|Warm Water Volume and ENSO|
El Niño/Southern Oscillation (ENSO) variability is intimately linked to
alternating stages of oceanic heat content build-up and discharge in the
tropical Pacific (Wyrtki, 1985; Cane et al, 1986; Zebiak, 1989). Jin
(1997) elegantly described the relationships between heat content, sea
surface temperature and zonal wind stress in his "Recharge Oscillator"
theory of ENSO. Recent studies of oceanic and atmospheric variability
have confirmed these relationships and elaborated on their implications
for understanding the dynamics of the ENSO cycle (Meinen and McPhaden,
2000; Kessler, 2002; Trenberth et al, 2002).
The predictability of ENSO likewise derives from deterministic wind-driven ocean dynamics that govern the slowly evolving heat content of the upper ocean (Latif et al, 1998). Inclusion of upper ocean temperature data in ENSO prediction schemes significantly improves forecast skill at multi-season lead times, particularly across the spring predictability barrier (Ji and Leetmaa, 1997; Clarke and Van Gorder, 2003; McPhaden, 2003). Equatorial Pacific heat content also is a useful predictor of Indian summer monsoon rainfall (Rajeevan and McPhaden, 2004).
A convenient index of equatorial Pacific heat content is the integrated warm water volume (WWV) above the 20°C isotherm between 5°N-5°S, 120°E to 80°W Meinen and McPhaden (2000). We have derived monthly WWV values from the Australian Bureau of Meteorology Research Center (BMRC) Ocean Analyses (Smith, 1995) which are based primarily on TAO/TRITON mooring data and ship-of-opportunity XBT data (http://www.bom.gov.au/bmrc/ocean/results/climocan.htm). Monthly anomalies are computed by removing a mean seasonal cycle for a base period of 1980-2002.
The WWV estimates made available on this page are updated weekly. All estimates can be downloaded as ASCII files and are plotted below. Also available are WWV values for just the eastern and western halves of the Pacific basin, variability of which is discussed in Meinen and McPhaden (2000). We thank Neville Smith and BMRC for routine production of the gridded thermal field analyses from which these WWV values are derived.
Please acknowledge the TAO Project Office of NOAA/PMEL if you use the WWV estimates in publications or presentations. We would also appreciate receiving a preprint and/or reprint of publications utilizing these data for inclusion in the TAO bibliography. Relevant publications should be sent to:
TAO Project Office
For further information, contact Michael.J.McPhaden@noaa.gov.
Cane, M. A., S. E. Zebiak, and S. C. Dolan, 1986: Experimental forecasts of El Niño. Nature, 321, 827-832.
Clarke A. J., and S. Van Gorder, 2003: Improving El Niño prediction using a space-time integration of Indo-Pacific winds and equatorial Pacific upper ocean heat content, Geophys. Res. Lett., 30 (7), 1399, doi:10.1029/2002GL016673.
Ji, M., and A. Leetmaa, 1997: Impact of data assimilation on ocean initialization and El Niño prediction, Mon. Weather Rev., 125, 742-753.
Jin, F. F., 1997: An equatorial recharge paradigm for ENSO. part I: Conceptual model, J. Atmos. Sci., 54, 811-829.
Kessler, W. S., 2002: Is ENSO a cycle or a series of events?, Geophys. Res. Lett., 29(23), 2125, doi:10.1029/2002GL015924.
Latif, M., D. Anderson, T. Barnett, M. Cane, R. Kleeman, A. Leetmaa, J. O'Brien, A. Rosati, and E. Schneider, 1998: A review of the predictability and prediction of ENSO, J. Geophys. Res., 103, 14,375 14,393, 1998.
McPhaden, M.J., 2003: Tropical Pacific Ocean heat content variations and ENSO persistence barriers, Geophys. Res. Lett., 30(9), 1480, doi:10.1029/2003GL016872.
Meinen, C.S. and M.J. McPhaden, 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.
Rajeevan, M. and M.J. McPhaden, 2004: Tropical Pacific upper ocean heat content variations and Indian summer monsoon rainfall, Geophys. Res. Lett., 31, L18203, doi:10.1029/2004GL020631.
Smith, N. R., 1995: An improved system for tropical ocean sub-surface temperature analyses, J. Atmos. Oceanic Technol., 12, 850-870.
Trenberth, K. E., J. M. Caron, D. P. Stepaniak and S. Worley, 2002: Evolution of El Niño Southern Oscillation and global atmospheric surface temperatures. J. Geophys. Res., 107(D8), 4065,10.1029/2000D000298.
Wyrtki, K., 1985: Water displacements in the Pacific and the genesis of El Niño cycles. J. Geophys. Res., 90, 7129-7132.
Zebiak, S., 1989: Ocean heat content variability and ENSO cycles, J. Phys.Oceanogr., 19, 475-485.
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