Evaluating ENSO teleconnections using observations and CMIP5 models

Roy, Indrani; Gagnon, Alexandre S.; Siingh, Devendraa

doi:10.1007/s00704-018-2536-z

Cited by 19 publications

(13 citation statements)

References 70 publications

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“…(Qiao et al 2013;Liu et al 2014;Song et al 2014) by incorporating the non-breaking surface wave vertical mixing (hereafter wave-induced mixing) into the model. In particularly, the model exhibits good performance in terms of ENSO diversity (Matveeva et al 2018), spatial distributions of SST peaks during El Niño events (Graham et al 2017), relationships between ENSO and the Northern Hemisphere polar region (Roy et al 2019), and ENSO predictions (Song et al 2015). However, it still suffers from similar ENSO simulation biases similar to those of other CMIP5 models (Bellenger et al 2014;Taschetto et al 2014;Yun et al 2016).…”

Section: Introductionmentioning

confidence: 90%

Analysis of ENSO simulation biases in FIO-ESM version 1.0

et al. 2019

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As the most significant interannual variability in the climate system, El Niño-Southern Oscillation (ENSO) has critical effects on global weather and climate patterns. To simulate and predict ENSO, coupled general circulation models (CGCMs) have become a key tool. However, the accurate simulation of ENSO is still a challenge for CGCMs. The performance of El Niño simulations conducted through FIO-ESM v1.0 is examined based on the outputs of the Coupled Model Intercomparsion Project phase 5 (CMIP5) historical experiments. The results show that FIO-ESM v1.0 suffers from similar common problems to other CMIP5 models, including an eastward shift in the central locations of El Niño, adopting a regular period of roughly 3 years, addressing excessively high amplitude, spurious eastward propagation of El Niño events, and Aborted El Niño events. El Niño composite and mixed layer heat budget analyses indicate that these simulation biases are mainly associated with the mean state biases, including a warm Sea Surface Temperature (SST) bias for the central-eastern Pacific, a cold SST bias for the western and central Pacific, seasonal cycles of SST of the equatorial eastern Pacific, and weaker trade winds. Weaker SST-cloud-shortwave radiation feedback in La Niña events than in El Niño events is what creates spurious ENSO amplitude symmetry in the model. We suggest that the improvement of El Niño simulations may be realized by focusing on the mean state and SST-cloud-shortwave radiation feedback in the tropical region. Specifically, further incremental improvements in the mean state of the tropical Pacific should constitute the first step to realizing more accurate ENSO simulation.

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Section: Introductionmentioning

confidence: 90%

Analysis of ENSO simulation biases in FIO-ESM version 1.0

et al. 2019

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“…The ENSO through teleconnection can affect various regions around the world (Roy et al 2018). It also influences seasonal precipitation in several places, among which the Indian Summer Monsoon (ISM) is an important one.…”

Section: Introductionmentioning

confidence: 99%

The role of natural factors (part 1): addressing on mechanism of different types of ENSO, related teleconnections and solar influence

Roy

Kripalani²

2018

Theor Appl Climatol

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The role of natural factors, mainly the sun, is explored on major tropospheric modes of variability in a holistic way. It formulates a flow chart, depicting coupling in the ocean-atmosphere system, initiated by solar decadal variability that involves El Niño Southern Oscillation (ENSO). Possible mechanisms for Canonic ENSO, Modoki ENSO and Canonic-Modoki ENSO are proposed considering their relevance to the decadal variation of Hadley, Walker circulation and mid-latitude jets. The upper stratospheric feature of the polar vortex is included too. Teleconnections by the ENSO on Indian Summer Monsoon (ISM) with a special emphasis on the later two decades of the last century is discussed. The disruption of usual ENSO-ISM teleconnection during that period is also attended. Subsequent analyses presented some results of solar signature which could possibly trigger different types of ENSO, agreeing with proposed mechanisms of the flow chart. It addressed the changing pattern of ENSO behaviour since the 1970s. The overall study can benefit the modelling community by an improved representation of ENSO in models and a better representation of ISM teleconnection via regional Hadley cell.

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“…It is noteworthy that in terms of tropical Pacific SST pattern, CMIP5 models can separate the canonical and Modoki ENSO features reasonably well (Taschetto, ; Roy et al , ; ). All models can show some evidence of both modes though some models are better than others.…”

Section: Resultsmentioning

confidence: 99%

ENSO teleconnections to the Indian summer monsoon under changing climate

Roy

Tedeschi

Collins

2019

Intl Journal of Climatology

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The teleconnection between the El Niño–Southern Oscillation (ENSO) and Indian summer monsoon rainfall is analysed in CMIP5 simulations in both historical and future scenario. A subset of models is selected, based on their ability to simulate mean rainfall and the ENSO teleconnection in the historical simulations, and those are used to examine future predictions in the central northeast region of India. For canonical and mixed canonical Modoki ENSO events, the rainfall teleconnection is spatially extended over most of India in the future. For pure Modoki ENSO events, the teleconnection disappears, and practically no influence is detected in any parts of India. Analysis of zonal wind at 200 mb indicates that for the Modoki events, there is a larger spread of changes across the models, while for canonical events there is more inter‐model consistency. A rainfall decomposition technique reveals a battle between changes in circulation which act to weaken the rainfall teleconnection and changes in moisture change which act to strengthen it. The picture is most consistent in the sub‐ensemble of models in the central northeast region but less consistent in regions covering southern India.

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Evaluating ENSO teleconnections using observations and CMIP5 models

Cited by 19 publications

References 70 publications

Analysis of ENSO simulation biases in FIO-ESM version 1.0

Analysis of ENSO simulation biases in FIO-ESM version 1.0

The role of natural factors (part 1): addressing on mechanism of different types of ENSO, related teleconnections and solar influence

ENSO teleconnections to the Indian summer monsoon under changing climate

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