Increased occurrences of consecutive La Niña events under global warming

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  • Kessler, W. S. Is ENSO a cycle or a collection of occasions?. Geophys. Res. Lett. 29, 40-1– 40-4 (2002 ).

    Article

    Google Scholar

  • Capotondi, A. et al. Comprehending ENSO variety. Bull. Am. Meteorol. Soc. 96, 921– 938 (2015 ).

    Article
    ADS

    Google Scholar

  • Timmermann, A. et al. El Niño– Southern Oscillation intricacy. Nature 559, 535– 545 (2018 ).

    Article
    ADS
    CAS
    PubMed

    Google Scholar

  • DiNezio, P. N., Deser, C., Okumura, Y. & & Karspeck, A. Predictability of 2-year La Niñan occasions in a paired basic blood circulation version. Clim. Dyn. 49, 4237– 4261 (2017 ).

    Article

    Google Scholar

  • Wu, X., Okumura, Y. M. & & DiNezio, P. N. What manages the period of El Niño as well as La Niñan occasions? J. Clim. 32, 5941– 5965 (2019 ).

    Article
    ADS

    Google Scholar

  • Iwakiri, T. & & Watanabe, M. Mechanisms connecting multi-year La Niña with coming before solid El Niño. Sci. Rep. 11, 17465 (2021 ).

    Article
    ADS
    CAS
    PubMed
    PubMed Central

    Google Scholar

  • Park, J. H. et al. Mid‐latitude leading double‐dip La Niña. Int. J. Climatol. 41, E1353– E1370 (2021 ).

    Article

    Google Scholar

  • Cole, J. E. Multiyear La Niñan occasions as well as consistent dry spell in the adjoining USA. Geophys. Res. Lett. 29, 1647 (2002 ).

    Article
    ADS

    Google Scholar

  • Okumura, Y. M., DiNezio, P. N. & & Deser, C. Evolving influences of multiyear La Niñan occasions on climatic blood circulation as well as united state dry spell. Geophys. Res. Lett. 44, 11,614– 11,623 (2017 ).

    Article

    Google Scholar

  • Anderson, W., Seager, R., Baethgen, W. & & Walking Cane, M. Life process of agriculturally appropriate ENSO teleconnections in North as well as South America. Int. J. Climatol. 37, 3297– 3318 (2017 ).

    Article

    Google Scholar

  • Anderson, W. et al. Multi-year La Niñan occasions as well as multi-season dry spell in the Horn of Africa. J. Hydrometeorol. 24, 119– 131 (2022 ).

    Article
    ADS

    Google Scholar

  • Jong, B. T., Ting, M., Seager, R. & & Anderson, W. B. ENSO teleconnections as well as influence on United States summertime temperature level throughout a multiyear La Niña life process. J. Clim. 33, 6009– 6024 (2020 ).

    Article
    ADS

    Google Scholar

  • Lopes, A. B. et al. Multiyear La Niñan impacts on the rainfall in South America. Int. J. Climatol. 42, 9567– 9582 (2022 ).

    Article

    Google Scholar

  • Eyring, V. et al. Review of the Coupled Version Intercomparison Task Stage 6 (CMIP6) speculative style as well as company. Geosci. Version Dev. 9, 1937– 1958 (2016 ).

    Article
    ADS

    Google Scholar

  • McPhaden, M. J., Zebiak, S. E. & & Glantz, M. H. ENSO as an incorporating idea in planet scientific research. Scientific Research 314, 1740– 1745 (2006 ).

    Article
    ADS
    CAS
    PubMed

    Google Scholar

  • Cai, W. et al. Altering El Niño– Southern Oscillation in a warming environment. Nat. Rev. Planet. Environ. 2, 628– 644 (2021 ).

    Article

    Google Scholar

  • Okumura, Y. M. & & Deser, C. Crookedness in the period of El Niño as well as La Niña. J. Clim. 23, 5826– 5843 (2010 ).

