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Insights into phytoplankton community diversity from geometric sequence of relative genus abundance
  • +9
  • Sisi Ye,
  • Ling Wen,
  • Li Gao,
  • Qilin Wang,
  • Junyi Zhang,
  • Haihan Zhang,
  • Songqi Yang,
  • En Hu,
  • Jianming Deng,
  • Man Xiao,
  • Baozhu Pan,
  • Ming Li
Sisi Ye
Northwest A&F University

Corresponding Author:sisiye@nwafu.edu.cn

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Ling Wen
Northwest A&F University
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Li Gao
Victoria University
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Qilin Wang
University of Technology Sydney
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Junyi Zhang
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Haihan Zhang
Xi'an University of Architecture and Technology
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Songqi Yang
Hexi University
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Jianming Deng
Nanjing Institute of Geography and Limnology Chinese Academy of Sciences
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Man Xiao
Nanjing Institute of Geography and Limnology Chinese Academy of Sciences
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Baozhu Pan
Xi'an University of Technology
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Ming Li
Northwest A&F University
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Abstract

The diversity of phytoplankton is fundamental to the health of aquatic ecosystems. Those commonly used diversity indices (e.g., Shannon-weiner diversity index, etc.) were assumed that a uniform distribution was the optimal status of phytoplankton taxa in aquatic system during the assessment of these indices. We discovered that the relative abundance of phytoplankton within an aquatic ecosystem can be fitted with exponential distribution, suggesting that the exponential distribution was the intrinsic and inherent distribution of phytoplankton communities. Through mathematical derivation, taxa capacity (N), competition coefficient (k), critical relative abundance of extinction (a), degree of monopoly, and the residual sum of squares of the phytoplankton community can be obtained to provide a greater insight into phytoplankton diversity. Our results highlight a new methodology based on the above indices has been developed to provide a better insight into the phytoplankton community diversity. It will also help to evaluate the aquatic system ecological health.