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Mid-latitude net precipitation decreased with Arctic warming during the Holocene

Author

Listed:
  • Cody C. Routson

    (Northern Arizona University)

  • Nicholas P. McKay

    (Northern Arizona University)

  • Darrell S. Kaufman

    (Northern Arizona University)

  • Michael P. Erb

    (Northern Arizona University)

  • Hugues Goosse

    (Université Catholique de Louvain, Earth and Life Institute, Georges Lemaître Center for Earth and Climate Research)

  • Bryan N. Shuman

    (University of Wyoming)

  • Jessica R. Rodysill

    (US Geological Survey)

  • Toby Ault

    (Cornell University)

Abstract

The latitudinal temperature gradient between the Equator and the poles influences atmospheric stability, the strength of the jet stream and extratropical cyclones1–3. Recent global warming is weakening the annual surface gradient in the Northern Hemisphere by preferentially warming the high latitudes4; however, the implications of these changes for mid-latitude climate remain uncertain5,6. Here we show that a weaker latitudinal temperature gradient—that is, warming of the Arctic with respect to the Equator—during the early to middle part of the Holocene coincided with substantial decreases in mid-latitude net precipitation (precipitation minus evapotranspiration, at 30° N to 50° N). We quantify the evolution of the gradient and of mid-latitude moisture both in a new compilation of Holocene palaeoclimate records spanning from 10° S to 90° N and in an ensemble of mid-Holocene climate model simulations. The observed pattern is consistent with the hypothesis that a weaker temperature gradient led to weaker mid-latitude westerly flow, weaker cyclones and decreased net terrestrial mid-latitude precipitation. Currently, the northern high latitudes are warming at rates nearly double the global average4, decreasing the Equator-to-pole temperature gradient to values comparable with those in the early to middle Holocene. If the patterns observed during the Holocene hold for current anthropogenically forced warming, the weaker latitudinal temperature gradient will lead to considerable reductions in mid-latitude water resources.

Suggested Citation

  • Cody C. Routson & Nicholas P. McKay & Darrell S. Kaufman & Michael P. Erb & Hugues Goosse & Bryan N. Shuman & Jessica R. Rodysill & Toby Ault, 2019. "Mid-latitude net precipitation decreased with Arctic warming during the Holocene," Nature, Nature, vol. 568(7750), pages 83-87, April.
    • Handle: RePEc:nat:nature:v:568:y:2019:i:7750:d:10.1038_s41586-019-1060-3
    DOI: 10.1038/s41586-019-1060-3
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    Cited by:

    1. Zhen Wang & Xiaokang Liu & Haichao Xie & Shengqian Chen & Jianhui Chen & Haipeng Wang & Meihong Ma & Fahu Chen, 2024. "Time-Transgressive Onset of Holocene Climate Optimum in Arid Central Asia and Its Association with Cultural Exchanges," Land, MDPI, vol. 13(3), pages 1-18, March.
    2. Wenchao Zhang & Haibin Wu & Jun Cheng & Junyan Geng & Qin Li & Yong Sun & Yanyan Yu & Huayu Lu & Zhengtang Guo, 2022. "Holocene seasonal temperature evolution and spatial variability over the Northern Hemisphere landmass," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    3. Gilmar Veriato Fluzer Santos & Lucas Gamalel Cordeiro & Claudio Antonio Rojo & Edison Luiz Leismann, 2022. "A Review of the Anthropogenic Global Warming Consensus: An Econometric Forecast Based on the ARIMA Model of Paleoclimate Series," Applied Economics and Finance, Redfame publishing, vol. 9(3), pages 102-112, August.
    4. Gilmar V. F. Santos & Lucas G. Cordeiro & Claudio A. Rojo & Edison L. Leismann, 2021. "A new look at the anthropogenic global warming consensus: an econometric forecast based on the ARIMA model of paleoclimate series," Papers 2109.10419, arXiv.org, revised Apr 2022.

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