A new coarse-graining framework derives effective metacommunity models from microscopic individual dynamics on networks, proving that heterogeneous habitats support stable coexistence only above a critical heterogeneity threshold.
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2 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
Asymmetric dispersal in networks sustains predator populations via transient chaos in identical environments, with small-world networks needing only a few long-range links to prevent extinction.
citing papers explorer
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Habitat heterogeneity and dispersal network structure as drivers of metacommunity dynamics
A new coarse-graining framework derives effective metacommunity models from microscopic individual dynamics on networks, proving that heterogeneous habitats support stable coexistence only above a critical heterogeneity threshold.
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Dispersal-induced survival of predators in metacommunities due to transient chaos
Asymmetric dispersal in networks sustains predator populations via transient chaos in identical environments, with small-world networks needing only a few long-range links to prevent extinction.