    Article
    ADS

    Google Scholar

  • Hu, Z.-Z., Kumar, A., Xue, Y. & & Jha, B. Why were some La Niñas adhered to by an additional La Niña? Clim. Dyn. 42, 1029– 1042 (2013 ).

    Article

    Google Scholar

  • DiNezio, P. N. & & Deser, C. Nonlinear manages on the determination of La Niña. J. Clim. 27, 7335– 7355 (2014 ).

    Article
    ADS

    Google Scholar

  • Jones, N. Rare ‘three-way’ La Niñan environment occasion looks likely– what does the future hold? Nature 607, 21 (2022 ).

    Article
    ADS
    CAS
    PubMed

    Google Scholar

  • Raj Deepak, S. N. et al. Effect of multiyear La Niñan occasions on the South as well as Eastern Eastern summertime gale rains in monitorings as well as CMIP5 designs. Clim. Dyn. 52, 6989– 7011 (2019 ).

    Article

    Google Scholar

  • Prasanna, K. et al. Northeast gale rains irregularity over the southerly Peninsular India related to multiyear La Niñan occasions. Clim. Dyn. 53, 6265– 6291 (2019 ).

    Article

    Google Scholar

  • Bell, G. D. et al. Environment evaluation for 1998. Bull. Am. Meteorol. Soc. 80, S1– S48 (1999 ).

    Article

    Google Scholar

  • Jin, F. F. An equatorial sea recharge standard for ENSO. Component I: theoretical version. J. Atmos. Sci. 54, 811– 829 (1997 ).

    Article
    ADS

    Google Scholar

  • Geng, T., Cai, W., Wu, L. & & Yang, Y. Atmospheric convection controls genesis of ENSO crookedness. Geophys. Res. Lett. 46, 8387– 8396 (2019 ).

    Article
    ADS

    Google Scholar

  • Vimont, D. J., Alexander, M. A. & & Fontaine, A. Midlatitude excitation of exotic irregularity in the Pacific: the duty of thermodynamic combining as well as seasonality. J. Clim. 22, 518– 534 (2009 ).

    Article
    ADS

    Google Scholar

  • Kim, J.-W. & & Yu, J. Y. Solitary- as well as multi-year ENSO occasions managed by pantropical environment communications. npj Clim. Atmos. Sci. 5, 88 (2022 ).

    Article

    Google Scholar

  • Gill, A. E. Some basic services for heat‐induced exotic blood circulation. Q. J. R. Meteorol. Soc. 106, 447– 462 (1980 ).

    Article
    ADS

    Google Scholar

  • Fang, S. W. & & Yu, J. Y. A control of ENSO change intricacy by exotic Pacific suggest SSTs with tropical‐subtropical communication. Geophys. Res. Lett. 47, e2020GL087933 (2020 ).

    Article
    ADS

    Google Scholar

  • Stuecker, M. F. Taking another look at the Pacific meridional setting. Sci. Rep. 8, 3216 (2018 ).

    Article
    ADS
    PubMed
    PubMed Central

    Google Scholar

  • Amaya, D. J. The Pacific meridional setting as well as ENSO: an evaluation. Curr. Clim. Modification Rep. 5, 296– 307 (2019 ).

    Article

    Google Scholar

  • Chen, S., Chen, W., Wu, R., Yu, B. & & Graf, H. F. Prospective effect of coming before Aleutian Low variant on El Niño– Southern Oscillation throughout the complying with winter season. J. Clim. 33, 3061– 3077 (2020 ).

    Article
    ADS

    Google Scholar

  • Zhang, Y. et al. Climatic requiring of the Pacific Meridional Setting: exotic Pacific-driven versus interior irregularity. Geophys. Res. Lett. 49, e2022GL098148 (2022 ).

    ADS

    Google Scholar

  • Xie, S.-P. & & Philander, S. G. H. A paired ocean-atmosphere version of importance to the ITCZ in the eastern Pacific. Tellus A 46, 340– 350 (1994 ).

