Articles | Volume 16, issue 12
https://doi.org/10.5194/acp-16-7559-2016
© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
https://doi.org/10.5194/acp-16-7559-2016
© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
Strong modification of stratospheric ozone forcing by cloud and sea-ice adjustments
Department of Atmospheric and Oceanic Sciences, McGill University,
Montréal, Canada
Yongyun Hu
Department of Atmospheric and Oceanic Sciences, Peking University,
Beijing, China
Department of Atmospheric and Oceanic Sciences, McGill University,
Montréal, Canada
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Cited
18 citations as recorded by crossref.
- Widening and weakening of the Hadley circulation under global warming Y. Hu et al. 10.1016/j.scib.2018.04.020
- Analysis of the Antarctic Ozone Hole in November Z. WANG et al. 10.1175/JCLI-D-20-0906.1
- Stratospheric ozone loss-induced cloud effects lead to less surface ultraviolet radiation over the Siberian Arctic in spring Y. Xia et al. 10.1088/1748-9326/ac18e9
- Surface ocean current variations in the North Pacific related to Arctic stratospheric ozone T. Wang et al. 10.1007/s00382-022-06271-8
- Decadal changes in the relationship between Arctic stratospheric ozone and sea surface temperatures in the North Pacific T. Wang et al. 10.1016/j.atmosres.2023.106870
- Connections between Spring Arctic Ozone and the Summer Circulation and Sea Surface Temperatures over the Western North Pacific T. Wang et al. 10.1175/JCLI-D-19-0292.1
- Stratospheric Ozone Loss Enhances Summer Precipitation Over the Southern Slope of the Tibetan Plateau Y. Xia et al. 10.1029/2023GL103742
- Stratospheric Ozone-induced Cloud Radiative Effects on Antarctic Sea Ice Y. Xia et al. 10.1007/s00376-019-8251-6
- Assessment of pre-industrial to present-day anthropogenic climate forcing in UKESM1 F. O'Connor et al. 10.5194/acp-21-1211-2021
- Responses of Arctic sea ice to stratospheric ozone depletion J. Zhang et al. 10.1016/j.scib.2022.03.015
- Advances in the Researches of the Middle and Upper Atmosphere in China Z. CHEN et al. 10.11728/cjss2018.05.763
- Impacts of Stratospheric Ozone Extremes on Arctic High Cloud S. Maleska et al. 10.1175/JCLI-D-19-0867.1
- How Does Radiation Code Accuracy Matter? Y. Huang & Y. Wang 10.1029/2019JD030296
- The Surface Warming Attributable to Stratospheric Water Vapor in CO2‐Caused Global Warming Y. Wang & Y. Huang 10.1029/2020JD032752
- Influence of Stratospheric Ozone Changes on Stratospheric Temperature Trends in Recent Decades L. Zhou et al. 10.3390/rs14215364
- A Possible Role of Dust in Resolving the Holocene Temperature Conundrum Y. Liu et al. 10.1038/s41598-018-22841-5
- Significant Contribution of Severe Ozone Loss to the Siberian‐Arctic Surface Warming in Spring 2020 Y. Xia et al. 10.1029/2021GL092509
- Stratospheric Water Vapor Feedback Disclosed by a Locking Experiment Y. Huang et al. 10.1029/2020GL087987
18 citations as recorded by crossref.
- Widening and weakening of the Hadley circulation under global warming Y. Hu et al. 10.1016/j.scib.2018.04.020
- Analysis of the Antarctic Ozone Hole in November Z. WANG et al. 10.1175/JCLI-D-20-0906.1
- Stratospheric ozone loss-induced cloud effects lead to less surface ultraviolet radiation over the Siberian Arctic in spring Y. Xia et al. 10.1088/1748-9326/ac18e9
- Surface ocean current variations in the North Pacific related to Arctic stratospheric ozone T. Wang et al. 10.1007/s00382-022-06271-8
- Decadal changes in the relationship between Arctic stratospheric ozone and sea surface temperatures in the North Pacific T. Wang et al. 10.1016/j.atmosres.2023.106870
- Connections between Spring Arctic Ozone and the Summer Circulation and Sea Surface Temperatures over the Western North Pacific T. Wang et al. 10.1175/JCLI-D-19-0292.1
- Stratospheric Ozone Loss Enhances Summer Precipitation Over the Southern Slope of the Tibetan Plateau Y. Xia et al. 10.1029/2023GL103742
- Stratospheric Ozone-induced Cloud Radiative Effects on Antarctic Sea Ice Y. Xia et al. 10.1007/s00376-019-8251-6
- Assessment of pre-industrial to present-day anthropogenic climate forcing in UKESM1 F. O'Connor et al. 10.5194/acp-21-1211-2021
- Responses of Arctic sea ice to stratospheric ozone depletion J. Zhang et al. 10.1016/j.scib.2022.03.015
- Advances in the Researches of the Middle and Upper Atmosphere in China Z. CHEN et al. 10.11728/cjss2018.05.763
- Impacts of Stratospheric Ozone Extremes on Arctic High Cloud S. Maleska et al. 10.1175/JCLI-D-19-0867.1
- How Does Radiation Code Accuracy Matter? Y. Huang & Y. Wang 10.1029/2019JD030296
- The Surface Warming Attributable to Stratospheric Water Vapor in CO2‐Caused Global Warming Y. Wang & Y. Huang 10.1029/2020JD032752
- Influence of Stratospheric Ozone Changes on Stratospheric Temperature Trends in Recent Decades L. Zhou et al. 10.3390/rs14215364
- A Possible Role of Dust in Resolving the Holocene Temperature Conundrum Y. Liu et al. 10.1038/s41598-018-22841-5
- Significant Contribution of Severe Ozone Loss to the Siberian‐Arctic Surface Warming in Spring 2020 Y. Xia et al. 10.1029/2021GL092509
- Stratospheric Water Vapor Feedback Disclosed by a Locking Experiment Y. Huang et al. 10.1029/2020GL087987
Saved (preprint)
Latest update: 20 Nov 2024
Short summary
In this work, we discover a strong cloud radiative adjustment that affects the sign of the global surface temperature change in response to stratospheric ozone forcing. We believe this discovery is both interesting, in that our GCM experiments show that a global cooling can result from a warming forcing, and new, in that a strong cloud adjustment to ozone forcing, to the best of our knowledge, has not being documented before.
In this work, we discover a strong cloud radiative adjustment that affects the sign of the...
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