Articles | Volume 4, issue 8
https://doi.org/10.5194/acp-4-2181-2004
© Author(s) 2004. This work is licensed under
the Creative Commons Attribution-NonCommercial-ShareAlike 2.5 License.
the Creative Commons Attribution-NonCommercial-ShareAlike 2.5 License.
https://doi.org/10.5194/acp-4-2181-2004
© Author(s) 2004. This work is licensed under
the Creative Commons Attribution-NonCommercial-ShareAlike 2.5 License.
the Creative Commons Attribution-NonCommercial-ShareAlike 2.5 License.
15 Nov 2004
Ozone loss and chlorine activation in the Arctic winters 1991-2003 derived with the tracer-tracer correlations
S. Tilmes
Institute of Stratospheric Research (ICG-I), Forschungszentrum Jülich, Germany
R. Müller
Institute of Stratospheric Research (ICG-I), Forschungszentrum Jülich, Germany
J.-U. Grooß
Institute of Stratospheric Research (ICG-I), Forschungszentrum Jülich, Germany
J. M. Russell III
Hampton University, Hampton, Virginia 23668, USA
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Cited
56 citations as recorded by crossref.
- Temperature thresholds for chlorine activation and ozone loss in the polar stratosphere K. Drdla & R. Müller
- A closer look at Arctic ozone loss and polar stratospheric clouds N. Harris et al.
- Quantifying Arctic lower stratospheric ozone sources in winter and spring C. Pan et al.
- The exceptional ozone depletion over the Arctic in January–March 2011 C. Varotsos et al.
- Impact of mesospheric intrusions on ozone‐tracer relations in the stratospheric polar vortex R. Müller et al.
- Atmospheric Aerosols: Composition, Transformation, Climate and Health Effects U. Pöschl
- Chemical ozone loss in the Arctic winter 1991–1992 S. Tilmes et al.
- Time-varying trends from Arctic ozonesonde time series in the years 1994–2022 K. Nilsen et al.
- Monthly averages of nitrous oxide and ozone for the Northern and Southern Hemisphere high latitudes: A “1‐year climatology” derived from ILAS/ILAS‐II observations F. Khosrawi et al.
- A study of ozone depletion in the 2004/2005 Arctic winter based on data from Odin/SMR and Aura/MLS J. Rösevall et al.
- Multimodel projections of stratospheric ozone in the 21st century V. Eyring et al.
- Attribution of recovery in lower‐stratospheric ozone E. Yang et al.
- Development of tracer relations and chemical ozone loss during the setup phase of the polar vortex S. Tilmes et al.
- Evaluation of Whole Atmosphere Community Climate Model simulations of ozone during Arctic winter 2004–2005 M. Brakebusch et al.
- Climate change favours large seasonal loss of Arctic ozone P. von der Gathen et al.
- Does Cosmic-Ray-Induced Heterogeneous Chemistry Influence Stratospheric Polar Ozone Loss? R. Müller & J. Grooß
- Comment on “Resonant dissociative electron transfer of the presolvated electron to CCl4 in liquid: Direct observation and lifetime of the CCl4∗− transition state” [J. Chem. Phys. 128, 041102 (2008)] R. Müller
- Critique of the tracer‐tracer correlation technique and its potential to analyze polar ozone loss in chemistry‐climate models C. Lemmen et al.
- Model simulations of stratospheric ozone loss caused by enhanced mesospheric NOx during Arctic Winter 2003/2004 B. Vogel et al.
- Ozone loss in the 2002–2003 Arctic vortex deduced from the assimilation of Odin/SMR O3 and N2O measurements: N2O as a dynamical tracer L. El Amraoui et al.
- Dynamical mechanisms for the recent ozone depletion in the Arctic stratosphere linked to North Pacific sea surface temperatures D. Hu et al.
- Simple measures of ozone depletion in the polar stratosphere R. Müller et al.
- Arctic winter 2005: Implications for stratospheric ozone loss and climate change M. Rex et al.
