Articles | Volume 11, issue 6
https://doi.org/10.5194/acp-11-2503-2011
© Author(s) 2011. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
Special issue:
https://doi.org/10.5194/acp-11-2503-2011
© Author(s) 2011. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
Mesoscale convective systems observed during AMMA and their impact on the NOx and O3 budget over West Africa
H. Huntrieser
Institut für Physik der Atmosphäre, Deutsches Zentrum für Luft- und Raumfahrt (DLR), Oberpfaffenhofen, Germany
H. Schlager
Institut für Physik der Atmosphäre, Deutsches Zentrum für Luft- und Raumfahrt (DLR), Oberpfaffenhofen, Germany
M. Lichtenstern
Institut für Physik der Atmosphäre, Deutsches Zentrum für Luft- und Raumfahrt (DLR), Oberpfaffenhofen, Germany
P. Stock
Institut für Physik der Atmosphäre, Deutsches Zentrum für Luft- und Raumfahrt (DLR), Oberpfaffenhofen, Germany
T. Hamburger
Institut für Physik der Atmosphäre, Deutsches Zentrum für Luft- und Raumfahrt (DLR), Oberpfaffenhofen, Germany
H. Höller
Institut für Physik der Atmosphäre, Deutsches Zentrum für Luft- und Raumfahrt (DLR), Oberpfaffenhofen, Germany
K. Schmidt
nowcast GmbH, München, Germany
H.-D. Betz
nowcast GmbH, München, Germany
Physics Department, University of Munich, Germany
A. Ulanovsky
Central Aerological Observatory, Moscow, Russia
F. Ravegnani
Institute of Atmospheric Sciences and Climate (CNR-ISAC), Bologna, Italy
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Cited
23 citations as recorded by crossref.
- Implementation of an aerosol–cloud‐microphysics–radiation coupling into the NASA unified WRF: Simulation results for the 6–7 August 2006 AMMA special observing period J. Shi et al. 10.1002/qj.2286
- Estimates of lightning NOx production based on OMI NO2 observations over the Gulf of Mexico K. Pickering et al. 10.1002/2015JD024179
- On the origin of pronounced O3 gradients in the thunderstorm outflow region during DC3 H. Huntrieser et al. 10.1002/2015JD024279
- Simulating lightning NO production in CMAQv5.2: evolution of scientific updates D. Kang et al. 10.5194/gmd-12-3071-2019
- Quantification of water vapour transport from the Asian monsoon to the stratosphere M. Nützel et al. 10.5194/acp-19-8947-2019
- The roles of deep convection and extratropical mixing in the tropical tropopause layer: An in situ measurement perspective M. Sargent et al. 10.1002/2014JD022157
- Significant contribution of lightning NO to summertime surface O3 on the Tibetan Plateau M. Li et al. 10.1016/j.scitotenv.2022.154639
- Emission sources contributing to tropospheric ozone over Equatorial Africa during the summer monsoon I. Bouarar et al. 10.5194/acp-11-13395-2011
- The Deep Convective Clouds and Chemistry (DC3) Field Campaign M. Barth et al. 10.1175/BAMS-D-13-00290.1
- A statistical scheme to forecast the daily lightning threat over southern Africa using the Unified Model M. Gijben et al. 10.1016/j.atmosres.2017.04.022
- Measurement report: In situ observations of deep convection without lightning during the tropical cyclone Florence 2018 C. Nussbaumer et al. 10.5194/acp-21-7933-2021
- Airborne quantification of upper tropospheric NOx production from lightning in deep convective storms over the United States Great Plains I. Pollack et al. 10.1002/2015JD023941
- Observing U.S. Regional Variability in Lightning NO2 Production Rates J. Lapierre et al. 10.1029/2019JD031362
- Possible catalytic effects of ice particles on the production of NO<sub>x</sub> by lightning discharges H. Peterson & W. Beasley 10.5194/acp-11-10259-2011
- Tropospheric ozone precursors: global and regional distributions, trends, and variability Y. Elshorbany et al. 10.5194/acp-24-12225-2024
- The NASA Lightning Nitrogen Oxides Model (LNOM): Application to air quality modeling W. Koshak et al. 10.1016/j.atmosres.2012.12.015
- Multi-site tropospheric ozone measurements across the North Tropical Atlantic during the summer of 2010 G. Jenkins et al. 10.1016/j.atmosenv.2012.12.019
- Sensitivity of tropical tropospheric composition to lightning NOx production as determined by replay simulations with GEOS‐5 C. Liaskos et al. 10.1002/2014JD022987
- Injection of lightning‐produced NOx, water vapor, wildfire emissions, and stratospheric air to the UT/LS as observed from DC3 measurements H. Huntrieser et al. 10.1002/2015JD024273
- Cloud-resolving chemistry simulation of a Hector thunderstorm K. Cummings et al. 10.5194/acp-13-2757-2013
- Lightning NO x and Impacts on Air Quality L. Murray 10.1007/s40726-016-0031-7
- Convective transport of trace species observed during the Stratosphere‐Troposphere Analyses of Regional Transport 2008 experiment L. Siu et al. 10.1002/2015JD023645
- Lightning NOx Emissions: Reconciling Measured and Modeled Estimates With Updated NOx Chemistry B. Nault et al. 10.1002/2017GL074436
23 citations as recorded by crossref.
