We investigate the complex spatiotemporal dynamics of an ecological network with species dispersal mediated via a mean-field coupling. The local dynamics of the network are governed by the Truscott–Brindley model, which is an important ecological model showing excitability. Our results focus on the interplay of excitability and dispersal by always considering that the individual nodes are in their (excitable) steady states. In contrast to the previous studies, we not only observe the dispersal induced generation of oscillation but also report two distinct mechanisms of cessation of oscillations, namely, amplitude and oscillation death. We show that the dispersal between the nodes influences the intrinsic dynamics of the system resulting in multiple oscillatory dynamics such as period-1 and period-2 limit cycles. We also show the existence of multi-cluster states, which has much relevance and importance in ecology.
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December 2016
Research Article|
December 27 2016
Generation and cessation of oscillations: Interplay of excitability and dispersal in a class of ecosystems
Ramesh Arumugam;
Ramesh Arumugam
1Department of Mathematics,
Indian Institute of Technology Ropar
, Rupnagar 140 001, Punjab, India
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Tanmoy Banerjee
;
Tanmoy Banerjee
a)
2Chaos and Complex Systems Research Laboratory, Department of Physics,
University of Burdwan
, Burdwan 713 104, West Bengal, India
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Partha Sharathi Dutta
Partha Sharathi Dutta
b)
1Department of Mathematics,
Indian Institute of Technology Ropar
, Rupnagar 140 001, Punjab, India
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a)
Electronic mail: tbanerjee@phys.buruniv.ac.in
b)
Author to whom correspondence should be addressed. Electronic mail: parthasharathi@iitrpr.ac.in
Chaos 26, 123122 (2016)
Article history
Received:
September 06 2016
Accepted:
December 05 2016
Citation
Ramesh Arumugam, Tanmoy Banerjee, Partha Sharathi Dutta; Generation and cessation of oscillations: Interplay of excitability and dispersal in a class of ecosystems. Chaos 1 December 2016; 26 (12): 123122. https://doi.org/10.1063/1.4972561
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