- Comment on "Cosmic-ray-driven reaction and greenhouse effect of halogenated molecules: Culprits for atmospheric ozone depletion and global climate change" R. Müller & J. Grooß
- Occurrence, latitudinal gradient and potential sources of perchlorate in the atmosphere across the hemispheres (31°N to 80°S) S. Jiang et al.
- Stratospheric ozone during the arctic winter: Brewer measurements in Ny-Ålesund C. Rafanelli et al.
- Future Arctic ozone recovery: the importance of chemistry and dynamics E. Bednarz et al.
- Severe ozone depletion in the cold Arctic winter 2004–05 M. von Hobe et al.
- Arctic ozone loss and climate sensitivity: Updated three‐dimensional model study M. Chipperfield et al.
- Evaluation of CLaMS, KASIMA and ECHAM5/MESSy1 simulations in the lower stratosphere using observations of Odin/SMR and ILAS/ILAS-II F. Khosrawi et al.
- A novel approach to predict the arctic stratospheric ozone from stratospheric polar vortex dynamics using explainable machine learning A. Kumar et al.
- The Unprecedented Ozone Loss in the Arctic Winter and Spring of 2010/2011 and 2019/2020 D. Ardra et al.
- Chemical ozone loss and related processes in the Antarctic winter 2003 based on Improved Limb Atmospheric Spectrometer (ILAS)–II observations S. Tilmes et al.
- Reply to: No evidence of worsening Arctic springtime ozone losses over the 21st century P. von der Gathen et al.
- Do cosmic-ray-driven electron-induced reactions impact stratospheric ozone depletion and global climate change? J. Grooß & R. Müller
- Ozone loss driven by nitrogen oxides and triggered by stratospheric warmings can outweigh the effect of halogens P. Konopka et al.
- Reply to comment by Rolf Müller and Simone Tilmes on “Middle atmospheric O3, CO, N2O, HNO3, and temperature profiles during the warm Arctic winter 2001–2002” G. Muscari & R. de Zafra
- Middle atmospheric O3, CO, N2O, HNO3, and temperature profiles during the warm Arctic winter 2001–2002 G. Muscari et al.
- Evaluation of heterogeneous processes in the polar lower stratosphere in the Whole Atmosphere Community Climate Model S. Tilmes et al.
- Chemical ozone loss in a chemistry‐climate model from 1960 to 1999 C. Lemmen et al.
- Sensitivity of Arctic ozone loss to stratospheric H2O T. Feck et al.
- Stratospheric ozone chemistry J. McConnell & J. Jin
- Polar Stratospheric Cloud Observations in the 2006/07 Arctic Winter by Using an Improved Micropulse Lidar C. Cordoba-Jabonero et al.
- The potential impact of ClOx radical complexes on polar stratospheric ozone loss processes B. Vogel et al.
- A climatology of polar stratospheric cloud composition between 2002 and 2012 based on MIPAS/Envisat observations R. Spang et al.
- Impact of a possible future global hydrogen economy on Arctic stratospheric ozone loss B. Vogel et al.
- Seasonal cycle of averages of nitrous oxide and ozone in the Northern and Southern Hemisphere polar, midlatitude, and tropical regions derived from ILAS/ILAS‐II and Odin/SMR observations F. Khosrawi et al.
- Characterization of Polar Stratospheric Clouds with spaceborne lidar: CALIPSO and the 2006 Antarctic season M. Pitts et al.
- Chemical ozone loss in the Arctic and Antarctic stratosphere between 1992 and 2005 S. Tilmes et al.
- Atmosphärische Aerosole: Zusammensetzung, Transformation, Klima‐ und Gesundheitseffekte U. Pöschl
- Stratospheric ozone loss in the Arctic winters between 2005 and 2013 derived with ACE-FTS measurements D. Griffin et al.