- Implementation of an aerosol–cloud‐microphysics–radiation coupling into the NASA unified WRF: Simulation results for the 6–7 August 2006 AMMA special observing period J. Shi et al. 10.1002/qj.2286
- Estimates of lightning NOx production based on OMI NO2 observations over the Gulf of Mexico K. Pickering et al. 10.1002/2015JD024179
- On the origin of pronounced O3 gradients in the thunderstorm outflow region during DC3 H. Huntrieser et al. 10.1002/2015JD024279
- Simulating lightning NO production in CMAQv5.2: evolution of scientific updates D. Kang et al. 10.5194/gmd-12-3071-2019
- Quantification of water vapour transport from the Asian monsoon to the stratosphere M. Nützel et al. 10.5194/acp-19-8947-2019
- The roles of deep convection and extratropical mixing in the tropical tropopause layer: An in situ measurement perspective M. Sargent et al. 10.1002/2014JD022157
- Significant contribution of lightning NO to summertime surface O3 on the Tibetan Plateau M. Li et al. 10.1016/j.scitotenv.2022.154639
- Emission sources contributing to tropospheric ozone over Equatorial Africa during the summer monsoon I. Bouarar et al. 10.5194/acp-11-13395-2011
- The Deep Convective Clouds and Chemistry (DC3) Field Campaign M. Barth et al. 10.1175/BAMS-D-13-00290.1
- A statistical scheme to forecast the daily lightning threat over southern Africa using the Unified Model M. Gijben et al. 10.1016/j.atmosres.2017.04.022
- Measurement report: In situ observations of deep convection without lightning during the tropical cyclone Florence 2018 C. Nussbaumer et al. 10.5194/acp-21-7933-2021
- Airborne quantification of upper tropospheric NOx production from lightning in deep convective storms over the United States Great Plains I. Pollack et al. 10.1002/2015JD023941
- Observing U.S. Regional Variability in Lightning NO2 Production Rates J. Lapierre et al. 10.1029/2019JD031362
- Possible catalytic effects of ice particles on the production of NO<sub>x</sub> by lightning discharges H. Peterson & W. Beasley 10.5194/acp-11-10259-2011
- Tropospheric ozone precursors: global and regional distributions, trends, and variability Y. Elshorbany et al. 10.5194/acp-24-12225-2024
- The NASA Lightning Nitrogen Oxides Model (LNOM): Application to air quality modeling W. Koshak et al. 10.1016/j.atmosres.2012.12.015
- Multi-site tropospheric ozone measurements across the North Tropical Atlantic during the summer of 2010 G. Jenkins et al. 10.1016/j.atmosenv.2012.12.019
- Sensitivity of tropical tropospheric composition to lightning NOx production as determined by replay simulations with GEOS‐5 C. Liaskos et al. 10.1002/2014JD022987
- Injection of lightning‐produced NOx, water vapor, wildfire emissions, and stratospheric air to the UT/LS as observed from DC3 measurements H. Huntrieser et al. 10.1002/2015JD024273
- Cloud-resolving chemistry simulation of a Hector thunderstorm K. Cummings et al. 10.5194/acp-13-2757-2013
- Lightning NO x and Impacts on Air Quality L. Murray 10.1007/s40726-016-0031-7
- Convective transport of trace species observed during the Stratosphere‐Troposphere Analyses of Regional Transport 2008 experiment L. Siu et al. 10.1002/2015JD023645
- Lightning NOx Emissions: Reconciling Measured and Modeled Estimates With Updated NOx Chemistry B. Nault et al. 10.1002/2017GL074436
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