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Influence of the seasonal cycle on the termination of El Nino events in a coupled general circulation model

Lengaigne, M., Boulanger, J. P., Menkes, C. and Spencer, H. (2006) Influence of the seasonal cycle on the termination of El Nino events in a coupled general circulation model. Journal Of Climate, 19 (9). pp. 1850-1868. ISSN 1520-0442

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Abstract/Summary

In this study, the mechanisms leading to the El Nino peak and demise are explored through a coupled general circulation model ensemble approach evaluated against observations. The results here suggest that the timing of the peak and demise for intense El Nino events is highly predictable as the evolution of the coupled system is strongly driven by a southward shift of the intense equatorial Pacific westerly anomalies during boreal winter. In fact, this systematic late-year shift drives an intense eastern Pacific thermocline shallowing, constraining a rapid El Nino demise in the following months. This wind shift results from a southward displacement in winter of the central Pacific warmest SSTs in response to the seasonal evolution of solar insolation. In contrast, the intensity of this seasonal feedback mechanism and its impact on the coupled system are significantly weaker in moderate El Nino events, resulting in a less pronounced thermocline shallowing. This shallowing transfers the coupled system into an unstable state in spring but is not sufficient to systematically constrain the equatorial Pacific evolution toward a rapid El Nino termination. However, for some moderate events, the occurrence of intense easterly wind anomalies in the eastern Pacific during that period initiate a rapid surge of cold SSTs leading to La Nina conditions. In other cases, weaker trade winds combined with a slightly deeper thermocline allow the coupled system to maintain a broad warm phase evolving through the entire spring and summer and a delayed El Nino demise, an evolution that is similar to the prolonged 1986/87 El Nino event. La Nina events also show a similar tendency to peak in boreal winter, with characteristics and mechanisms mainly symmetric to those described for moderate El Nino cases.

Item Type:Article
Divisions:Faculty of Science > School of Mathematical and Physical Sciences > NCAS
Faculty of Science > School of Mathematical and Physical Sciences > Department of Meteorology
ID Code:5193
Uncontrolled Keywords:SEA-SURFACE TEMPERATURE WESTERLY WIND EVENTS MADDEN-JULIAN OSCILLATION SOUTHERN-OSCILLATION EQUATORIAL PACIFIC PHASE-LOCKING WARM-POOL LA-NINA ENSO OCEAN
Publisher:American Meteorological Society

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