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Autores principales: Ghosh, Samali, Ray, Arnob, Medeiros, Everton S., Ghosh, Dibakar, Dana, Syamal Kumar, Kapitaniak, Tomasz, Hens, Chittaranjan, Feudel, Ulrike
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2605.19456
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author Ghosh, Samali
Ray, Arnob
Medeiros, Everton S.
Ghosh, Dibakar
Dana, Syamal Kumar
Kapitaniak, Tomasz
Hens, Chittaranjan
Feudel, Ulrike
author_facet Ghosh, Samali
Ray, Arnob
Medeiros, Everton S.
Ghosh, Dibakar
Dana, Syamal Kumar
Kapitaniak, Tomasz
Hens, Chittaranjan
Feudel, Ulrike
contents Dispersal networks critically shape the fate of ecological communities, yet the mechanisms linking connectivity and persistence remain poorly understood. We show that an interplay between asymmetric dispersal and asynchronous dynamics across patches in a dispersal network can prevent predator extinction across broad dispersal ranges, even in identical environments in which synchrony usually drives ecosystems to collapse. Unlike classical rescue effects based on environmental heterogeneity or equilibrium states, this mechanism emerges from non-equilibrium dynamics, specifically from transient chaotic dynamics. Dispersal coupling perturbs local trajectories in patches facing extinction and reinforce chaotic motion, thereby sustaining chaotic oscillations indefinitely. Strikingly, only minimal connectivity is required: small-world networks with a few long-range links suffice to rescue predator populations. These findings reveal a counterintuitive principle that limited, well-placed connectivity can harness chaos to maintain biodiversity in fragmented landscapes.
format Preprint
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institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Dispersal-induced survival of predators in metacommunities due to transient chaos
Ghosh, Samali
Ray, Arnob
Medeiros, Everton S.
Ghosh, Dibakar
Dana, Syamal Kumar
Kapitaniak, Tomasz
Hens, Chittaranjan
Feudel, Ulrike
Chaotic Dynamics
Dispersal networks critically shape the fate of ecological communities, yet the mechanisms linking connectivity and persistence remain poorly understood. We show that an interplay between asymmetric dispersal and asynchronous dynamics across patches in a dispersal network can prevent predator extinction across broad dispersal ranges, even in identical environments in which synchrony usually drives ecosystems to collapse. Unlike classical rescue effects based on environmental heterogeneity or equilibrium states, this mechanism emerges from non-equilibrium dynamics, specifically from transient chaotic dynamics. Dispersal coupling perturbs local trajectories in patches facing extinction and reinforce chaotic motion, thereby sustaining chaotic oscillations indefinitely. Strikingly, only minimal connectivity is required: small-world networks with a few long-range links suffice to rescue predator populations. These findings reveal a counterintuitive principle that limited, well-placed connectivity can harness chaos to maintain biodiversity in fragmented landscapes.
title Dispersal-induced survival of predators in metacommunities due to transient chaos
topic Chaotic Dynamics
url https://arxiv.org/abs/2605.19456