MODELING FLUCTUATIONS IN A MINIMAL PLANKTON MODEL: ROLE OF SPATIAL HETEROGENEITY AND STOCHASTICITY
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Publication:3503136
DOI10.1142/S021952590700101XzbMath1198.92044OpenAlexW2156342118MaRDI QIDQ3503136
Banibrata Mukhopadhyay, Rakhi Bhattacharyya
Publication date: 20 May 2008
Published in: Advances in Complex Systems (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1142/s021952590700101x
colored noiseFloquet multiplierspectral density functionplanktonbloomconstant and variable diffusivitypatchy distribution
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Cites Work
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- Phytoplankton blooms and fish recruitment rate: effects of spatial distribution
- Zooplankton mortality and the dynamical behaviour of plankton population models
- Self-organization, scale and stability in a spatial predator-prey interaction
- Non-equilibrium fluctuation in Volterra-Lotka systems
- Ocean plankton populations as excitable media
- Modeling the role of viral disease in recurrent phytoplankton blooms
- Shift of bifurcation point due to noise induced parameter
- Mathematical biology. Vol. 1: An introduction.
- A practical variational approach to stochastic optimal control via state moment equations
- Patchiness in plankton populations
- STOCHASTICS OF ORDER n IN BIOLOGICAL SYSTEMS: APPLICATIONS TO POPULATION DYNAMICS, THERMODYNAMICS, NONEQUILIBRIUM PHASE AND COMPLEXITY
- RANDOM DISPERSAL IN THEORETICAL POPULATIONS
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