Sensitivity of El Niño intensity and timing to preceding subsurface heat magnitude
نویسندگان
چکیده
Despite extensive ongoing efforts on improving the long-term prediction of El Niño-Southern Oscillation, the predictability in state-of-the-art operational schemes remains limited by factors such as the spring barrier and the influence of atmospheric winds. Recent research suggests that the 2014/15 El Niño (EN) event was stalled as a result of an unusually strong basin-wide easterly wind burst in June, which led to the discharge of a large fraction of the subsurface ocean heat. Here we use observational records and numerical experiments to explore the sensitivity of EN to the magnitude of the heat buildup occurring in the ocean subsurface 21 months in advance. Our simulations suggest that a large increase in heat content during this phase can lead to basin-wide uniform warm conditions in the equatorial Pacific the winter before the occurrence of a very strong EN event. In our model configuration, the system compensates any initial decrease in heat content and naturally evolves towards a new recharge, resulting in a delay of up to one year in the occurrence of an EN event. Both scenarios substantiate the non-linear dependency between the intensity of the subsurface heat buildup and the magnitude and timing of subsequent EN episodes.
منابع مشابه
Title: 1 Timing of Subsurface Heat Magnitude for the Growth of El Niño Events 2 3 Authors: 4
28 29 The subsurface heat buildup in the western tropical Pacific and the recharge phase in 30 equatorial heat content are intrinsic elements of El Niño-Southern Oscillation, leading to changes in 31 zonal wind stress, sea surface temperature and thermocline tilt that characterize the growing and 32 mature phases of El Niño (EN) events. Here we use ocean and atmosphere reanalyses and numerical ...
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The subsurface heat buildup in the western tropical Pacific and the recharge phase in equatorial heat content are intrinsic elements of El Niño–Southern Oscillation, leading to changes in zonal wind stress, sea surface temperature, and thermocline tilt that characterize the growing andmature phases of El Niño (EN) events. Here we use numerical simulations to study the impact on subsequent EN ep...
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