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Reply to: No evidence of worsening Arctic springtime ozone losses over the 21st century.
- Published in:
- Nature Communications, 2023, v. 14, n. 1, p. 1, doi. 10.1038/s41467-023-37135-2
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- Article
A Lagrangian convective transport scheme including a simulation of the time air parcels spend in updrafts.
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- Geoscientific Model Development Discussions, 2019, p. 1, doi. 10.5194/gmd-2019-5
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- Publication type:
- Article
Stratospheric ozone loss in the Arctic winters between 2005 and 2013 derived with ACE-FTS measurements.
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- Atmospheric Chemistry & Physics, 2019, v. 19, n. 1, p. 577, doi. 10.5194/acp-19-577-2019
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- Article
Balloon-borne measurements of temperature, water vapor, ozone and aerosol backscatter on the southern slopes of the Himalayas during StratoClim 2016-2017.
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- Atmospheric Chemistry & Physics, 2018, v. 18, n. 21, p. 15937, doi. 10.5194/acp-18-15937-2018
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- Article
A quantitative analysis of the reactions involved in stratospheric ozone depletion in the polar vortex core.
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- Atmospheric Chemistry & Physics, 2017, v. 17, n. 17, p. 10535, doi. 10.5194/acp-17-10535-2017
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- Article
Chemical ozone loss in the Arctic and Antarctic stratosphere between 1992 and 2005.
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- Geophysical Research Letters, 2006, v. 33, n. 20, p. n/a, doi. 10.1029/2006GL026925
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- Article
Correction to 'Ozone loss rates in the Arctic stratosphere in the winter 1991/92: Model calculations compared with match results'.
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- Geophysical Research Letters, 1999, v. 26, n. 3, p. 327, doi. 10.1029/1999GL900010
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- Article
Ozone loss rates in the Arctic stratosphere in the winter 1991/92: Model calculations compared with match results.
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- Geophysical Research Letters, 1998, v. 25, n. 23, p. 4325, doi. 10.1029/1998GL900148
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- Publication type:
- Article
Climate change favours large seasonal loss of Arctic ozone.
- Published in:
- Nature Communications, 2021, v. 12, n. 1, p. 1, doi. 10.1038/s41467-021-24089-6
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- Article
Arctic sea ice anomalies during the MOSAiC winter 2019/20.
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- Cryosphere, 2022, v. 16, n. 3, p. 981, doi. 10.5194/tc-16-981-2022
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- Article
Arctic sea ice anomalies during the MOSAiC winter 2019/20.
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- Cryosphere Discussions, 2021, p. 1, doi. 10.5194/tc-2020-375
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- Article
Neural representation of the stratospheric ozone chemistry.
- Published in:
- Environmental Data Science, 2023, v. 2, p. 1, doi. 10.1017/eds.2023.35
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- Publication type:
- Article
Comparison of polar ozone loss rates simulated by one-dimensional and three-dimensional models with Match observations in recent Antarctic and Arctic winters.
- Published in:
- Journal of Geophysical Research. Atmospheres, 2007, v. 112, n. D12, p. n/a, doi. 10.1029/2006JD008370
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- Article
POAM III observations of arctic ozone loss for the 1999/2000 winter.
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- Journal of Geophysical Research. Atmospheres, 2002, v. 107, n. D20, p. SOL 5-1, doi. 10.1029/2001JD000476
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- Article
Ozone loss rates in the Arctic stratosphere in the winter 1994/1995: Model simulations underestimate results of the Match analysis.
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- Journal of Geophysical Research. Atmospheres, 2000, v. 105, n. D12, p. 15175, doi. 10.1029/2000JD900056
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- Publication type:
- Article
A test of our understanding of the ozone chemistry in the Arctic polar vortex based on in situ measurements of ClO, BrO, and O<sub>3</sub> in the 1994/1995 winter.
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- Journal of Geophysical Research. Atmospheres, 1999, v. 104, n. D15, p. 18755, doi. 10.1029/1999JD900287
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- Article
Overview of the MOSAiC expedition--Atmosphere.
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- Elementa: Science of the Anthropocene, 2022, v. 10, p. 1, doi. 10.1525/elementa.2021.00060
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- Publication type:
- Article
A Lagrangian convective transport scheme including a simulation of the time air parcels spend in updrafts (LaConTra v1.0).
- Published in:
- Geoscientific Model Development, 2019, v. 12, n. 10, p. 4387, doi. 10.5194/gmd-12-4387-2019
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- Publication type:
- Article
The Extrapolar SWIFT model (version 1.0): fast stratospheric ozone chemistry for global climate models.
