K. Takahashi scite author profile

El Niño events are characterized by surface warming of the tropical Pacific Ocean and weakening of equatorial trade winds that occur every few years. Such conditions are accompanied by changes in atmospheric and oceanic circulation, affecting global climate, marine and terrestrial ecosystems, fisheries and human activities. The alternation of warm El Niño and cold La Niña conditions, referred to as the El Niño-Southern Oscillation (ENSO), represents the strongest year-to-year fluctuation of the global climate system. Here we provide a synopsis of our current understanding of the spatio-temporal complexity of this important climate mode and its influence on the Earth system.

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ENSO regimes: Reinterpreting the canonical and Modoki El Niño

Takahashi

Montecinos

Goubanova³

et al. 2011

Geophys. Res. Lett.

501

546

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We propose that the first two empirical orthogonal function (EOF) modes of tropical Pacific sea surface temperature (SST) anomalies do not describe different phenomena (i.e., El Niño‐Southern Oscillation (ENSO) and “El Niño Modoki”) but rather the nonlinear evolution of ENSO. We introduce two new uncorrelated indices (E and C), based on the leading EOFs, that respectively account for extreme warm events in the eastern and cold/moderate warm events in the central equatorial Pacific, corresponding to regimes with different evolution. Recent trends in ENSO can be described as an increase in the central Pacific (C) variability that is associated with stronger cold events, as well as a reduction in the eastern Pacific (E) variability within the cold/moderate warm regime, consistent with model projections. However, little can be said observationally with respect to the extreme warm regime.

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ENSO and greenhouse warming

et al. 2015

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Probing the Fast and Slow Components of Global Warming by Returning Abruptly to Preindustrial Forcing

et al. 2010

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The fast and slow components of global warming in a comprehensive climate model are isolated by examining the response to an instantaneous return to preindustrial forcing. The response is characterized by an initial fast exponential decay with an e-folding time smaller than 5 yr, leaving behind a remnant that evolves more slowly. The slow component is estimated to be small at present, as measured by the global mean nearsurface air temperature, and, in the model examined, grows to 0.48C by 2100 in the A1B scenario from the Special Report on Emissions Scenarios (SRES), and then to 1.48C by 2300 if one holds radiative forcing fixed after 2100. The dominance of the fast component at present is supported by examining the response to an instantaneous doubling of CO 2 and by the excellent fit to the model's ensemble mean twentieth-century evolution with a simple one-box model with no long times scales.

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Record-breaking warming and extreme drought in the Amazon rainforest during the course of El Niño 2015–2016

Jiménez-Muñoz¹,

Mattar²,

Barichivich³

et al. 2016

Sci Rep

514

404

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The El Niño-Southern Oscillation (ENSO) is the main driver of interannual climate extremes in Amazonia and other tropical regions. The current 2015/2016 EN event was expected to be as strong as the EN of the century in 1997/98, with extreme heat and drought over most of Amazonian rainforests. Here we show that this protracted EN event, combined with the regional warming trend, was associated with unprecedented warming and a larger extent of extreme drought in Amazonia compared to the earlier strong EN events in 1982/83 and 1997/98. Typical EN-like drought conditions were observed only in eastern Amazonia, whilst in western Amazonia there was an unusual wetting. We attribute this wet-dry dipole to the location of the maximum sea surface warming on the Central equatorial Pacific. The impacts of this climate extreme on the rainforest ecosystems remain to be documented and are likely to be different to previous strong EN events.

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K. Takahashi

El Niño–Southern Oscillation complexity

ENSO regimes: Reinterpreting the canonical and Modoki El Niño

ENSO and greenhouse warming

Probing the Fast and Slow Components of Global Warming by Returning Abruptly to Preindustrial Forcing

Record-breaking warming and extreme drought in the Amazon rainforest during the course of El Niño 2015–2016

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