Asia has the strongest monsoon system in the world and has the most population continent. In addition to Indian monsoon, East Asia is another area with strong monsoon system, high population and high aerosol pollution. The relevant studies show that aerosol causes decrease in surface temperature, reduction of precipitation and the weakness of monsoon system. However, less research was studied further into the dynamical feedback. This study focuses on the how aerosol will change the East Asian summer monsoon. We apply the NCAR/CESM global model with slab ocean model to get a better ocean feedback, and simulate the year 1850 and 2000 emission scenarios in order to estimate the influence of anthropogenic aerosol forcing and to approach the problem from different perspectives, including dynamical feedback. The result shows that in total aerosol forcing, the direct radiative forcing is main-ly on the high aerosol distribution area. Aerosol indirect effect follow the cloud movement of the synoptic system and influence the whole Asia. The mean regional surface temperature and precipitation decreased by -1.07°C and -0.46 mm/day, respec-tively, over East Asia , but the responses vary significantly from region to region. The dynamical feedback of aerosol forcing, which affect the sea surface temperature and the strength of Pacific high ridge by indirect effect, shows that the wind-evaporation-SST feedback causes the inconsistency distribution between surface temperature and radiation. The main aerosol emission region shows the reduction of temperature, but cause the updraft at the mei-yu front and has more precipitation in the result. This may due to trigger the Pacific-Japan pattern (P-J pattern) feedback, while we see the similar structure in the result. Overall, aerosol particles cause large regional subsidence anomaly, resulting in weakened summer monsoon. When considering only absorbing (black carbon) or non-absorbing (sulfate) aero-sols, the changes in surface temperature are +0.18°C and -0.53°C, respectively; where-as the changes in precipitation are -0.35 mm/day and -0.34 mm/day, respectively. Non-absorbing aerosol can scatter the solar radiation, causing the temperature decrease and stabilize atmosphere. Absorbing aerosol shows heating atmosphere can com-pensate the radiation reduction at surface, while the combined effect shows stabilizing atmosphere. The dynamical feedback of WES feedback and P-J pattern are show in the absorbing and non-absorbing aerosol result, only with a weaker phenomenon.