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Elevated increases in human-perceived temperature under climate warming

Author

Listed:
  • Jianfeng Li

    (Hong Kong Baptist University
    The Chinese University of Hong Kong)

  • Yongqin David Chen

    (The Chinese University of Hong Kong
    The Chinese University of Hong Kong)

  • Thian Yew Gan

    (University of Alberta)

  • Ngar-Cheung Lau

    (The Chinese University of Hong Kong
    The Chinese University of Hong Kong)

Abstract

Changes in air temperature (AT), humidity and wind speed (Wind) affect apparent temperature (AP), the human-perceived equivalent temperature 1–3 . Here we show that under climate warming, both reanalysis data sets and Global Climate Model simulations indicate that AP has increased faster than AT over land. The faster increase in AP has been especially significant over low latitudes and is expected to continue in the future. The global land average AP increased at 0.04 °C per decade faster than AT before 2005. This trend is projected to increase to 0.06 °C (0.03–0.09 °C; minimum and maximum of the ensemble members) per decade and 0.17 °C (0.12–0.25 °C) per decade under the Representative Concentration Pathway 4.5 scenario (RCP4.5) and RCP8.5, respectively, and reduce to 0.02 °C (0–0.03 °C) per decade under RCP2.6 over 2006–2100. The higher increment in AP in summer daytime is more remarkable than in winter night-time and is most prominent over low latitudes. The summertime increases in AT-based thermal discomfort are projected to balance the wintertime decreases in AT-based discomfort over low and middle latitudes, while the summertime increases in AP-based thermal discomfort are expected to outpace the wintertime decreases in AP-based thermal discomfort. Effective climate change mitigation efforts to achieve RCP2.6 can considerably alleviate the faster increase in AP.

Suggested Citation

  • Jianfeng Li & Yongqin David Chen & Thian Yew Gan & Ngar-Cheung Lau, 2018. "Elevated increases in human-perceived temperature under climate warming," Nature Climate Change, Nature, vol. 8(1), pages 43-47, January.
    • Handle: RePEc:nat:natcli:v:8:y:2018:i:1:d:10.1038_s41558-017-0036-2
    DOI: 10.1038/s41558-017-0036-2
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    Cited by:

    1. Jan Altman & Kerstin Treydte & Vit Pejcha & Tomas Cerny & Petr Petrik & Miroslav Srutek & Jong-Suk Song & Valerie Trouet & Jiri Dolezal, 2020. "Tree growth response to recent warming of two endemic species in Northeast Asia," Climatic Change, Springer, vol. 162(3), pages 1345-1364, October.
    2. Zapata, Oscar, 2021. "The relationship between climate conditions and consumption of bottled water: A potential link between climate change and plastic pollution," Ecological Economics, Elsevier, vol. 187(C).
    3. Lei Jiang & Yongqin David Chen & Jianfeng Li & Cancan Liu, 2022. "Amplification of soil moisture deficit and high temperature in a drought-heatwave co-occurrence in southwestern China," Natural Hazards: Journal of the International Society for the Prevention and Mitigation of Natural Hazards, Springer;International Society for the Prevention and Mitigation of Natural Hazards, vol. 111(1), pages 641-660, March.
    4. Audrey Brouillet & Sylvie Joussaume, 2020. "More perceived but not faster evolution of heat stress than temperature extremes in the future," Climatic Change, Springer, vol. 162(2), pages 527-544, September.
    5. Mkaddem, Chamseddine & Mahjoubi, Soufiane, 2022. "Climate change and its impact on water consumption in Tunisia: Evidence from ARDL approach," MPRA Paper 115658, University Library of Munich, Germany, revised Dec 2022.

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