Abstract
Analysis of the Tropical Rainfall Measuring Mission (TRMM) Microwave Imager (TMI) data for the period 1998–2007 reveals large subseasonal fluctuations in sea surface temperature (SST) of the South China Sea during the summer monsoon onset. These subseasonal SST changes are closely related to surface heat flux anomalies induced by surface wind and cloud changes in association with the summer monsoon onset. The SST changes feed back on the atmosphere by modifying the atmospheric instability. The results suggest that the South China Sea summer monsoon onset involves ocean–atmosphere coupling on subseasonal timescales. While the SST response to surface heat flux changes is quick and dramatic, the time lag between the SST anomalies and the atmospheric convection response varies largely from year to year. The spatial–temporal evolution of subseasonal anomalies indicates that the subseasonal variability affecting the South China Sea summer monsoon onset starts over the equatorial western Pacific, propagates northward to the Philippine Sea, and then moves westward to the South China Sea. The propagation of these subseasonal anomalies is related to the ocean–atmosphere interaction, involving the wind-evaporation and cloud-radiation effects on SST as well as SST impacts on lower-level convergence over the equatorial western Pacific and atmospheric instability over the Philippine Sea and the South China Sea.
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Acknowledgments
Comments of two anonymous reviewers have led to a significant improvement of this study. The author is indebted to Dr. Benjamin Cash for improving the English writing. This research was supported by grants from the NSF ATM-0332910, the NOAA NA04OAR4310034 and NA05OAR4311135, and the NASA NNG04GG46G.
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Wu, R. Subseasonal variability during the South China Sea summer monsoon onset. Clim Dyn 34, 629–642 (2010). https://doi.org/10.1007/s00382-009-0679-4
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DOI: https://doi.org/10.1007/s00382-009-0679-4