Global classical small-data solutions for a three-dimensional Keller--Segel--Navier--Stokes system modeling coral fertilization

Abstract

We are concerned with the Keller--Segel--Navier--Stokes system equation* \ arrayll t+u·∇=-∇·( S(x,,c)∇ c)- m, &\!\! (x,t)∈ × (0,T), \\ mt+u·∇ m= m- m, &\!\! (x,t)∈ × (0,T), \\ ct+u·∇ c= c-c+m, & \!\! (x,t)∈ × (0,T), \\ ut+ (u· ∇) u= u-∇ P+(+m)∇φ, ∇· u=0, &\!\! (x,t)∈ × (0,T) array. equation* subject to the boundary condition (∇- S(x,,c)∇ c)· \!\!=\!∇ m· =∇ c· =0, u=0 in a bounded smooth domain ⊂ R3. It is shown that the corresponding problem admits a globally classical solution with exponential decay properties under the hypothesis that S∈ C2(× [0,∞)2)3× 3 satisfies |S(x,,c)|≤ CS for some CS>0, and the initial data satisfy certain smallness conditions.