In this article, some high-order local discontinuous Galerkin (LDG) schemes based on some second-order $ \theta $ approximation formulas in time are presented to solve a two-dimensional nonlinear fractional diffusion equation. The unconditional stability of the LDG scheme is proved, and an a priori error estimate with $O(h^{k+1}+\varDelta t^2)$ is derived, where $k\geqslant 0$ denotes the index of the basis function. Extensive numerical results with $Q^k(k=0,1,2,3)$ elements are provided to confirm our theoretical results, which also show that the second-order convergence rate in time is not impacted by the changed parameter $\theta$.