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DOI | 10.5194/acp-21-1105-2021 |
Climate-driven chemistry and aerosol feedbacks in CMIP6 Earth system models | |
Thornhill G.; Collins W.; Olivié D.; B. Skeie R.; Archibald A.; Bauer S.; Checa-Garcia R.; Fiedler S.; Folberth G.; Gjermundsen A.; Horowitz L.; Lamarque J.-F.; Michou M.; Mulcahy J.; Nabat P.; Naik V.; M. O'Connor F.; Paulot F.; Schulz M.; E. Scott C.; Séférian R.; Smith C.; Takemura T.; Tilmes S.; Tsigaridis K.; Weber J. | |
发表日期 | 2021 |
ISSN | 1680-7316 |
起始页码 | 1105 |
结束页码 | 1126 |
卷号 | 21期号:2 |
英文摘要 | Feedbacks play a fundamental role in determining the magnitude of the response of the climate system to external forcing, such as from anthropogenic emissions. The latest generation of Earth system models includes aerosol and chemistry components that interact with each other and with the biosphere. These interactions introduce a complex web of feedbacks that is important to understand and quantify. This paper addresses multiple pathways for aerosol and chemical feedbacks in Earth system models. These focus on changes in natural emissions (dust, sea salt, dimethyl sulfide, biogenic volatile organic compounds (BVOCs) and lightning) and changes in reaction rates for methane and ozone chemistry. The feedback terms are then given by the sensitivity of a pathway to climate change multiplied by the radiative effect of the change. We find that the overall climate feedback through chemistry and aerosols is negative in the sixth Coupled Model Intercomparison Project (CMIP6) Earth system models due to increased negative forcing from aerosols in a climate with warmer surface temperatures following a quadrupling of CO2 concentrations. This is principally due to increased emissions of sea salt and BVOCs which are sensitive to climate change and cause strong negative radiative forcings. Increased chemical loss of ozone and methane also contributes to a negative feedback. However, overall methane lifetime is expected to increase in a warmer climate due to increased BVOCs. Increased emissions of methane from wetlands would also offset some of the negative feedbacks. The CMIP6 experimental design did not allow the methane lifetime or methane emission changes to affect climate, so we found a robust negative contribution from interactive aerosols and chemistry to climate sensitivity in CMIP6 Earth system models. © 2021 Copernicus GmbH. All rights reserved. |
语种 | 英语 |
来源期刊 | Atmospheric Chemistry and Physics |
文献类型 | 期刊论文 |
条目标识符 | http://gcip.llas.ac.cn/handle/2XKMVOVA/168806 |
作者单位 | Department of Meteorology, University of Reading, Reading, United Kingdom; Norwegian Meteorological Institute, Oslo, Norway; Cicero - Centre for International Climate and Environmental Research Oslo, Oslo, Norway; Department of Chemistry, University of Cambridge, Cambridge, United Kingdom; National Centre for Atmospheric Science, Cambridge, United Kingdom; Nasa Goddard Institute for Space Studies, 2880 Broadway, New York, NY, United States; Laboratoire des Sciences du Climat et de l'Environnement, Ipsl, CEA-CNRS-UVSQ, Gif-sur-Yvette, France; Max-Planck-Institute for Meteorology, Hamburg, Germany; Met Office Hadley Centre, Exeter, United Kingdom; GFDL/NOAA, Princeton University, Princeton, NJ, United States; National Centre for Atmospheric Research, Boulder, CO, United States; Cnrm, Meteo-France, Toulouse, France; School of Earth and Environment, University of Leeds, Leeds, United Kingdom; Research Institute for Applied Mechanics, Kyushu University, Fukuoka, Japan; Center for Climate Systems Research, Colu... |
推荐引用方式 GB/T 7714 | Thornhill G.,Collins W.,Olivié D.,et al. Climate-driven chemistry and aerosol feedbacks in CMIP6 Earth system models[J],2021,21(2). |
APA | Thornhill G..,Collins W..,Olivié D..,B. Skeie R..,Archibald A..,...&Weber J..(2021).Climate-driven chemistry and aerosol feedbacks in CMIP6 Earth system models.Atmospheric Chemistry and Physics,21(2). |
MLA | Thornhill G.,et al."Climate-driven chemistry and aerosol feedbacks in CMIP6 Earth system models".Atmospheric Chemistry and Physics 21.2(2021). |
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