%0 Journal Article %1 Wang1999Choice %A Wang, Bin %A Fan, Zhen %B Bulletin of the American Meteorological Society %D 1999 %I American Meteorological Society %J Bulletin of the American Meteorological Society %K China MyYangtzeWork dynamics eastasianmonsoon monsoon %N 4 %P 629--638 %R 10.1175/1520-0477(1999)080<0629:COSASM>2.0.CO;2 %T Choice of South Asian Summer Monsoon Indices %U http://dx.doi.org/10.1175/1520-0477(1999)080<0629:COSASM>2.0.CO;2 %V 80 %X Abstract In the south Asian region, two of the major precipitation maxima associated with areas of intensive convective activity are located near the Bay of Bengal and in the vicinity of the Philippines. The variations of monthly mean outgoing longwave radiation in the two regions are poorly correlated, particularly in the decade of 1980s. The enhanced convection over the Bay of Bengal and Indian subcontinents is coupled with reinforced monsoon circulation west of 80°E over India, the western Indian Ocean, and the tropical northern Africa. In contrast, the enhanced convection in the vicinity of the Philippines corresponds to intensified monsoon circulation primarily east of 80°E over southeast Asia including the Indochina peninsula, South China Sea, Philippine Sea, and the Maritime Continent. To better reflect regional monsoon characteristics, two convection indices (or associated circulation indices that are dynamically coherent with the convection indices) are suggested to measure the variability of the Indian summer monsoon (ISM) and the southeast Asian summer monsoon, respectively. The change in the Bay of Bengal convection (the ISM) has planetary-scale implications, whereas the change in Philippine convection has primarily a regional impact including a linkage with the east Asia subtropical monsoon. The equatorial western Pacific winds exhibit a considerably higher correlation with the ISM convection than with the Philippine convection. During the summers when a major Pacific warm episode occurs (e.g., 1982?83, 1986?87, 1991?92, and 1997), the convection and circulation indices describing the ISM often diverge considerably, causing inconsistency among various normally coherent monsoon indices. This poses a primary difficulty for using a single monsoon index to characterize the interannual variability of a regional monsoon. The cause of the breakdown of the coherence between various convection and circulation indices during ENSO warm phase needs to be understood.

@article{Wang1999Choice, abstract = {Abstract In the south Asian region, two of the major precipitation maxima associated with areas of intensive convective activity are located near the Bay of Bengal and in the vicinity of the Philippines. The variations of monthly mean outgoing longwave radiation in the two regions are poorly correlated, particularly in the decade of 1980s. The enhanced convection over the Bay of Bengal and Indian subcontinents is coupled with reinforced monsoon circulation west of 80°E over India, the western Indian Ocean, and the tropical northern Africa. In contrast, the enhanced convection in the vicinity of the Philippines corresponds to intensified monsoon circulation primarily east of 80°E over southeast Asia including the Indochina peninsula, South China Sea, Philippine Sea, and the Maritime Continent. To better reflect regional monsoon characteristics, two convection indices (or associated circulation indices that are dynamically coherent with the convection indices) are suggested to measure the variability of the Indian summer monsoon (ISM) and the southeast Asian summer monsoon, respectively. The change in the Bay of Bengal convection (the ISM) has planetary-scale implications, whereas the change in Philippine convection has primarily a regional impact including a linkage with the east Asia subtropical monsoon. The equatorial western Pacific winds exhibit a considerably higher correlation with the ISM convection than with the Philippine convection. During the summers when a major Pacific warm episode occurs (e.g., 1982?83, 1986?87, 1991?92, and 1997), the convection and circulation indices describing the ISM often diverge considerably, causing inconsistency among various normally coherent monsoon indices. This poses a primary difficulty for using a single monsoon index to characterize the interannual variability of a regional monsoon. The cause of the breakdown of the coherence between various convection and circulation indices during ENSO warm phase needs to be understood.}, added-at = {2018-06-18T21:23:34.000+0200}, author = {Wang, Bin and Fan, Zhen}, biburl = {https://www.bibsonomy.org/bibtex/2303aaf85b0a22b62df80032a31b53d94/pbett}, booktitle = {Bulletin of the American Meteorological Society}, citeulike-article-id = {9257962}, citeulike-attachment-1 = {1520-0477281999290803C06293Acosasm3E20co3B2.pdf; /pdf/user/pbett/article/9257962/1129277/1520-0477281999290803C06293Acosasm3E20co3B2.pdf; c294a0519e15a39cbc8c428c2f50bd7cf81ef66a}, citeulike-linkout-0 = {http://journals.ametsoc.org/doi/abs/10.1175/1520-0477(1999)080<0629:COSASM>2.0.CO;2}, citeulike-linkout-1 = {http://dx.doi.org/10.1175/1520-0477(1999)080%3C0629:cosasm%3E2.0.co;2}, comment = {(private-note)This has one of the EASM indices used by Liu et al (2018)}, day = 1, doi = {10.1175/1520-0477(1999)080<0629:COSASM>2.0.CO;2}, file = {1520-0477281999290803C06293Acosasm3E20co3B2.pdf}, interhash = {0902bcdcca693487c87abf6c011a931c}, intrahash = {303aaf85b0a22b62df80032a31b53d94}, issn = {0003-0007}, journal = {Bulletin of the American Meteorological Society}, keywords = {China MyYangtzeWork dynamics eastasianmonsoon monsoon}, month = apr, number = 4, pages = {629--638}, posted-at = {2018-02-09 17:14:49}, priority = {2}, publisher = {American Meteorological Society}, timestamp = {2019-12-18T16:43:13.000+0100}, title = {Choice of South Asian Summer Monsoon Indices}, url = {http://dx.doi.org/10.1175/1520-0477(1999)080<0629:COSASM>2.0.CO;2}, volume = 80, year = 1999 }