    Article
    ADS

    Google Scholar

  • Mitchell, T. P. & & Wallace, J. M. The yearly cycle in equatorial convection as well as sea surface area temperature level. J. Clim. 5, 1140– 1156 (1992 ).

    Article
    ADS

    Google Scholar

  • Cai, W. et al. Boosting regularity of severe El Niño occasions because of greenhouse warming. Nat. Clim. Modification 4, 111– 116 (2014 ).

    Article
    ADS

    Google Scholar

  • Cai, W. et al. Enhanced irregularity of eastern Pacific El Niño under greenhouse warming. Nature 564, 201– 206 (2018 ).

    Article
    ADS
    CAS
    PubMed

    Google Scholar

  • Takahashi, K. & & Dewitte, B. Solid as well as modest nonlinear El Niño regimes. Clim. Dyn. 46, 1627– 1645 (2016 ).

    Article

    Google Scholar

  • Geng, T., Cai, W. & & Wu, L. 2 kinds of ENSO differing in tandem helped with by nonlinear climatic convection. Geophys. Res. Lett. 47, e2020GL088784 (2020 ).

    Article
    ADS

    Google Scholar

  • Choi, K.-Y., Vecchi, G. A. & & Wittenberg, A. T. ENSO change, period as well as amplitude crookedness: duty of the nonlinear wind stress and anxiety combining in a theoretical version. J. Clim. 26, 9462– 9476 (2013 ).

    Article
    ADS

    Google Scholar

  • Dommenget, D., Bayr, T. & & Frauen, C. Evaluation of the non-linearity in the pattern as well as time development of El Niño southerly oscillation. Clim. Dyn. 40, 2825– 2847 (2013 ).

    Article

    Google Scholar

  • Geng, T. et al. Introduction of altering Central-Pacific as well as Eastern-Pacific El Niño-Southern Oscillation in a warming environment. Nat. Commun. 13, 6616 (2022 ).

    Article
    ADS
    CAS
    PubMed
    PubMed Central

    Google Scholar

  • Bayr, T. & & Latif, M. ENSO climatic comments under worldwide warming as well as their connection to mean-state modifications. Clim. Dyn. 60, 2613– 2631 (2023 ).

    Article

    Google Scholar

  • Hayashi, M., Jin, F. F. & & Stuecker, M. F. Characteristics for El Niño-La Niña crookedness constrict equatorial-Pacific warming pattern. Nat. Commun. 11, 4230 (2020 ).

    Article
    ADS
    CAS
    PubMed
    PubMed Central

    Google Scholar

  • Wittenberg, A. T. Are historic documents enough to constrict ENSO simulations?. Geophys. Res. Lett. 36, L12702 (2009 ).

    Article
    ADS

    Google Scholar

  • Cai, W. et al. Butterfly impact as well as a self-modulating El Niño reaction to worldwide warming. Nature 585, 68– 73 (2020 ).

    Article
    ADS
    CAS
    PubMed

    Google Scholar

  • Chen, J. et al. Exotic as well as subtropical Pacific resources of the crooked El Niño-La Niña degeneration as well as their future modifications. Geophys. Res. Lett. 49, e2022GL097751 (2022 ).

    ADS

    Google Scholar

  • Hasan, N. A., Chikamoto, Y. & & McPhaden, M. J. The impact of exotic container communications on the 2020-22 double-dip La Niña. Front. Clim. 4, 1001174 (2022 ).

    Article

    Google Scholar

  • Intergovernmental Panel on Environment Modification (IPCC). Environment Modification 2021: The Physical Scientific Research Basis. Payment of Working Team I to the Sixth Analysis Record of the Intergovernmental Panel on Environment Modification (eds Masson-Delmotte, V. et al.) ( Cambridge Univ. Press, 2021 ).

  • Jia, F., Cai, W. &, Gan, B., Wu, L. & Di Lorenzo, E. Boosted North Pacific effect on El Niño/ Southern Oscillation under greenhouse warming. Nat. Clim. Modification 11, 840– 847 (2021 ).