- Comment on “Middle atmospheric O3, CO, N2O, HNO3, and temperature profiles during the warm Arctic winter 2001–2002” by Giovanni Muscari et al. R. Müller & S. Tilmes
- Extreme ozone loss over the Northern Hemisphere high latitudes in the early 2011 J. Krzyścin
- Simulation of Record Arctic Stratospheric Ozone Depletion in 2020 J. Grooß & R. Müller
- Chemical ozone losses in Arctic and Antarctic polar winter/spring season derived from SCIAMACHY limb measurements 2002–2009 T. Sonkaew et al.
- Stratospheric chlorine processing after the 2020 Australian wildfires derived from satellite data P. Wang et al.
56 citations as recorded by crossref.
- Temperature thresholds for chlorine activation and ozone loss in the polar stratosphere K. Drdla & R. Müller
- A closer look at Arctic ozone loss and polar stratospheric clouds N. Harris et al.
- Quantifying Arctic lower stratospheric ozone sources in winter and spring C. Pan et al.
- The exceptional ozone depletion over the Arctic in January–March 2011 C. Varotsos et al.
- Impact of mesospheric intrusions on ozone‐tracer relations in the stratospheric polar vortex R. Müller et al.
- Atmospheric Aerosols: Composition, Transformation, Climate and Health Effects U. Pöschl
- Chemical ozone loss in the Arctic winter 1991–1992 S. Tilmes et al.
- Time-varying trends from Arctic ozonesonde time series in the years 1994–2022 K. Nilsen et al.
- Monthly averages of nitrous oxide and ozone for the Northern and Southern Hemisphere high latitudes: A “1‐year climatology” derived from ILAS/ILAS‐II observations F. Khosrawi et al.
- A study of ozone depletion in the 2004/2005 Arctic winter based on data from Odin/SMR and Aura/MLS J. Rösevall et al.
- Multimodel projections of stratospheric ozone in the 21st century V. Eyring et al.
- Attribution of recovery in lower‐stratospheric ozone E. Yang et al.
- Development of tracer relations and chemical ozone loss during the setup phase of the polar vortex S. Tilmes et al.
- Evaluation of Whole Atmosphere Community Climate Model simulations of ozone during Arctic winter 2004–2005 M. Brakebusch et al.
- Climate change favours large seasonal loss of Arctic ozone P. von der Gathen et al.
- Does Cosmic-Ray-Induced Heterogeneous Chemistry Influence Stratospheric Polar Ozone Loss? R. Müller & J. Grooß
- Comment on “Resonant dissociative electron transfer of the presolvated electron to CCl4 in liquid: Direct observation and lifetime of the CCl4∗− transition state” [J. Chem. Phys. 128, 041102 (2008)] R. Müller
- Critique of the tracer‐tracer correlation technique and its potential to analyze polar ozone loss in chemistry‐climate models C. Lemmen et al.
- Model simulations of stratospheric ozone loss caused by enhanced mesospheric NOx during Arctic Winter 2003/2004 B. Vogel et al.
- Ozone loss in the 2002–2003 Arctic vortex deduced from the assimilation of Odin/SMR O3 and N2O measurements: N2O as a dynamical tracer L. El Amraoui et al.
- Dynamical mechanisms for the recent ozone depletion in the Arctic stratosphere linked to North Pacific sea surface temperatures D. Hu et al.
- Simple measures of ozone depletion in the polar stratosphere R. Müller et al.
- Arctic winter 2005: Implications for stratospheric ozone loss and climate change M. Rex et al.
- Comment on "Cosmic-ray-driven reaction and greenhouse effect of halogenated molecules: Culprits for atmospheric ozone depletion and global climate change" R. Müller & J. Grooß
- Occurrence, latitudinal gradient and potential sources of perchlorate in the atmosphere across the hemispheres (31°N to 80°S) S. Jiang et al.
- Stratospheric ozone during the arctic winter: Brewer measurements in Ny-Ålesund C. Rafanelli et al.
- Future Arctic ozone recovery: the importance of chemistry and dynamics E. Bednarz et al.
