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View article: German methane fluxes estimated top-down using ICON–ART – Part 2: Inversion results for 2021
German methane fluxes estimated top-down using ICON–ART – Part 2: Inversion results for 2021 Open
A reliable quantification of greenhouse gas emissions is important for climate change mitigation strategies. Inverse methods based on observations and atmospheric transport simulations can support emission quantification at the national sc…
View article: The Atmospheric Composition Component of the ICON modeling framework: ICON-ART version 2025.04
The Atmospheric Composition Component of the ICON modeling framework: ICON-ART version 2025.04 Open
Accurate and efficient modeling of atmospheric composition, including aerosols and trace gases and their interactions with radiation, clouds, and dynamics is essential for improving predictions of air quality, weather, climate, and related…
View article: German methane fluxes in 2021 estimated with an ensemble-enhanced scaling inversion based on the ICON–ART model
German methane fluxes in 2021 estimated with an ensemble-enhanced scaling inversion based on the ICON–ART model Open
A reliable quantification of greenhouse gas emissions is important for climate change mitigation strategies. Inverse methods based on observations and atmospheric transport simulations can support emission quantification down to the nation…
View article: Impacts of aerosol-cloud-radiation interactions on photovoltaic generation: case of Saharan dust outbreaks in March 202
Impacts of aerosol-cloud-radiation interactions on photovoltaic generation: case of Saharan dust outbreaks in March 202 Open
Aerosols interact with radiation and clouds and thereby disturb radiative budget and temperature structure in the atmosphere. To account for these effects, numerical weather prediction models rely on climatological mean concentrations. Thi…
View article: Saharan Dust and Solar Energy Generation in Europe: Case Study of June 2019
Saharan Dust and Solar Energy Generation in Europe: Case Study of June 2019 Open
<p>Aeolian dust, the most dominant atmospheric aerosol by mass, decreases the solar energy reaching the Earth surface by absorbing and scattering the solar radiation. This energy loss increases mainly with the dust concentration in t…