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Recent intensification of wind-driven circulation in the Pacific and the ongoing warming hiatus

Author

Listed:
  • Matthew H. England

    (ARC Centre of Excellence for Climate System Science, University of New South Wales
    Climate Change Research Centre, University of New South Wales)

  • Shayne McGregor

    (ARC Centre of Excellence for Climate System Science, University of New South Wales
    Climate Change Research Centre, University of New South Wales)

  • Paul Spence

    (ARC Centre of Excellence for Climate System Science, University of New South Wales
    Climate Change Research Centre, University of New South Wales)

  • Gerald A. Meehl

    (National Center for Atmospheric Research Boulder Colorado 80307 USA)

  • Axel Timmermann

    (International Pacific Research Centre, University of Hawaii)

  • Wenju Cai

    (CSIRO Marine and Atmospheric Research Aspendale Victoria 3195 Australia)

  • Alex Sen Gupta

    (ARC Centre of Excellence for Climate System Science, University of New South Wales
    Climate Change Research Centre, University of New South Wales)

  • Michael J. McPhaden

    (NOAA/Pacific Marine Environmental Laboratory Seattle Washington 98115 USA)

  • Ariaan Purich

    (CSIRO Marine and Atmospheric Research Aspendale Victoria 3195 Australia)

  • Agus Santoso

    (ARC Centre of Excellence for Climate System Science, University of New South Wales
    Climate Change Research Centre, University of New South Wales)

Abstract

Despite ongoing increases in atmospheric greenhouse gases, the Earth’s global average surface air temperature has remained more or less steady since 2001. A variety of mechanisms have been proposed to account for this slowdown in surface warming. A key component of the global hiatus that has been identified is cool eastern Pacific sea surface temperature, but it is unclear how the ocean has remained relatively cool there in spite of ongoing increases in radiative forcing. Here we show that a pronounced strengthening in Pacific trade winds over the past two decades—unprecedented in observations/reanalysis data and not captured by climate models—is sufficient to account for the cooling of the tropical Pacific and a substantial slowdown in surface warming through increased subsurface ocean heat uptake. The extra uptake has come about through increased subduction in the Pacific shallow overturning cells, enhancing heat convergence in the equatorial thermocline. At the same time, the accelerated trade winds have increased equatorial upwelling in the central and eastern Pacific, lowering sea surface temperature there, which drives further cooling in other regions. The net effect of these anomalous winds is a cooling in the 2012 global average surface air temperature of 0.1–0.2 °C, which can account for much of the hiatus in surface warming observed since 2001. This hiatus could persist for much of the present decade if the trade wind trends continue, however rapid warming is expected to resume once the anomalous wind trends abate.

Suggested Citation

  • Matthew H. England & Shayne McGregor & Paul Spence & Gerald A. Meehl & Axel Timmermann & Wenju Cai & Alex Sen Gupta & Michael J. McPhaden & Ariaan Purich & Agus Santoso, 2014. "Recent intensification of wind-driven circulation in the Pacific and the ongoing warming hiatus," Nature Climate Change, Nature, vol. 4(3), pages 222-227, March.
    • Handle: RePEc:nat:natcli:v:4:y:2014:i:3:d:10.1038_nclimate2106
    DOI: 10.1038/nclimate2106
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    Cited by:

    1. Savin Chand & Scott Power & Kevin Walsh & Neil Holbrook & Kathleen McInnes & Kevin Tory & Hamish Ramsay & Ron Hoeke & Anthony S. Kiem, 2023. "Climate processes and drivers in the Pacific and global warming: a review for informing Pacific planning agencies," Climatic Change, Springer, vol. 176(2), pages 1-16, February.
    2. Omid Alizadeh, 2022. "Amplitude, duration, variability, and seasonal frequency analysis of the El Niño-Southern Oscillation," Climatic Change, Springer, vol. 174(3), pages 1-15, October.
    3. Xialong Ji & Andrew D. Gronewold & Houraa Daher & Richard B. Rood, 2019. "Modeling seasonal onset of coastal ice," Climatic Change, Springer, vol. 154(1), pages 125-141, May.
    4. Gregory McCabe & David Wolock, 2015. "Increasing Northern Hemisphere water deficit," Climatic Change, Springer, vol. 132(2), pages 237-249, September.
    5. Francisco Estrada & Richard S. J. Tol, 2015. "Toward Impact Functions For Stochastic Climate Change," Climate Change Economics (CCE), World Scientific Publishing Co. Pte. Ltd., vol. 6(04), pages 1-13, November.
    6. Zhang, Hui & Zhang, Xin & Shang, Yi & Kattel, Giri & Miao, Lijuan, 2021. "Continuously vegetation greening over Inner Mongolia for the past three decades," EconStor Open Access Articles and Book Chapters, ZBW - Leibniz Information Centre for Economics, vol. 13(13).
    7. Zheng, Chong-wei & Li, Xue-hong & Azorin-Molina, Cesar & Li, Chong-yin & Wang, Qing & Xiao, Zi-niu & Yang, Shao-bo & Chen, Xuan & Zhan, Chao, 2022. "Global trends in oceanic wind speed, wind-sea, swell, and mixed wave heights," Applied Energy, Elsevier, vol. 321(C).
    8. Bala Rajaratnam & Joseph Romano & Michael Tsiang & Noah Diffenbaugh, 2015. "Debunking the climate hiatus," Climatic Change, Springer, vol. 133(2), pages 129-140, November.
    9. Miao, Haozeyu & Dong, Danhong & Huang, Gang & Hu, Kaiming & Tian, Qun & Gong, Yuanfa, 2020. "Evaluation of Northern Hemisphere surface wind speed and wind power density in multiple reanalysis datasets," Energy, Elsevier, vol. 200(C).

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