ENSO regimes: Reinterpreting the canonical and Modoki El Niño

Takahashi, K.; Montecinos, Aldo; Goubanova, Katerina; Dewitte, Boris

doi:10.1029/2011gl047364

Cited by 491 publications

(652 citation statements)

References 34 publications

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“…This notion is supported by the Modoki-like pattern that arises from the summation of El Niño and La Niña SST composites, which is due to larger eastern Pacific SST anomalies during El Niño relative to La Niña (Hoerling et al 1997). Recently, Takahashi et al (2011) argued that ENSO events can be described by the superposition of two independent indices representing central and eastern Pacific ENSO variability.…”

Section: Introductionmentioning

confidence: 91%

Linear trends in sea surface temperature of the tropical Pacific Ocean and implications for the El Niño-Southern Oscillation

L’Heureux¹,

Collins²,

Hu³

2012

Clim Dyn

100

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A principal component decomposition of monthly sea surface temperature (SST) variability in the tropical Pacific Ocean demonstrates that nearly all of the linear trends during 1950-2010 are found in two leading patterns. The first SST pattern is strongly related to the canonical El Niño-Southern Oscillation (ENSO) pattern. The second pattern shares characteristics with the first pattern and its existence solely depends on the presence of linear trends across the tropical Pacific Ocean. The decomposition also uncovers a third pattern, often referred to as ENSO Modoki, but the linear trend is small and dataset dependent over the full 61-year record and is insignificant within each season. ENSO Modoki is also reflected in the equatorial zonal SST gradient between the Niño-4 region, located in the west-central Pacific, and the Niño-3 region in the eastern Pacific.

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Section: Introductionmentioning

confidence: 91%

Linear trends in sea surface temperature of the tropical Pacific Ocean and implications for the El Niño-Southern Oscillation

L’Heureux¹,

Collins²,

Hu³

2012

Clim Dyn

100

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“…The monthly HadISST v1.1 dataset (1870-2010) (Rayner et al 2003) is used for calculating SST anomalies and the E and C indices, as in Takahashi et al (2011). For this, we consider the first two normalized principal components (PC) of the equatorial Pacific (10 • S − 10 • N) SST anomalies and calculate the indices as E = (PC1 − PC2)/ √ 2 and C = (PC1 + PC2)/ √ 2.…”

Section: Observational Datamentioning

confidence: 99%

“…Stochastically forced linear models fitted to observations are able to capture some aspects of the ENSO diversity (e.g. Newman et al 2011b), but linear dynamics alone can not generate the nonlinear relation between the first two dominant statistical modes of equatorial Pacific SST anomalies, which has been proposed to emerge from dual EN regimes, with the 1982EN regimes, with the -1983EN regimes, with the and 1997EN regimes, with the -1998 events corresponding to different dynamics from the other EN (Takahashi et al 2011;Capotondi et al 2015).…”

Section: Introductionmentioning

confidence: 99%

“…Here we expand on previous studies (Takahashi et al 2011;Dommenget et al 2012) by investigating the possible existence and the nonlinear processes responsible for the ENSO regimes associated to strong and moderate EN events, using available observations and long-term simulations with the GFDL CM2.1 model. In this paper, we first describe the datasets and basic processing (Sect.…”

Section: Introductionmentioning

confidence: 99%

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Strong and moderate nonlinear El Niño regimes

2015

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nonlinearity could make the EN regimes very sensitive to stochastic forcing. Observations and model agree that the westerly wind stress anomaly in the central equatorial Pacific in late boreal summer has a substantial role determining the EN regime in the following winter and it is suggested that a stochastic component at this time was key for the development of the strong EN towards the end of 1982.

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“…Neelin et al 1998), recent research is focused on understanding the diversity among the individual events, for which a popular procedure is to classify these based on whether the maximum SST anomalies are predominantly found in the central or eastern Pacific (see review by Capotondi et al 2015), although this classification is somewhat arbitrary (Takahashi et al 2011). One possibly "true" distinct type of EN could consist of the extreme EN of 1982-83 and1997-98, as they appear to correspond to a different dynamical regime from the rest of EN due to the nonlinear activation of deep convection in the cold eastern Pacific (Takahashi et al 2011;Takahashi and Dewitte 2016). These extreme events have been associated with intense warming in the FEP and disproportionally large rainfall anomalies in the arid western coast of South America (e.g.…”

Section: Introductionmentioning

confidence: 99%

The very strong coastal El Niño in 1925 in the far-eastern Pacific

2017

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dynamics associated with the ITCZs, northerly winds, and the north-south SST asymmetry in the FEP lead to the enhancement of the seasonal cycle that produced this EN event. We propose that the cold conditions in the westerncentral equatorial Pacific, through its teleconnection effects on the FEP, helped destabilize the ITCZ and enhanced the meridional ocean-atmosphere feedback, as well as helping produce the very strong coastal rainfall. This is indicated by the nonlinear relation between the Piura river record at 5°S and the SST difference between the FEP and the westerncentral equatorial Pacific, a stability proxy. In summary, there are two types of EN events with very strong impacts in the FEP, both apparently associated with nonlinear convective feedbacks but with very different dynamics: the very strong warm ENSO events like 1982ENSO events like -1983ENSO events like and 1997ENSO events like -1998, and the very strong "coastal" EN events like 1925.

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ENSO regimes: Reinterpreting the canonical and Modoki El Niño

Cited by 491 publications

References 34 publications

Linear trends in sea surface temperature of the tropical Pacific Ocean and implications for the El Niño-Southern Oscillation

Linear trends in sea surface temperature of the tropical Pacific Ocean and implications for the El Niño-Southern Oscillation

Strong and moderate nonlinear El Niño regimes

The very strong coastal El Niño in 1925 in the far-eastern Pacific

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