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Main Authors: Tao, Wei, Kang, Ju, Yang, Wenxiu, Niu, Yiyuan, Wang, Xin
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.10520
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author Tao, Wei
Kang, Ju
Yang, Wenxiu
Niu, Yiyuan
Wang, Xin
author_facet Tao, Wei
Kang, Ju
Yang, Wenxiu
Niu, Yiyuan
Wang, Xin
contents Explaining how competing species coexist remains a central question in ecology. The well-known competitive exclusion principle (CEP) states that two species competing for the same resource cannot stably coexist, and more generally, that the number of consumer species is bounded by the number of resource species at steady state. However, the remarkable species diversity observed in natural ecosystems, exemplified by the paradox of the plankton, challenges this principle. Here, we show that interspecific social information use among predators provides a mechanism that fundamentally relaxes the constraints of competitive exclusion. A model of predation dynamics that incorporates interspecific information use naturally explains coexistence beyond the limits imposed by CEP. Our model quantitatively reproduces two classical experiments that contradicts the CEP and captures coexistence patterns documented in natural ecosystems, offering a general mechanism for the maintenance of biodiversity in ecological communities.
format Preprint
id arxiv_https___arxiv_org_abs_2511_10520
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Interspecific information use facilitates species coexistence in ecosystems
Tao, Wei
Kang, Ju
Yang, Wenxiu
Niu, Yiyuan
Wang, Xin
Biological Physics
Explaining how competing species coexist remains a central question in ecology. The well-known competitive exclusion principle (CEP) states that two species competing for the same resource cannot stably coexist, and more generally, that the number of consumer species is bounded by the number of resource species at steady state. However, the remarkable species diversity observed in natural ecosystems, exemplified by the paradox of the plankton, challenges this principle. Here, we show that interspecific social information use among predators provides a mechanism that fundamentally relaxes the constraints of competitive exclusion. A model of predation dynamics that incorporates interspecific information use naturally explains coexistence beyond the limits imposed by CEP. Our model quantitatively reproduces two classical experiments that contradicts the CEP and captures coexistence patterns documented in natural ecosystems, offering a general mechanism for the maintenance of biodiversity in ecological communities.
title Interspecific information use facilitates species coexistence in ecosystems
topic Biological Physics
url https://arxiv.org/abs/2511.10520