Abstract
Using observation-based analyses, this study identifies the leading interannual pattern of the Indian summer monsoon rainfall (ISMR) independent of ENSO and examines the potential mechanisms of its formation. For this purpose, an objective procedure is used to isolate the variability of the summer precipitation associated with the contemporary ENSO state and in previous winter–spring, which influence the Indian summer monsoon (ISM) region in opposite ways. It is shown that the leading pattern of these ENSO-related monsoon rainfall anomalies reproduces some major ISMR features and well represents its connections to the global-scale ENSO features in both lower and upper troposphere. On the other hand, the leading pattern derived from the precipitation anomalies with the ENSO component removed in the ISM and surrounding region also accounts for a substantial amount of the monsoon precipitation centered at the eastern coast of the subtropical Arabian Sea, extending into both the western Indian Ocean and the Indian subcontinent. The associated atmospheric circulation change is regional in nature, mostly confined in the lower to mid troposphere centered in the Arabian Sea, with a mild connection to an opposite tendency centered at the South China Sea. Further analyses show that this regional pattern is associated with a thermodynamic air–sea feedback during early to mid summer season. Specifically, before the monsoon onset, an anomalous atmospheric high pressure over the Arabian Sea causes excessive shortwave radiation to the sea surface and increases SST in May. The warm SST anomalies peak in June and reduce the sea level pressure. The anomalous cyclonic circulation generates regional convection and precipitation, which also induces subsidence and anticyclonic circulation over the South China Sea. The combined cyclonic–anticyclonic circulation further transport moisture from the western Pacific into the Indian Ocean and causes its convergence into the Arabian Sea. As a result, the regional cyclone is further enhanced and expanded to the Indian subcontinent in July. The substantial reduction of the solar radiation, however, cools down the sea surface and causes the decay of the circulation in August. This study suggests that the pre-monsoon Arabian Sea condition may be an important contributor to the ISM predictability from monthly to seasonal scales.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ashok K, Guan Z, Yamagata T (2001) Impact of the Indian Ocean dipole on the relationship between the Indian monsoon rainfall and ENSO. Geophys Res Lett 28:4499–4502
Behera SK, Luo JJ, Masson S, Rao SA, Sakuma H, Yamagata T (2006) A CGCM study on the interaction between IOD and ENSO. J Clim 19:1608–1705
Blanford HF (1884) On the connection of the Himalaya snowfall with dry winds and seasons of drought in India. Proc R Soc London 37:3–22
Cherchi A, Gualdi S, Behera S, Luo J, Masson S, Yamagata T, Navarra A (2007) The influence of tropical Indian Ocean SST on the Indian summer monsoon. J Clim 20:3083–3105
Clark CO, Cole Julia E, Webster PJ (2000) Indian Ocean SST and Indian summer rainfall: predictive relationships and their decadal variability. J Clim 13:2503–2519
Gadgil S, Vinayachandran PN, Francis PA (2003) Droughts of the Indian summer monsoon: role of clouds over the Indian Ocean. Curr Sci 85(12):1713–1719
Huang B, Kinter JL III (2002) Interannual variability in the tropical Indian Ocean. J Geophys Res 107(C11):3199. doi:10.1029/2001JC001278
Huang B, Shukla J (2007a) Mechanisms for the interannual variability in the tropical Indian Ocean. Part I: The role of remote forcing from the tropical Pacific. J Clim 20:2917–2936
Huang B, Shukla J (2007b) Mechanisms for the interannual variability in the tropical Indian Ocean. Part II: Regional processes. J Clim 20:2937–2960
Kalnay E et al (1996) The NCEP/NCAR 40-Year reanalysis project. Bull Am Meteorol Soc 77:437–471
Karumuri A, Guan Z, Saji NH, Yamagata T (2004) Individual and combined influences of ENSO and the Indian Ocean dipole on the Indian summer monsoon. J Clim 17:3141–3155
Kinter JL III, Miyakoda K, Yang S (2002) Recent change in the connection from the Asian monsoon to ENSO. J Clim 15:1203–1215
Kirtman BP, Shukla J (2000) Influence of the Indian summer monsoon on ENSO. Quart J R Meteorol Soc 126:213–239
Klein SA, Soden BJ, Lau NC (1999) Remote sea surface temperature variations during ENSO: evidence for a tropical atmospheric bridge. J Clim 12:917–932
Krishnamurthy V, Kirtman BP (2003) Variability of the Indian Ocean: relation to monsoon and ENSO. Quart J R Meteorol Soc 129:1623–1646
Lau NC, Nath MJ (2000) Impact of ENSO on the variability of the Asian-Australian monsoons as simulated in GCM experiments. J Clim 13:4287–4307
Lau N-C, Nath MJ (2003) Atmosphere–ocean variations in the Indo-Pacific sector during ENSO episodes. J Clim 16:3–20
Lau K-M, Kim K-M, Yang S (2000) Dynamical and boundary forcing characteristics of regional components of the Asian summer monsoon. J Clim 13:2461–2482
Mishra V, Smoliak BV, Lettenmaier DP, Wallace JM (2012) A prominent pattern of year-to-year variability in Indian summer monsoon rainfall. Proc Natl Acad Sci. doi:10.1073/pnas.1119150109
