Projected Expansion and Northwestern Shift of Wikstroemia indica Suitable Habitats in China Under Multiple Climate Change Scenarios: An Optimized MaxEnt Approach
Yangzhou Xiang, Suhang Li, Ying Liu, Qiong Yang, Jiaxin Yao, Huilin Dong, Bin Yao, Yuan Li

TL;DR
This study predicts that climate change will expand and shift the suitable habitats of the medicinal plant Wikstroemia indica in China, using an optimized MaxEnt model.
Contribution
The study is the first to apply an optimized MaxEnt model to predict the distribution of Wikstroemia indica under climate change scenarios.
Findings
Annual mean temperature and diurnal temperature range are the main factors influencing the distribution of Wikstroemia indica.
Suitable habitats are projected to expand by up to 49.6% under future climate scenarios.
The distribution centroid of Wikstroemia indica is expected to shift northwestward by the 2050s.
Abstract
This study assesses the impact of climate change on the potential distribution of the traditional Chinese medicinal plant Wikstroemia indica, employing an optimized maximum entropy (MaxEnt) model for the first time for this species under multiple climate scenarios. Our analysis, based on 902 occurrence records and key environmental variables, provides clear evidence that climate change will significantly alter its distribution pattern. The results demonstrated that annual mean temperature (69.4% contribution) and mean diurnal temperature range (12.6% contribution) were the principal climatic factors affecting the distribution of W. indica . Under current climatic conditions, the total potential suitable habitat area for W. indica in China was calculated to be 153.31 × 104 km2, accounting for 15.97% of China's land area. Projections indicate significant habitat expansion under future…
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Taxonomy
TopicsSpecies Distribution and Climate Change · Ecology and Vegetation Dynamics Studies · Genomics and Phylogenetic Studies
