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What determines plant species diversity along the Silk Road in the East?
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  • Yanlei Liu,
  • Chao Xu,
  • Wenpan Dong,
  • Xun Chen,
  • Wen Zhang,
  • Yuzhe Sun,
  • Guohong Wang,
  • Yufei Wang,
  • Shi-Liang Zhou
Yanlei Liu
Institute of Botany Chinese Academy of Sciences

Corresponding Author:liuyanlei@ibcas.ac.cn

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Chao Xu
Institute of Botany, Chinese Academy of Sciences
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Wenpan Dong
Beijing Forestry University
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Xun Chen
Hulunbuir University
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Wen Zhang
Institute of Botany Chinese Academy of Sciences
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Yuzhe Sun
Institute of Botany Chinese Academy of Sciences
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Guohong Wang
Institute of Botany Chinese Academy of Sciences
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Yufei Wang
Institute of Botany Chinese Academy of Sciences
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Shi-Liang Zhou
Institute of Botany Chinese Academy of Sciences
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Abstract

Desert areas occupy approximately 25% of total land area and are characterized by scarce precipitation, poor soil conditions, and a harsh ecological environment. Desertification may result in the loss of unique biological resources. Therefore, exploring the biodiversity of deserts and the causal factors of desertification is necessary to develop future solutions to global desertification. The desert area in northwest China is an important part of the arid zone of central Asia as it was traveled during the ancient Silk Road and witnessed the rise and fall of many civilizations, making it an ideal location for desertification research. This study utilized environmental DNA in the surface soil along the eastern part of the Silk Road and DNA metabarcoding technology. Bioinformatic analysis identified 782 plant species belonging to 505 genera and 133 families, and plant species diversity gradually decreased from east to west along the Silk Road. Temperature, altitude, and longitude were the main factors affecting plant species diversity in the area, while the impact of precipitation was relatively small. Correlation analysis between species diversity, population density, and major human settlements revealed that human activity significantly affected plant species diversity. Our study successfully used environmental DNA and metabarcoding technology to reveal the plant species diversity and its influencing factors for a large-scale desert area, which will provide a fundamental and theoretical basis for desert management and biodiversity protection.