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Weakening of the stratospheric polar vortex by Arctic sea-ice loss

Author

Listed:
  • Baek-Min Kim

    (Korea Polar Research Institute)

  • Seok-Woo Son

    (School of Earth and Environmental Sciences, Seoul National University)

  • Seung-Ki Min

    (School of Environmental Science and Engineering, Pohang University of Science and Technology)

  • Jee-Hoon Jeong

    (Chonnam National University)

  • Seong-Joong Kim

    (Korea Polar Research Institute)

  • Xiangdong Zhang

    (University of Alaska, Fairbanks)

  • Taehyoun Shim

    (Chonnam National University)

  • Jin-Ho Yoon

    (Pacific Northwest National Laboratory)

Abstract

Successive cold winters of severely low temperatures in recent years have had critical social and economic impacts on the mid-latitude continents in the Northern Hemisphere. Although these cold winters are thought to be partly driven by dramatic losses of Arctic sea-ice, the mechanism that links sea-ice loss to cold winters remains a subject of debate. Here, by conducting observational analyses and model experiments, we show how Arctic sea-ice loss and cold winters in extra-polar regions are dynamically connected through the polar stratosphere. We find that decreased sea-ice cover during early winter months (November–December), especially over the Barents–Kara seas, enhances the upward propagation of planetary-scale waves with wavenumbers of 1 and 2, subsequently weakening the stratospheric polar vortex in mid-winter (January–February). The weakened polar vortex preferentially induces a negative phase of Arctic Oscillation at the surface, resulting in low temperatures in mid-latitudes.

Suggested Citation

  • Baek-Min Kim & Seok-Woo Son & Seung-Ki Min & Jee-Hoon Jeong & Seong-Joong Kim & Xiangdong Zhang & Taehyoun Shim & Jin-Ho Yoon, 2014. "Weakening of the stratospheric polar vortex by Arctic sea-ice loss," Nature Communications, Nature, vol. 5(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms5646
    DOI: 10.1038/ncomms5646
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    Cited by:

    1. D. M. Smith & R. Eade & M. B. Andrews & H. Ayres & A. Clark & S. Chripko & C. Deser & N. J. Dunstone & J. García-Serrano & G. Gastineau & L. S. Graff & S. C. Hardiman & B. He & L. Hermanson & T. Jung , 2022. "Robust but weak winter atmospheric circulation response to future Arctic sea ice loss," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    2. Cook, Nikolai & Heyes, Anthony, 2020. "Brain freeze: outdoor cold and indoor cognitive performance," Journal of Environmental Economics and Management, Elsevier, vol. 101(C).
    3. Jennifer A. Francis & Stephen J. Vavrus & Judah Cohen, 2017. "Amplified Arctic warming and mid‐latitude weather: new perspectives on emerging connections," Wiley Interdisciplinary Reviews: Climate Change, John Wiley & Sons, vol. 8(5), September.
    4. Schlenker, Wolfram & Taylor, Charles A., 2021. "Market expectations of a warming climate," Journal of Financial Economics, Elsevier, vol. 142(2), pages 627-640.
    5. Xiaoting Sun & Qinghua Ding & Shih-Yu Simon Wang & Dániel Topál & Qingquan Li & Christopher Castro & Haiyan Teng & Rui Luo & Yihui Ding, 2022. "Enhanced jet stream waviness induced by suppressed tropical Pacific convection during boreal summer," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    6. Botao Zhou & Ziyi Song & Zhicong Yin & Xinping Xu & Bo Sun & Pangchi Hsu & Haishan Chen, 2024. "Recent autumn sea ice loss in the eastern Arctic enhanced by summer Asian-Pacific Oscillation," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    7. Suzuki, Mizuhiro, 2024. "Winter weather on exam dates and matriculation for a prestigious university in Japan," Economics Letters, Elsevier, vol. 237(C).

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