North R, Bell T, Cahalan R, Moeng F (1982) Sampling errors in the estimation of empirical orthogonal functions. Mon Weather Rev 110:699–706
Rao KG, Goswami BN (1988) Interannual variations of sea surface temperature over the Arabian Sea and the Indian monsoon: A new perspective. Mon Wea Rev 116:558–568
Rasmusson EM, Carpenter TH (1983) The relationship between eastern equatorial Pacific sea surface temperature and rainfall over India and Sri Lanka. Mon Wea Rev 111:517–528
Saha K (1970) Zonal Anomaly of sea surface temperature in equatorial Indian Ocean and its possible effect upon monsoon circulation. Tellus 22:403–409
Saha K (1974) Some aspects of the Arabian Sea summer monsoon. Tellus 26:464–476
Saji NH, Goswami BN, Vinayachandran PN, Yamagata T (1999) A dipole mode in the tropical Indian Ocean. Nature 401:360–363
Schubert S, Wu ML (2001) Predictability of the 1997 and 1998 South Asian monsoon low-level winds. J Clim 14:3173–3191
Shukla J (1975) Effect of Arabian sea-surface temperature anomaly on Indian summer monsoon: A numerical experiment with the GFDL mode. J Atmos Sci 32:503–511
Shukla J (1987) Interannual variability of monsoons. In: Fein JS, Stephens PI (eds) monsoons. Wiley, New York, p 632
Shukla RP (2014) The dominant intraseasonal mode of intraseasonal South Asian summer monsoon. J Geophys Res Atmos. doi:10.1002/2013JD020335
Shukla RP and Huang B (2015) Physical processes and global connection of the Indian summer monsoon in NCEP CFSv2. Clim Dyn. Under review process
Shukla RP, Kinter JL III (2014) Simulation of the Asian Monsoon using a regionally-coupled global climate mode. Clim Dyn. doi:10.1007/s00382-014-2188-3
Shukla J, Misra BM (1977) Relationships between sea surface temperature and wind speed over the central Arabian Sea, and the monsoon rainfall over India. Mon Wea Rev 105:998–1002
Shukla RP, Tripathi KC, Pandey AC, Das IML (2011) Prediction of Indian summer monsoon rainfall using Nino Indices: a neural network approach. Atmos Res. doi:10.1016/j.atmosres.2011.06.013
Smith MT, Reynolds WR, Peterson TC, Lawrimore J (2008) Improvements to NOAA’s historical merged Land–Ocean surface temperature analysis (1880–2006). J Clim 21:2283–2296
Storch HV, Zwiers FW (2000) Statistical analysis in climate research. Cambridge University Press, Cambridge
Vecchi GA, Harrison DE (2004) Interannual Indian rainfall variability and Indian Ocean sea surface temperature anomalies. In: Wang C, Xie SP, Arton JA (eds) Earth’s climate. American Geophysical Union, Washington
Walker GT (1923) Correlation in seasonal variations of weather, VIII. A preliminary study of world weather. Mem India Meteorol Dep 24(4):75–131
Wallace JM, Rasmusson EM, Mitchell TP, Kousky VE, Sarachik ES, vonStorch H (1998) On the structure and evolution of ENSO-related climate variability in the tropical Pacific: lessons from TOGA. J Geophys Res 103(C7):14241–14259. doi:10.1029/97JC02905
Wang B, Wu R, Fu X (2000) Pacific-East Asian teleconnection: how does ENSO affect East Asian climate? J Clim 13:1517–1536
Wang B, Wu R, Li T (2003) Atmosphere-warm ocean interaction and its impacts on the Asian-Australian monsoon variation. J Clim 16:1195–1211
Wang B, Wu Z, Li J, Liu J, Chang Chih-Pei, Ding Y, Wu G (2008) How to measure the strength of the East Asian summer monsoon. J Clim 21:4449–4463
Webster PJ, Yang S (1992) Monsoon and ENSO: selectively interactive systems. Q J R Meteorol Soc 118:877–926
Webster PJ, Magana VO, Palmer TN, Shukla J, Tomas RA, Yanai M, Yasunari T (1998) Monsoons: processes, predictability and the prospects for prediction. J Geophys Res 103:14451–14510
Webster PJ, Moore AW, Loschnigg JP, Leben RR (1999) Coupled ocean atmosphere dynamics in the Indian Ocean during 1997–1998. Nature 401:356–360
Wu B, Zhou T, Li T (2009) Seasonally evolving dominant interannual variability modes of East Asian climate. J Clim 22:2992–3005
Xie P, Arkin PA (1997) Analysis of global monthly precipitation using gauge observations, satellite estimates and numerical predictions. J Clim 9:840–858
Zhang Y-C, Rossow WB, Lacis AA, Oinas V, Mishchenko MI (2004) Calculation of radiative fluxes from the surface to top of atmosphere based on ISCCP and other global data sets: refinements of the radiative transfer model and the input data. J Geophys Res 109:D19105. doi:10.1029/2003JD004457
Acknowledgments
Funding for this research work was provided by grants from the National Science Foundation (ATM-0830068, 0947837 and 1338427), the National Oceanic and Atmospheric Administration (NA09OAR4310058 and NA14OAR4310160), and the National Aeronautics and Space Administration (NNX09AN50G, NNX09AI84G and NNX14AM19G). The authors are grateful to two anonymous reviewers for their constructive comments and suggestions.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Shukla, R.P., Huang, B. Interannual variability of the Indian summer monsoon associated with the air–sea feedback in the northern Indian Ocean. Clim Dyn 46, 1977–1990 (2016). https://doi.org/10.1007/s00382-015-2687-x
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00382-015-2687-x