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Jet stream controls on European climate and agriculture since 1300 ce

Author

Listed:
  • Guobao Xu

    (Northwest University
    University of Arizona
    Chinese Academy of Sciences)

  • Ellie Broadman

    (University of Arizona)

  • Isabel Dorado-Liñán

    (Universidad Politécnica de Madrid)

  • Lara Klippel

    (Deutscher Wetterdienst)

  • Matthew Meko

    (University of Arizona)

  • Ulf Büntgen

    (University of Cambridge
    Czech Academy of Sciences (CzechGlobe)
    Swiss Federal Institute for Forest, Snow and Landscape Research WSL
    Masaryk University)

  • Tom Mil

    (University of Arizona
    University of Liège)

  • Jan Esper

    (Czech Academy of Sciences (CzechGlobe)
    Johannes Gutenberg University)

  • Björn Gunnarson

    (Stockholm University)

  • Claudia Hartl

    (Nature Rings – Environmental Research and Education
    Justus-Liebig-University)

  • Paul J. Krusic

    (University of Cambridge
    Stockholm University)

  • Hans W. Linderholm

    (University of Gothenburg)

  • Fredrik C. Ljungqvist

    (Stockholm University
    Stockholm University
    Linneanum)

  • Francis Ludlow

    (Trinity College Dublin)

  • Momchil Panayotov

    (University of Forestry)

  • Andrea Seim

    (University of Freiburg
    University of Innsbruck)

  • Rob Wilson

    (University of St Andrews)

  • Diana Zamora-Reyes

    (University of Arizona)

  • Valerie Trouet

    (University of Arizona
    Belgian Climate Centre)

Abstract

The jet stream is an important dynamic driver of climate variability in the Northern Hemisphere mid-latitudes1–3. Modern variability in the position of summer jet stream latitude in the North Atlantic–European sector (EU JSL) promotes dipole patterns in air pressure, temperature, precipitation and drought between northwestern and southeastern Europe. EU JSL variability and its impacts on regional climatic extremes and societal events are poorly understood, particularly before anthropogenic warming. Based on three temperature-sensitive European tree-ring records, we develop a reconstruction of interannual summer EU JSL variability over the period 1300–2004 ce (R2 = 38.5%) and compare it to independent historical documented climatic and societal records, such as grape harvest, grain prices, plagues and human mortality. Here we show contrasting summer climate extremes associated with EU JSL variability back to 1300 ce as well as biophysical, economic and human demographic impacts, including wildfires and epidemics. In light of projections for altered jet stream behaviour and intensified climate extremes, our findings underscore the importance of considering EU JSL variability when evaluating amplified future climate risk.

Suggested Citation

  • Guobao Xu & Ellie Broadman & Isabel Dorado-Liñán & Lara Klippel & Matthew Meko & Ulf Büntgen & Tom Mil & Jan Esper & Björn Gunnarson & Claudia Hartl & Paul J. Krusic & Hans W. Linderholm & Fredrik C. , 2024. "Jet stream controls on European climate and agriculture since 1300 ce," Nature, Nature, vol. 634(8034), pages 600-608, October.
    • Handle: RePEc:nat:nature:v:634:y:2024:i:8034:d:10.1038_s41586-024-07985-x
    DOI: 10.1038/s41586-024-07985-x
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