dc.creator | Bai, Hedanqiu | |
dc.creator | Deranadyan, Gumilang | |
dc.creator | Schumacher, Courtney | |
dc.creator | Funk, Aaron | |
dc.creator | Epifanio, Craig | |
dc.creator | Ali, Abdullah | |
dc.creator | Endarwin, FNU | |
dc.creator | Radjab, Fachri | |
dc.creator | Adriyanto, Riris | |
dc.creator | Nurhayati, Noer | |
dc.creator | Nugraha, Yudha | |
dc.creator | Fauziah, Annisa | |
dc.date.accessioned | 2021-09-24T20:36:36Z | |
dc.date.available | 2021-09-24T20:36:36Z | |
dc.date.issued | 2021-03 | |
dc.identifier.citation | Bai, H., Deranadyan, G., Schumacher, C., Funk, A., Epifanio, C., Ali, A., ... Fauziah, A. (2021). Formation of Nocturnal Offshore Rainfall near the West Coast of Sumatra: Land Breeze or Gravity Wave?. Monthly Weather Review. 149(3), 715-731. | en |
dc.identifier.uri | https://hdl.handle.net/1969.1/194891 | |
dc.description.abstract | Afternoon deep convection over the Maritime Continent islands propagates offshore in the evening to early morning hours, leading to a nocturnal rainfall maximum over the nearby ocean. This work investigates the formation of the seaward precipitation migration off western Sumatra and its intraseasonal and seasonal characteristics usingBMKGC-band radar observations from Padang and ERA5 reanalysis. A total of 117 nocturnal offshore rainfall events were identified in 2018, with an average propagation speed of 4.5ms21 within 180 km of Sumatra. Most offshore propagation events occur when the Madden–Julian oscillation (MJO) is either weak (real-time multivariate MJO index,1) or active over the Indian Ocean (phases 1–3), whereas very few occur when theMJOis active over the Maritime Continent and western Pacific Ocean (phases 4–6). The occurrence of offshore rainfall events also varies on the basis of the seasonal evolution of the large-scale circulation associated with the Asian–Australian monsoons, with fewer events during the monsoon seasons of December–February and June–August and more during the transition seasons of March–May and September–November. Low-level convergence, resulting from the interaction of the land breeze and background low-level westerlies, is found to be the primary driver for producing offshore convective rain propagation from the west coast of Sumatra. Stratiform rain propagation speeds are further increased by upper-level easterlies, which explains the faster migration speed of high reflective clouds observed by satellite. However, temperature anomalies associated with daytime convective latent heating over Sumatra indicate that gravity waves may also modulate the offshore environment to be conducive to seaward convection migration. | en |
dc.description.sponsorship | This research was supported by NOAA Climate Variability and Predictability Program, under grant NA17OAR4310258.We thankMr. Haryadi andMs. A. Susilawati for facilitating the participation of Mr. G. Deranadyan and Mr. A. Ali in this research while leading the subdivision for radar imagery management at BMKG. | en |
dc.language.iso | en | |
dc.publisher | American Meteorological Society | |
dc.subject | Gravity waves | en |
dc.subject | Diurnal effects | en |
dc.subject | Rainfall | en |
dc.subject | Sea breezes | en |
dc.subject | Radars/radar observations | en |
dc.title | Formation of Nocturnal Offshore Rainfall near the West Coast of Sumatra: Land Breeze or Gravity Wave? | en |
dc.type | Article | en |
local.department | Atmospheric Sciences | en |
dc.identifier.doi | https://dx.doi.org/10.1175/mwr-d-20-0179.1 | |