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Finite-time blow-up in a two-species chemotaxis-competition model with single production

Masaaki MizukamiYuya Tanaka — 2023

Archivum Mathematicum

This paper is concerned with blow-up of solutions to a two-species chemotaxis-competition model with production from only one species. In previous papers there are a lot of studies on boundedness for a two-species chemotaxis-competition model with productions from both two species. On the other hand, finite-time blow-up was recently obtained under smallness conditions for competitive effects. Now, in the biological view, the production term seems to promote blow-up phenomena; this implies that the...

Boundedness and stabilization in a three-dimensional two-species chemotaxis-Navier-Stokes system

Hirata, MisakiKurima, ShunsukeMizukami, MasaakiYokota, Tomomi — 2017

Proceedings of Equadiff 14

This paper is concerned with the two-species chemotaxis-Navier–Stokes system with Lotka–Volterra competitive kinetics ( 1 ) t + u · 1 = 𝔻 1 - χ 1 · ( 1 c ) + μ 1 1 ( 1 - 1 - a 1 2 ) in × ( 0 , ) , ( 2 ) t + u · 2 = 𝔻 2 - χ 2 · ( 2 c ) + μ 2 2 ( 1 - a 2 1 - 2 ) in × ( 0 , ) , c t + u · c = 𝔻 c - ( α 1 + β 2 ) c in × ( 0 , ) , u t + ( u · ) u = 𝔻 u + P + ( γ 1 + 2 ) Φ , · u = 0 in × ( 0 , ) under homogeneous Neumann boundary conditions and initial conditions, where is a bounded domain in R3 with smooth boundary. Recently, in the 2-dimensional setting, global existence and stabilization of classical solutions to the above system were first established. However, the 3-dimensional case has not been studied: Because of difficulties in the Navier–Stokes system, we can...

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