Global solvability for doubly degenerate nutrient taxis system with a wide range of bacterial responses in physical dimension (2508.03268v1)

Abstract: Motivated by the study of bacteria's response to environmental conditions, we consider the doubly degenerate nutrient taxis system \begin{align*} \begin{cases} u_t=\nabla\cdot(uv\nabla u)-\chi\nabla\cdot(u^{\alpha}v\nabla v)+\ell uv,\ v_t=\Delta v-uv, \end{cases} \end{align*} subjected to no-flux boundary conditions and smooth initial data, where $\alpha\in\mathbb{R}$ is the bacterial response parameter. Global solvability of weak solutions to this taxis system is highly challenging due to not only the doubly nonlinear diffusion and its degeneracy but also the strong chemotactic effect, where the latter is strong at the large species density if $\alpha$ is close to $2$ or at the small species density if $\alpha<0$. Recent findings on the global weak solvability for the considered system are summarised as follows \begin{itemize} \item In [M. Winkler, \textit{Trans. Amer. Math. Soc.}, 2021] for $\alpha=2$, $N=1$; \item In [M. Winkler, \textit{J. Differ. Equ.}, 2024] for $1\le\alpha\le 2$, $N=2$ with initial data of small size if $\alpha=2$; \item In [Z. Zhang and Y. Li, \textit{arXiv:2405.20637}, 2024] for $\alpha=2$, $N=2$; and \item In [G. Li, \textit{J. Differ. Equ.}, 2022] for $\frac{7}{6}<\alpha<\frac{13}{9}$, $N=3$. \end{itemize} Our work aims to provide a picture of global weak solvability for $0\le\alpha<2$ in the physically dimensional setting $N=3$. As suggested by the analysis, it is divided into three separable cases, including (i) $0\le\alpha\le 1$: Weak chemotaxis effect; (ii) $1<\alpha\le 3/2$: Moderate chemotaxis effect; and (iii) $3/2<\alpha<2$: Strong chemotaxis effect.