The Weather Research and Forecasting model is employed to simulate Tropical Cyclone (TC) Megi (2010) using the Grell-Devenyi (GD) and Betts-Miller-Janji(c) (BMJ) cumulus parameterization schemes respectively.The TC track can be well-reproduced with the GD scheme, whereas it turns earlier than observations with the BMJ scheme.The physical mechanism behind different performances of the two cumulus parameterization schemes in the TC simulation is revealed.The failure in the simulation of the TC track with the BMJ scheme is attributed to the overestimation of anvil clouds, which extend far away from TC center and reach the area of the western Pacific subtropical high (WPSH).Such extensive anvil clouds, which result from the excessively deep convection in the eyewall, eventually lead to a large bias in microphysics latent heating.The warming of the upper troposphere due to the condensation in anvil clouds coupled with the cooling of the lower troposphere due to precipitation evaporation cause a weakening of the WPSH, which in turn is favorable for the early recurvature of Megi.