precipitation and the mean temperature of the warmest quarter. We established a north-to-south transect over 2000 km long on the QTP reflecting the gradients of temperature and precipitation, and then we estimated the morphological by sampling fruited tussocks and genetic divergence by using 11 microsatellite markers between 20 populations along the transect. Reproductive traits (the number of seeds and reproductive shoots), the reproductive-vegetative growth ratio and the length of roots in the S. purpurea populations varied significantly with climate variables. S. purpurea has high genetic diversity (He = 0.585), a large effective population size (Ne >1,000), and a considerable level of gene flow between populations. The S. purpurea populations have a mosaic genetic structure: some distant populations (over 1000 km apart) clustered genetically, whereas closer populations (< 100 km apart) had diverged significantly, suggesting local adaptation. Asymmetrical long-distance inter-population gene flow occurs along the sampling transect and might be mediated by seed dispersal via migratory herbivores, such as the chiru (Pantholops hodgsonii). These findings suggest that population performance variation and gene flow both facilitate the response of S. purpurea to climate change.

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Plant biodiversity assessment of the ancient tea garden ecosystem in Jingmai of Lancang, Yunnan

Qi¹,

Guo²,

Cui³

et al. 2005

Biodiversity Science

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Assessment of plant species diversity of ancient tea garden communities in Yunnan, Southwest of China

Guo

Cai-Yu

2012

Agroforest Syst

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Danhui Qi

Variation in leaf traits at different altitudes reflects the adaptive strategy of plants to environmental changes

Morphological and Genetic Variation along a North-to-South Transect in Stipa purpurea, a Dominant Grass on the Qinghai-Tibetan Plateau: Implications for Response to Climate Change

Plant biodiversity assessment of the ancient tea garden ecosystem in Jingmai of Lancang, Yunnan

Assessment of plant species diversity of ancient tea garden communities in Yunnan, Southwest of China

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