Author: Jones, Chris D.; Hickman, Jonathan E.; Rumbold, Steven T.; Walton, Jeremy; Lamboll, Robin D.; Skeie, Ragnhild B.; Fiedler, Stephanie; Forster, Piers M.; Rogelj, Joeri; Abe, Manabu; Botzet, Michael; Calvin, Katherine; Cassou, Christophe; Cole, Jason N.S.; Davini, Paolo; Deushi, Makoto; Dix, Martin; Fyfe, John C.; Gillett, Nathan P.; Ilyina, Tatiana; Kawamiya, Michio; Kelley, Maxwell; Kharin, Slava; Koshiro, Tsuyoshi; Li, Hongmei; Mackallah, Chloe; Müller, Wolfgang A.; Nabat, Pierre; van Noije, Twan; Nolan, Paul; Ohgaito, Rumi; Olivié, Dirk; Oshima, Naga; Parodi, Jose; Reerink, Thomas J.; Ren, Lili; Romanou, Anastasia; Séférian, Roland; Tang, Yongming; Timmreck, Claudia; Tjiputra, Jerry; Tourigny, Etienne; Tsigaridis, Kostas; Wang, Hailong; Wu, Mingxuan; Wyser, Klaus; Yang, Shuting; Yang, Yang; Ziehn, Tilo
Title: The Climate Response to Emissions Reductions Due to COVIDâ€19: Initial Results From CovidMIP Cord-id: 15q47bw5 Document date: 2021_4_28
ID: 15q47bw5
Snippet: Many nations responded to the corona virus diseaseâ€2019 (COVIDâ€19) pandemic by restricting travel and other activities during 2020, resulting in temporarily reduced emissions of CO(2), other greenhouse gases and ozone and aerosol precursors. We present the initial results from a coordinated Intercomparison, CovidMIP, of Earth system model simulations which assess the impact on climate of these emissions reductions. 12 models performed multiple initialâ€condition ensembles to produce over 30
Document: Many nations responded to the corona virus diseaseâ€2019 (COVIDâ€19) pandemic by restricting travel and other activities during 2020, resulting in temporarily reduced emissions of CO(2), other greenhouse gases and ozone and aerosol precursors. We present the initial results from a coordinated Intercomparison, CovidMIP, of Earth system model simulations which assess the impact on climate of these emissions reductions. 12 models performed multiple initialâ€condition ensembles to produce over 300 simulations spanning both initial condition and model structural uncertainty. We find model consensus on reduced aerosol amounts (particularly over southern and eastern Asia) and associated increases in surface shortwave radiation levels. However, any impact on nearâ€surface temperature or rainfall during 2020–2024 is extremely small and is not detectable in this initial analysis. Regional analyses on a finer scale, and closer attention to extremes (especially linked to changes in atmospheric composition and air quality) are required to test the impact of COVIDâ€19â€related emission reductions on nearâ€term climate.
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