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- Geoscientific Model Development, 2018, v. 11, n. 2, p. 753, doi. 10.5194/gmd-11-753-2018
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- Article
Update of the Polar SWIFT model for polar stratospheric ozone loss (Polar SWIFT version 2).
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- Geoscientific Model Development, 2017, v. 10, n. 7, p. 2671, doi. 10.5194/gmd-10-2671-2017
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- Publication type:
- Article
Air Mass Transport to the Tropical West Pacific Troposphere inferred from Ozone and Relative Humidity Balloon Observations above Palau.
- Published in:
- Atmospheric Chemistry & Physics Discussions, 2023, p. 1, doi. 10.5194/egusphere-2023-1518
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- Publication type:
- Article
Measurement Report: The Palau Atmospheric Observatory and its Ozonesonde Record - Continuous Monitoring of Tropospheric Composition and Dynamics in the Tropical West Pacific.
- Published in:
- Atmospheric Chemistry & Physics Discussions, 2023, p. 1, doi. 10.5194/egusphere-2023-1023
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- Article
Water vapour transport in the tropical tropopause region in coupled Chemistry-Climate Models and ERA-40 reanalysis data.
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- Atmospheric Chemistry & Physics, 2009, v. 9, n. 8, p. 2679, doi. 10.5194/acp-9-2679-2009
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- Article
The Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC).
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- Geophysical Research Abstracts, 2019, v. 21, p. 1
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- Publication type:
- Article
Balloon-borne Tropospheric Ozone Measurements from a New Station in Palau (Tropical West Pacific).
- Published in:
- Geophysical Research Abstracts, 2019, v. 21, p. 1
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- Publication type:
- Article
Assessing dynamical stratospheric processes in Northern Hemisphere winter simulated with ICON-NWP.
- Published in:
- Geophysical Research Abstracts, 2019, v. 21, p. 1
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- Publication type:
- Article
The Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC).
- Published in:
- Geophysical Research Abstracts, 2018, v. 20, p. 4370
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- Publication type:
- Article
Balloon-borne measurements of temperature, water vapor, ozone and aerosol backscatter at the southern slopes of the Himalayas during StratoClim 2016-2017.
- Published in:
- Atmospheric Chemistry & Physics Discussions, 2018, p. 1, doi. 10.5194/acp-2018-222
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- Publication type:
- Article
Stratospheric ozone loss in the Arctic winters between 2005 and 2013 derived with ACE-FTS measurements.
- Published in:
- Atmospheric Chemistry & Physics Discussions, 2018, p. 1, doi. 10.5194/acp-2017-1075
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- Publication type:
- Article
A quantitative analysis of the reactions involved in stratospheric polar ozone depletion.
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- 2017
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- Publication type:
- Abstract
Unprecedented Arctic ozone loss in 2011.
- Published in:
- Nature, 2011, v. 478, n. 7370, p. 469, doi. 10.1038/nature10556
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- Article
Improved Circulation in the Northern Hemisphere by Adjusting Gravity Wave Drag Parameterizations in Seasonal Experiments With ICON‐NWP.
- Published in:
- Earth & Space Science, 2021, v. 8, n. 3, p. 1, doi. 10.1029/2021EA001676
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- Article
SIDEBAR A YEAR IN THE CHANGING ARCTIC SEA ICE.
- Published in:
- Oceanography, 2022, v. 35, n. 3, p. 224, doi. 10.5670/oceanog.2022.126
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- Article
Erratum to: The Quadrennial Ozone Symposium 2016.
- Published in:
- 2018
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- Erratum
The Quadrennial Ozone Symposium 2016.
- Published in:
- Advances in Atmospheric Sciences, 2017, v. 34, n. 3, p. 283, doi. 10.1007/s00376-016-6309-2
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- Article
Air mass transport to the tropical western Pacific troposphere inferred from ozone and relative humidity balloon observations above Palau.
- Published in:
- Atmospheric Chemistry & Physics, 2024, v. 24, n. 8, p. 4693, doi. 10.5194/acp-24-4693-2024
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- Publication type:
- Article
Measurement report: The Palau Atmospheric Observatory and its ozonesonde record – continuous monitoring of tropospheric composition and dynamics in the tropical western Pacific.
- Published in:
- Atmospheric Chemistry & Physics, 2024, v. 24, n. 4, p. 2169, doi. 10.5194/acp-24-2169-2024
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- Article
Prolonged stratospheric ozone loss in the 1995-96 Arctic winter.
- Published in:
- Nature, 1997, v. 389, n. 6653, p. 835, doi. 10.1038/39849
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- Article
Observational evidence for chemical ozone depletion over the Arctic in winter 1991-92.
- Published in:
- Nature, 1995, v. 375, n. 6527, p. 131, doi. 10.1038/375131a0
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- Publication type:
- Article