Local enrichment and its nonlocal consequences for victim-exploiter metapopulations

Gur Yaari; Sorin Solomon; Marcelo Schiffer; Nadav M. Shnerb

doi:10.1016/j.physd.2008.04.004

Local enrichment and its nonlocal consequences for victim-exploiter metapopulations

Gur Yaari
, Sorin Solomon
, Marcelo Schiffer
, Nadav M. Shnerb^*

^*Corresponding author for this work

Racah Institute of Physics

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

The stabilizing effects of local enrichment are revisited. Diffusively coupled host-parasitoid and predator-prey metapopulations are shown to admit a stable fixed point, limit cycle or stable torus with a rich bifurcation structure. A linear toy model that yields many of the basic qualitative features of this system is presented. The further nonlinear complications are analyzed in the framework of the marginally stable Lotka-Volterra model, and the continuous time analog of the unstable, host-parasitoid Nicholson-Bailey model. The dependence of the results on the migration rate and level of spatial variations is examined, and the possibility of "nonlocal" effect of enrichment, where local enrichment induces stable oscillations at a distance, is studied. A simple method for basic estimation of the relative importance of this effect in experimental systems is presented and exemplified.

Original language	English
Pages (from-to)	2553-2562
Number of pages	10
Journal	Physica D: Nonlinear Phenomena
Volume	237
Issue number	20
DOIs	https://doi.org/10.1016/j.physd.2008.04.004
State	Published - 15 Oct 2008

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 15 Life on Land

Keywords

Bifurcation
Desynchronization
Enrichment
Host-parasite
Predator-prey dynamics
Spatial heterogeneity

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10.1016/j.physd.2008.04.004

Cite this

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title = "Local enrichment and its nonlocal consequences for victim-exploiter metapopulations",

abstract = "The stabilizing effects of local enrichment are revisited. Diffusively coupled host-parasitoid and predator-prey metapopulations are shown to admit a stable fixed point, limit cycle or stable torus with a rich bifurcation structure. A linear toy model that yields many of the basic qualitative features of this system is presented. The further nonlinear complications are analyzed in the framework of the marginally stable Lotka-Volterra model, and the continuous time analog of the unstable, host-parasitoid Nicholson-Bailey model. The dependence of the results on the migration rate and level of spatial variations is examined, and the possibility of {"}nonlocal{"} effect of enrichment, where local enrichment induces stable oscillations at a distance, is studied. A simple method for basic estimation of the relative importance of this effect in experimental systems is presented and exemplified.",

keywords = "Bifurcation, Desynchronization, Enrichment, Host-parasite, Predator-prey dynamics, Spatial heterogeneity",

author = "Gur Yaari and Sorin Solomon and Marcelo Schiffer and Shnerb, \{Nadav M.\}",

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T1 - Local enrichment and its nonlocal consequences for victim-exploiter metapopulations

AU - Yaari, Gur

AU - Solomon, Sorin

AU - Schiffer, Marcelo

AU - Shnerb, Nadav M.

PY - 2008/10/15

Y1 - 2008/10/15

N2 - The stabilizing effects of local enrichment are revisited. Diffusively coupled host-parasitoid and predator-prey metapopulations are shown to admit a stable fixed point, limit cycle or stable torus with a rich bifurcation structure. A linear toy model that yields many of the basic qualitative features of this system is presented. The further nonlinear complications are analyzed in the framework of the marginally stable Lotka-Volterra model, and the continuous time analog of the unstable, host-parasitoid Nicholson-Bailey model. The dependence of the results on the migration rate and level of spatial variations is examined, and the possibility of "nonlocal" effect of enrichment, where local enrichment induces stable oscillations at a distance, is studied. A simple method for basic estimation of the relative importance of this effect in experimental systems is presented and exemplified.

AB - The stabilizing effects of local enrichment are revisited. Diffusively coupled host-parasitoid and predator-prey metapopulations are shown to admit a stable fixed point, limit cycle or stable torus with a rich bifurcation structure. A linear toy model that yields many of the basic qualitative features of this system is presented. The further nonlinear complications are analyzed in the framework of the marginally stable Lotka-Volterra model, and the continuous time analog of the unstable, host-parasitoid Nicholson-Bailey model. The dependence of the results on the migration rate and level of spatial variations is examined, and the possibility of "nonlocal" effect of enrichment, where local enrichment induces stable oscillations at a distance, is studied. A simple method for basic estimation of the relative importance of this effect in experimental systems is presented and exemplified.

KW - Bifurcation

KW - Desynchronization

KW - Enrichment

KW - Host-parasite

KW - Predator-prey dynamics

KW - Spatial heterogeneity

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Local enrichment and its nonlocal consequences for victim-exploiter metapopulations

Abstract

UN SDGs

Keywords

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