    Article
    ADS

    Google Scholar

  • Follower, H., Yang, S., Wang, C., Wu, Y. & & Zhang, G. Fortifying amplitude as well as effect of the Pacific meridional setting on ENSO in the warming environment shown by CMIP6 designs. J. Clim. 35, 5195– 5213 (2022 ).

    Article
    ADS

    Google Scholar

  • Hu, K., Huang, G., Huang, P., Kosaka, Y. & & Xie, S. P. Aggravation of El Niño-induced climatic abnormalities under greenhouse warming. Nat. Geosci. 14, 377– 382 (2021 ).

    Article
    ADS
    CAS

    Google Scholar

  • Xie, R., Mu, M. & & Fang, X. New indices for much better understanding ENSO by integrating convection level of sensitivity to sea surface area temperature level. J. Clim. 33, 7045– 7061 (2020 ).

    Article
    ADS

    Google Scholar

  • Rayner, N. A. A. et al. Worldwide evaluations of sea surface area temperature level, sea ice, as well as evening aquatic air temperature level because the late 19th century. J. Geophys. Res. Atmos. 108, 4407 (2003 ).

    Article
    ADS

    Google Scholar

  • Huang, B. et al. Expanded rebuilt sea surface area temperature level, variation 5 (ERSSTv5): upgrades, recognitions, as well as intercomparisons. J. Clim. 30, 8179– 8205 (2017 ).

    Article
    ADS

    Google Scholar

  • Hirahara, S., Ishii, M. & & Fukuda, Y. Centennial-scale sea surface area temperature level evaluation as well as its unpredictability. J. Clim. 27, 57– 75 (2014 ).

    Article
    ADS

    Google Scholar

  • Kalnay, E. et al. The NCEP/NCAR 40-year reanalysis task. Bull. Am. Meteorol. Soc. 77, 437– 471 (1996 ).

    Article
    ADS

    Google Scholar

  • Cheng, L. et al. Enhanced price quotes of sea warmth web content from 1960 to 2015. Sci. Adv. 3, e1601545 (2017 ).

    Article
    ADS
    PubMed
    PubMed Central

    Google Scholar

  • Zuo, H., Balmaseda, M. A. & & Mogensen, K. The brand-new eddy‐permitting ORAP5 sea reanalysis: summary, examination as well as unpredictabilities in environment signals. Clim. Dyn. 49, 791– 811 (2017 ).

    Article

    Google Scholar

  • Lee, J. et al. Durable examination of ENSO in environment designs: the amount of set participants are required? Geophys. Res. Lett. 48, e2021GL095041 (2021 ).

    Article
    ADS

    Google Scholar

  • Cai, W. et al. Enhanced ENSO sea surface area temperature level irregularity under 4 IPCC exhaust situations. Nat. Clim. Modification 12, 228– 231 (2022 ).

    Article
    ADS

    Google Scholar

  • Maher, N. et al. The future of the El Niño-Southern Oscillation: making use of huge sets to light up time-varying reactions as well as inter-model distinctions. Planet Syst. Dyn. Review. 14, 413– 431 (2023 ).

    Article
    ADS

    Google Scholar

  • Seager, R. et al. Enhancing exotic Pacific zonal sea surface area temperature level slope constant with climbing greenhouse gases. Nat. Clim. Modification 9, 517– 522 (2019 ).

    Article
    ADS

    Google Scholar

  • Kennedy, J. J. A testimonial of unpredictability in sitting dimensions as well as information collections of sea surface area temperature level. Rev. Geophys. 52, 1– 32 (2014 ).

    Article
    ADS

    Google Scholar

  • Austin, P. C. & & Tu, J. V. Bootstrap approaches for establishing anticipating designs. Am. Stat. 58, 131– 137 (2004 ).

    Article
    MathSciNet
    MATH

    Google Scholar

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