With the uncertainty and complexity of power system control improved, emergency control strategies are facing significant challenge on adaptiveness and robustness. This paper applies a distributional deep reinforcement learning method in dynamic load shedding, which allow agents at different buses take collaborative actions in a distributed way. These agents are centrally trained and separately executed, which can have mutual collaboration with others. To validate the effectiveness of DDRL, our simulations are implemented on an open-source platform named Reinforcement Learning for Grid Control. Furthermore, we make comparisons and analysis in the IEEE 39-bus system to evaluate the performance of distributional deep reinforcement learning, and the results have demonstrated that the proposed method have satisfied adaptiveness and robustness.