Abstract
In this chapter, the observed characteristics of the El Niño – Southern Oscillation (ENSO) is described, followed by the discussion of the ENSO instability and oscillatory theories. Next, the mechanisms of its phase locking to the annual cycle are discussed. Through the oceanic mixed-layer budget analysis, physical mechanisms responsible for El Niño and La Niña amplitude asymmetry and El Niño and La Niña evolution asymmetry are investigated. How the interdecadal mean state modulates the El Niño behavior is further discussed. Finally, an air–sea interaction mode with a characterized zonal-dipole structure in the tropical Indian Ocean is described.
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References
Battisti DS, Hirst AC (1989) Interannual variability in a tropical atmosphere–ocean model: influence of the basic state, ocean geometry and nonlinearity. J Atmos Sci 46:1687–1712
Bjerknes J (1969) Atmospheric teleconnections from the equatorial Pacific. Mon Weather Rev 97:163–172
Chang C-P, Li T (2000) A theory for the tropical tropospheric biennial oscillation. J Atmos Sci 57:2209–2224
Chang P, Philander SGH (1994) A coupled ocean–atmosphere instability of relevance to the seasonal cycle. J Atmos Sci 51:3627–3648
Chen M, Li T, Shen X, Wu B (2016) Relative roles of dynamic and thermodynamic processes in causing evolution asymmetry between El Niño and La Niña. J Clim 29:2201–2220
Chung P-H, Li T (2013) Interdecadal relationship between the mean state and El Niño types. J Clim 26:361–379
Gill AE (1980) Some simple solutions for heat-induced tropical circulation. Quart J Roy Meteorol Soc 106:447–462
Hirst AC (1986) Unstable and damped equatorial modes in simple coupled ocean–atmosphere models. J Atmos Sci 43:606–632
Hirst AC (1988) Slow instabilities in tropical ocean basin-global atmosphere models. J Atmos Sci 45:830–852
Jin F-F (1997) An equatorial ocean recharge paradigm for ENSO. Part I: Conceptual mode. J Atmos Sci 54:811–829
Li T, Philander SGH (1996) On the annual cycle of the equatorial eastern Pacific. J Climate 9:2986–2998
Li T (1997) Phase transition of the El Niño-Southern oscillation: a stationary SST mode. J Atmos Sci 54:2872–2887
Li T, Wang B, Chang C-P, Zhang Y (2003) A theory for the Indian Ocean dipole-zonal mode. J Atmos Sci 60:2119–2135
Meehl GA (1997) The south Asian monsoon and the tropospheric biennial oscillation. J Clim 10:1921–1943
Meinen CS, McPhaden MJ (2000) Observations of warm water volume changes in the equatorial Pacific and their relationship to El Niño and La Niña. J Clim 13:3551–3559
Nitta T (1987) Convective activities in the tropical western Pacific and their impact on the northern hemisphere summer circulation. J Meteorol Soc Jpn 65:373–390
Philander SGH (1990) El Niño, La Niña, and the Southern oscillation. Academic Press, London, 289 pp
Philander SGH, Yamagada T, Pacanowski RC (1984) Unstable air-sea interactions in the tropics. J Atmos Sci 41:604–613
Philander SGH, Gu D, Halpern D, Lambert G, Lau NC, Li T, Pacanowski R (1996) Why the ITCZ is mostly north of the equator. J Climate 9:2958–2972
Rasmusson EM, Carpenter TH (1982) Variations in tropical sea surface temperature and surface wind fields associated with the Southern oscillation/El Niño. Mon Weather Rev 110:354–384
Saji NH, Goswami BN, Vinayachandran PN, Yamagata T (1999) A dipole mode in the tropical Indian Ocean. Nature 401:360–363
Su J, Zhang R, Li T, Rong X, Kug J, Hong C-C (2010) Amplitude asymmetry of El Niño and La Niña in the eastern equatorial Pacific. J Clim 23:605–617
Suarez MJ, Schopf PS (1988) A delayed action oscillator for ENSO. J Atmos Sci 45:3283–3287
Wallace JM, Gutzler DS (1981) Teleconnections in the geopotential height field during the northern hemisphere winter. Mon Weather Rev 109:784–812
Walker GT (1924) Correlation in seasonal variations of weather, IX: A further study of world weather. Memoires of the Indian Meteorological Department, Calcutta 24:275–332
Wang B, Wu R, Fu X (2000) Pacific–East Asian teleconnection: how does ENSO affect East Asian climate? J Clim 13:1517–1536
Webster PJ, Moore AM, Loschnigg JP, Leben RR (1999) Coupled ocean–atmosphere dynamics in the Indian Ocean during 1997–98. Nature 401:356–360
Wu B, Li T, Zhou T (2010) Asymmetry of atmospheric circulation anomalies over the western North Pacific between El Niño and La Niña. J Clim 23:4807–4822
Xiang B, Wang B, Li T (2013) A new paradigm for the predominance of standing Central Pacific warming after the late 1990s. Clim Dyn 41:327–340
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Li, T., Hsu, Pc. (2018). Dynamics of El Niño–Southern Oscillation. In: Fundamentals of Tropical Climate Dynamics. Springer Atmospheric Sciences. Springer, Cham. https://doi.org/10.1007/978-3-319-59597-9_5
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DOI: https://doi.org/10.1007/978-3-319-59597-9_5
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