Reaction-diffusion equations have several applications in the field of population dynamics and some of them are characterized by the presence of a factor which describes different types of food sources in a heterogeneous habitat. In this context, to study persistence or extinction of populations it is relevant to perform a search for nontrivial steady states. Our paper focuses on a one-dimensional model given by a parameter-dependent equation of the form u'' + ( λa^+(t) - μa^-(t) ) g(u) = 0, where g: [0,1]→ℝ is a continuous function such that g(0)=g(1)=0, g(s) > 0 for every 0<s<1 and lim_{s→0^+} g(s)/s=0, and the weight a(t) has two positive humps separated by a negative one. In this manner, we consider bounded habitats which include two favorable food sources and an unfavorable one. We deal with various boundary conditions, including the Dirichlet and Neumann ones, and we prove the existence of eight positive solutions when λ and μ are positive and sufficiently large. Throughout the paper, numerical simulations are exploited to discuss the results and to explore some open problems.

An indefinite nonlinear problem in population dynamics: high multiplicity of positive solutions

Feltrin, Guglielmo
;
Sovrano, Elisa
2018-01-01

Abstract

Reaction-diffusion equations have several applications in the field of population dynamics and some of them are characterized by the presence of a factor which describes different types of food sources in a heterogeneous habitat. In this context, to study persistence or extinction of populations it is relevant to perform a search for nontrivial steady states. Our paper focuses on a one-dimensional model given by a parameter-dependent equation of the form u'' + ( λa^+(t) - μa^-(t) ) g(u) = 0, where g: [0,1]→ℝ is a continuous function such that g(0)=g(1)=0, g(s) > 0 for every 0
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11390/1149618
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