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The species richness-environment relationship for cherries (Prunus subgenus Cerasus) across the Northern Hemisphere
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  • Chen-Long Fu,
  • Chun-Ping Xie,
  • Muhammad Idrees,
  • Xian-Gui Yi,
  • Xian-Rong Wang,
  • Meng LI
Chen-Long Fu
Nanjing Forestry University

Corresponding Author:15955152808@163.com

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Chun-Ping Xie
Qiongtai Normal University
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Muhammad Idrees
Neijiang Normal University
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Xian-Gui Yi
Nanjing Forestry University
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Xian-Rong Wang
Nanjing Forestry University
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Meng LI
Nanjing Forestry University
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Abstract

Understanding large-scale patterns of biodiversity and their drivers remains significant in biogeography. Cherries species (Prunus subgenus Cerasus, Rosaceae) are economically and ecologically important in ecosystems and human agricultural activities. However, the mechanisms underlying patterns of species richness-environment relationship in Cerasus remain poorly understood. We collected and filtered worldwide specimen data to map the species richness of Cerasus at the global scale. The map of Cerasus species richness was created using 21043 reliable recorded specimens. The center of Cerasus diversity was determined using spatial cluster analysis. Stepwise regression analysis was carried out using five groups of 21 environmental variables and an integrated model was included to assess the impact of the overall environment. We calibrated each of the four integrated models and used them to predict the global Cerasus species richness and that of the other continents. Our results revealed that Cerasus species have two centers of diversity (the southwest of China and Honshu Island in Japan) with differing environmental variables influencing the distribution patterns of these two centers. In the southwest of China, hydrothermal conditions are the main driving factor while in Japan, habitat heterogeneity is the main driving factor. The relationship between the abundance of the Cerasus and the various groups of factors generally supported both the productivity and the habitat heterogeneity hypothesis. However, these hypotheses did not fully explain the Cerasus species richness pattern, indicating that other factors such as historical environment, topography, and human activities likely played a role in pattern formation. The high level of habitat heterogeneity and better hydrothermal conditions may have played an important role in the establishment of its globally consistent richness-climate relationship. Our results can provide valuable information for the classification, and conservation of Cerasus natural resources, as well as contribute to furthering our understanding of biogeography at a global scale.