Future changes in mean and extreme precipitation over Peninsular Malaysia using CORDEX-SEA 5 km simulations
Jing Xiang Chung, Liew Juneng, Gerasorn Santisirisomboon, Thanh Ngo‐Duc, Tan Phan‐Van, Long Trinh‐Tuan, Faye Cruz, Julie Mae B. Dado, Ratchanan Srisawadwong, Dodo Gunawan, John L. McGregor, Hidetaka Sasaki, Akihiko Murata, Sheau Tieh Ngai, Patama Singhruck, Mohd Syazwan Faisal Mohd, Edvin Aldrian, Ester Salimun, Fredolin Tangang
Abstract
The Coordinated Regional Climate Downscaling Experiment (CORDEX) Southeast Asia further downscaled three of its 25 km products, i.e. EC-Earth, HadGEM2-ES and MPI-ESM-MR forced regional climate simulations to a higher resolution of 5 km. A newer RegCM4.7 model was used for this exercise. For the simulations over Peninsular Malaysia, analysis shows that these simulations have much smaller precipitation biases. They can correctly predict the annual precipitation cycle over the east coast of Peninsular Malaysia compared to the 25 km simulations. The ensemble of these 5 km simulations indicates that Peninsular Malaysia is expected to experience a decrease in its seasonal mean precipitation, regardless of the RCP 4.5 or RCP 8.5 scenarios. Aside from the reduction of seasonal mean precipitation, consecutive dry and wet days are expected to increase and decrease, respectively. This indicates that Peninsular Malaysia will experience a long dry spell in the future. At the same time, it is suggested that Peninsular Malaysia will have fewer days with very heavy precipitation. Overall, the findings from this study suggest that the 5 km downscaled climate simulations improve significantly over 25 km and that the Peninsular Malaysia region can expect a drier future climate and extremes.