Du, Yihong; Hsu, Sze-Bi

Author(s)

Du, Yihong

Hsu, Sze-Bi

Publication Date

2008

Abstract

We study the positive steady state of a quasi-linear reaction-diffusion system in one space dimension introduced by Klausmeier and Litchman for the modelling of the distributions of phytoplankton biomass and its nutrient. The system has nonlocal dependence on the biomass function, and it has a biomass-dependent drifting term describing the active movement of the biomass towards the location of the optimal growth condition. We obtain complete descriptions of the profile of the solutions when the coefficient of the drifting term is large, rigorously proving the numerically observed phenomenon of concentration of biomass for this model. Our theoretical results reveal four critical numbers for the model not observed before and offer several further insights into the problem being modelled. This is Part I of a two-part series, where we obtain nearly optimal existence and nonexistence results. The asymptotic profile of the solutions is studied in the separate Part II.

Citation

SIAM Journal on Mathematical Analysis, 40(4), p. 1419-1440

ISSN

1095-7154

0036-1410

Link

https://hdl.handle.net/1959.11/3552

Publisher

Society for Industrial and Applied Mathematics

Title

Concentration Phenomena in a Nonlocal Quasi-Linear Problem Modelling Phytoplankton I: Existence

Type of document

Journal Article

Entity Type

Publication

Author(s)	Du, Yihong Hsu, Sze-Bi
Publication Date	2008
Abstract	We study the positive steady state of a quasi-linear reaction-diffusion system in one space dimension introduced by Klausmeier and Litchman for the modelling of the distributions of phytoplankton biomass and its nutrient. The system has nonlocal dependence on the biomass function, and it has a biomass-dependent drifting term describing the active movement of the biomass towards the location of the optimal growth condition. We obtain complete descriptions of the profile of the solutions when the coefficient of the drifting term is large, rigorously proving the numerically observed phenomenon of concentration of biomass for this model. Our theoretical results reveal four critical numbers for the model not observed before and offer several further insights into the problem being modelled. This is Part I of a two-part series, where we obtain nearly optimal existence and nonexistence results. The asymptotic profile of the solutions is studied in the separate Part II.
Citation	SIAM Journal on Mathematical Analysis, 40(4), p. 1419-1440
ISSN	1095-7154 0036-1410
Link	https://hdl.handle.net/1959.11/3552
Publisher	Society for Industrial and Applied Mathematics
Title	Concentration Phenomena in a Nonlocal Quasi-Linear Problem Modelling Phytoplankton I: Existence
Type of document	Journal Article
Entity Type	Publication

Concentration Phenomena in a Nonlocal Quasi-Linear Problem Modelling Phytoplankton I: Existence

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