- Severe ozone depletion in the cold Arctic winter 2004–05 M. von Hobe et al.
- Arctic ozone loss and climate sensitivity: Updated three‐dimensional model study M. Chipperfield et al.
- Evaluation of CLaMS, KASIMA and ECHAM5/MESSy1 simulations in the lower stratosphere using observations of Odin/SMR and ILAS/ILAS-II F. Khosrawi et al.
- A novel approach to predict the arctic stratospheric ozone from stratospheric polar vortex dynamics using explainable machine learning A. Kumar et al.
- The Unprecedented Ozone Loss in the Arctic Winter and Spring of 2010/2011 and 2019/2020 D. Ardra et al.
- Chemical ozone loss and related processes in the Antarctic winter 2003 based on Improved Limb Atmospheric Spectrometer (ILAS)–II observations S. Tilmes et al.
- Reply to: No evidence of worsening Arctic springtime ozone losses over the 21st century P. von der Gathen et al.
- Do cosmic-ray-driven electron-induced reactions impact stratospheric ozone depletion and global climate change? J. Grooß & R. Müller
- Ozone loss driven by nitrogen oxides and triggered by stratospheric warmings can outweigh the effect of halogens P. Konopka et al.
- Reply to comment by Rolf Müller and Simone Tilmes on “Middle atmospheric O3, CO, N2O, HNO3, and temperature profiles during the warm Arctic winter 2001–2002” G. Muscari & R. de Zafra
- Middle atmospheric O3, CO, N2O, HNO3, and temperature profiles during the warm Arctic winter 2001–2002 G. Muscari et al.
- Evaluation of heterogeneous processes in the polar lower stratosphere in the Whole Atmosphere Community Climate Model S. Tilmes et al.
- Chemical ozone loss in a chemistry‐climate model from 1960 to 1999 C. Lemmen et al.
- Sensitivity of Arctic ozone loss to stratospheric H2O T. Feck et al.
- Stratospheric ozone chemistry J. McConnell & J. Jin
- Polar Stratospheric Cloud Observations in the 2006/07 Arctic Winter by Using an Improved Micropulse Lidar C. Cordoba-Jabonero et al.
- The potential impact of ClOx radical complexes on polar stratospheric ozone loss processes B. Vogel et al.
- A climatology of polar stratospheric cloud composition between 2002 and 2012 based on MIPAS/Envisat observations R. Spang et al.
- Impact of a possible future global hydrogen economy on Arctic stratospheric ozone loss B. Vogel et al.
- Seasonal cycle of averages of nitrous oxide and ozone in the Northern and Southern Hemisphere polar, midlatitude, and tropical regions derived from ILAS/ILAS‐II and Odin/SMR observations F. Khosrawi et al.
- Characterization of Polar Stratospheric Clouds with spaceborne lidar: CALIPSO and the 2006 Antarctic season M. Pitts et al.
- Chemical ozone loss in the Arctic and Antarctic stratosphere between 1992 and 2005 S. Tilmes et al.
- Atmosphärische Aerosole: Zusammensetzung, Transformation, Klima‐ und Gesundheitseffekte U. Pöschl
- Stratospheric ozone loss in the Arctic winters between 2005 and 2013 derived with ACE-FTS measurements D. Griffin et al.
- Comment on “Middle atmospheric O3, CO, N2O, HNO3, and temperature profiles during the warm Arctic winter 2001–2002” by Giovanni Muscari et al. R. Müller & S. Tilmes
- Extreme ozone loss over the Northern Hemisphere high latitudes in the early 2011 J. Krzyścin
- Simulation of Record Arctic Stratospheric Ozone Depletion in 2020 J. Grooß & R. Müller
- Chemical ozone losses in Arctic and Antarctic polar winter/spring season derived from SCIAMACHY limb measurements 2002–2009 T. Sonkaew et al.
- Stratospheric chlorine processing after the 2020 Australian wildfires derived from satellite data P. Wang et al.
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