高移民率对于在微生物群落中建立移民驱动的多样性至关重要。

Cell systems Pub Date : 2024-03-20 Epub Date: 2024-02-23 DOI:10.1016/j.cels.2024.02.001
Xiaoli Chen, Miaoxiao Wang, Laipeng Luo, Liyun An, Xiaonan Liu, Yuan Fang, Ting Huang, Yong Nie, Xiao-Lei Wu
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引用次数: 0

摘要

揭示支配生态群落多样性的机制是生态学的一个核心目标。尽管微生物扩散是一个重要的生态过程,但人们对扩散对微生物多样性的影响却知之甚少。在这里,我们试图通过将广义洛特卡-伏特拉模型与实验研究相结合来填补这一空白。我们的模型显示,当移民率超过一个确定的阈值(我们将其定义为 "中性")时,迁移会增加群落的多样性。我们还发现,在高移民率的情况下,移民会削弱快速生长物种的相对丰度,从而增强质量效应并增加多样性。我们利用从土壤中分离出来的 20 种细菌菌株的共培养实验证实了这一发现。我们的模型进一步表明,随着物种池规模、生长速度和物种间相互作用的增加,"中性"(Ineutral)程度会降低。我们的工作加深了人们对扩散对自然群落多样性影响的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High immigration rates critical for establishing emigration-driven diversity in microbial communities.

Unraveling the mechanisms governing the diversity of ecological communities is a central goal in ecology. Although microbial dispersal constitutes an important ecological process, the effect of dispersal on microbial diversity is poorly understood. Here, we sought to fill this gap by combining a generalized Lotka-Volterra model with experimental investigations. Our model showed that emigration increases the diversity of the community when the immigration rate crosses a defined threshold, which we identified as Ineutral. We also found that at high immigration rates, emigration weakens the relative abundance of fast-growing species and thus enhances the mass effect and increases the diversity. We experimentally confirmed this finding using co-cultures of 20 bacterial strains isolated from the soil. Our model further showed that Ineutral decreases with the increase of species pool size, growth rate, and interspecies interaction. Our work deepens the understanding of the effects of dispersal on the diversity of natural communities.

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