Finite-time blow-up in a quasilinear two-species chemotaxis system with two chemicals

Abstract

This paper investigates the finite-time blow-up phenomena to a quasilinear two-species chemotaxis system with two chemicals align cases ut = ∇ · (D1(u) ∇ u) - ∇ · (u ∇ v), & x ∈ , \ t > 0, 0 = v - μ2 + w, μ2=w, & x ∈ , \ t > 0, wt = ∇ · (D2(w) ∇ w) - ∇ · (w ∇ z), & x ∈ , \ t > 0, 0 = z - μ1 + u, μ1=u, & x ∈ , \ t > 0, ∂ u∂ = ∂ v∂ = ∂ w∂ = ∂ z∂ = 0, & x ∈ ∂ , \ t > 0, u(x, 0) = u0(x), w(x, 0) = w0(x), & x ∈ , cases align where ⊂ Rn (n ≥slant 3) is a smoothly bounded domain. The nonlinear diffusion functions \( D1(s) \) and \( D2(s) \) are of the following forms: align* D1(s) sm1-1 and D2(s) sm2-1, m1,m2> 1 align* for s≥slant 1. For the classical two-species chemotaxis system with two chemicals (i.e. the second and fourth equations are replaced by 0 = v - v + w and 0 = z - z + u ), Zhong [J. Math. Anal. Appl., 500 (2021), Paper No. 125130, pp. 22.] showed that the system possesses a globally bounded classical solution in the case that \[ m1 + m2 < \m1m2 + 2m1 n,\ m1m2 + 2m2 n\. \] Complementing the boundedness result, we prove that the system () admits solutions that blow up in finite time, if \[ m1 + m2 > \ m1m2 + 2m1 n,\ m1m2 + 2m2 n\ \] with n≥slant 3.