Flexible retaining walls have some characteristics：high bearing capacity, flexibility, toughness, excellent seismic resistance, short construction time, and so on. These characteristics can be used for debris flow mitigation. In this study, the finite element software PLAXIS was used to analyze the behaviors of geocell-reinforced retaining structures under dynamic lateral pressures induced by debris flows. The influencing factors investigated were as follows: (1) range of reinforced zone; (2) wall-face inclination ; (3) change of water line. The result showed that the deformation of wall face was curvilinear. Geocell-reinforced wall’s lateral earth pressure shape was like a triangle. The walls not fully reinforced had about the same stability and ability to restrain deformation as the fully reinforced walls, but were more economic. The wall with gentler inclination reduced the lateral earth pressure on the wall, and had better stability of deformation when subjected to dynamic loads. When water was inside the wall, dynamic loads influenced the lateral earth pressure slightly. Comparing geocell-reinforced walls with geosynthetic-reinforced soil walls, geosynthetic-reinforced soil walls had better deformation recovery, while geocell-reinforced walls had better structure stability. Both walls had concentration of deformation at the end of reinforced zone, which reduced the stability of the walls when they were subjected to dynamic loads.