INSTITUTIONAL DIGITAL REPOSITORY

Mean-field dispersion-induced spatial synchrony, oscillation and amplitude death, and temporal stability in an ecological model

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dc.contributor.author Banerjee, T.
dc.contributor.author Dutta, P.S.
dc.contributor.author Gupta, A.
dc.date.accessioned 2016-11-18T08:47:20Z
dc.date.available 2016-11-18T08:47:20Z
dc.date.issued 2016-11-18
dc.identifier.uri http://localhost:8080/xmlui/handle/123456789/429
dc.description.abstract One of the most important issues in spatial ecology is to understand how spatial synchrony and dispersalinduced stability interact. In the existing studies it is shown that dispersion among identical patches results in spatial synchrony; on the other hand, the combination of spatial heterogeneity and dispersion is necessary for dispersal-induced stability (or temporal stability). Population synchrony and temporal stability are thus often thought of as conflicting outcomes of dispersion. In contrast to the general belief, in this present study we show that mean-field dispersion is conducive to both spatial synchrony and dispersal-induced stability even in identical patches. This simultaneous occurrence of rather conflicting phenomena is governed by the suppression of oscillation states, namely amplitude death (AD) and oscillation death (OD). These states emerge through spatial synchrony of the oscillating patches in the strong-coupling strength. We present an interpretation of the mean-field diffusive coupling in the context of ecology and identify that, with increasing mean-field density, an open ecosystem transforms into a closed ecosystem. We report on the occurrence of OD in an ecological model and explain its significance. Using a detailed bifurcation analysis we show that, depending on the mortality rate and carrying capacity, the system shows either AD or both AD and OD. We also show that the results remain qualitatively the same for a network of oscillators. We identify a new transition scenario between the same type of oscillation suppression states whose geneses differ. In the parameter-mismatched case, we further report on the direct transition from OD to AD through a transcritical bifurcation. We believe that this study will lead to a proper interpretation of AD and OD in ecology, which may be important for the conservation and management of several communities in ecosystems. en_US
dc.language.iso en_US en_US
dc.subject Bifurcation (mathematics) en_US
dc.subject Dispersions en_US
dc.subject Ecosystems en_US
dc.subject Bifurcation analysis en_US
dc.subject Diffusive coupling en_US
dc.subject Ecological modeling en_US
dc.subject Suppression of oscillations en_US
dc.subject Temporal stability en_US
dc.subject Transcritical bifurcation en_US
dc.title Mean-field dispersion-induced spatial synchrony, oscillation and amplitude death, and temporal stability in an ecological model en_US
dc.type Article en_US


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