Nusantara,the new capital city of Indonesia,and its surrounding areas experienced intense heavy rainfall on 15-16 March 2022,leading to devastating and widespread flooding.However,the factors triggering such intense h...Nusantara,the new capital city of Indonesia,and its surrounding areas experienced intense heavy rainfall on 15-16 March 2022,leading to devastating and widespread flooding.However,the factors triggering such intense heavy rainfall and the underlying physical mechanisms are still not fully understood.Using high-resolution GSMaP(Global Satellite Mapping of Precipitation)data,we show that a mesoscale convective system(MCS)was the primary cause of the heavy rainfall event.The rainfall peak occurred during the MCS's mature stage at 1800 UTC 15 March 2022,and diminished as it entered the dissipation stage.To understand the large-scale environmental factors affecting the MCS event,we analyzed contributions from the MJO,equatorial waves,and low-frequency variability to column water vapor and moisture flux convergence.Results indicate a substantial influence of the MJO and equatorial waves on lower-level(boundary layer)meridional moisture flux convergence during the pre-MCS stage and initiation,with their contributions accounting for up to80%during the growth phase.Moreover,while La Nina and the Asian monsoon had negligible impacts on MCS moisture supply,we find a large contribution from the residual term of the water vapour budget during the maturation and decay phases of the MCS.This suggests that local forcing(such as small-scale convection,local evaporation,land-surface feedback,and topography)also contributed to modulation of the intensity and duration of the MCS.The results of this study can help in our understanding of the potential causes of extreme rainfall in Nusantara and could be leveraged to improve rainstorm forecasting and risk management across the region in the future.展开更多
基金supported by the Budget Execution(Allotment)Document,National Research and Innovation Agency(BRIN)in 2022(Grant No.SP DIPA-124.01.1.690504/2022)。
文摘Nusantara,the new capital city of Indonesia,and its surrounding areas experienced intense heavy rainfall on 15-16 March 2022,leading to devastating and widespread flooding.However,the factors triggering such intense heavy rainfall and the underlying physical mechanisms are still not fully understood.Using high-resolution GSMaP(Global Satellite Mapping of Precipitation)data,we show that a mesoscale convective system(MCS)was the primary cause of the heavy rainfall event.The rainfall peak occurred during the MCS's mature stage at 1800 UTC 15 March 2022,and diminished as it entered the dissipation stage.To understand the large-scale environmental factors affecting the MCS event,we analyzed contributions from the MJO,equatorial waves,and low-frequency variability to column water vapor and moisture flux convergence.Results indicate a substantial influence of the MJO and equatorial waves on lower-level(boundary layer)meridional moisture flux convergence during the pre-MCS stage and initiation,with their contributions accounting for up to80%during the growth phase.Moreover,while La Nina and the Asian monsoon had negligible impacts on MCS moisture supply,we find a large contribution from the residual term of the water vapour budget during the maturation and decay phases of the MCS.This suggests that local forcing(such as small-scale convection,local evaporation,land-surface feedback,and topography)also contributed to modulation of the intensity and duration of the MCS.The results of this study can help in our understanding of the potential causes of extreme rainfall in Nusantara and could be leveraged to improve rainstorm forecasting and risk management across the region in the future.
