[1] The Oslo chemical transport model (Oslo CTM2) is driven by meteorological data to model mineral dust during the Saharan Dust Experiment (SHADE) campaign in September 2000. Model calculations of the optical properties and radiative transfer codes are used to assess the direct radiative impact in the solar and terrestrial regions of the spectrum. The model calculations are compared to a wide range of measurements (satellite, ground-based, and aircraft) during the campaign. The model reproduces the main features during the SHADE campaign, including a large mineral dust storm. The optical properties and the vertical profiles are in reasonable agreement with the measurements. There is a very good agreement between the modeled radiative impac...
Atmospheric mineral dust particles exert significant direct radiative forcings and are important dri...
This study assesses the impact of dust on surface solar radiation focussing on an extreme dust event...
International audienceWe revise the direct radiative effect (DRE) of mineral dust aerosols in the sh...
[1] Aerosols are known to be important in determining Earth’s radiative balance. Dust aerosols are o...
Saharan Dust Experiment (SHADE) are used to quantify the effect of a strong dust outbreak on radianc...
A demonstration study to examine the feasibility of retrieving dust radiative effects based on combi...
[1] The radiative forcing associated with biomass burning aerosols has been calculated over West Afr...
Abstract. We used the comprehensive model system COSMO-ART to quantify the impact of mineral dust on...
International audienceThe Sahara desert is one of the principal worldwide sources of dust aerosol em...
The Sahara desert is the world's primary source of mineral dust aerosols and is known to be an impor...
A high-resolution global aerosol model (Oslo CTM2) driven by meteorological data and allowing a comp...
The new online NMMB/BSC-Dust model is intended to provide short to medium-range weather and dust for...
International audienceThis paper provides an introduction to the special section of the Journal of G...
Airborne mineral dust can influence the climate by altering the radiative properties of the atmosphe...
Realistic size equivalence and shape of Saharan mineral dust particles are derived from in-situ part...
Atmospheric mineral dust particles exert significant direct radiative forcings and are important dri...
This study assesses the impact of dust on surface solar radiation focussing on an extreme dust event...
International audienceWe revise the direct radiative effect (DRE) of mineral dust aerosols in the sh...
[1] Aerosols are known to be important in determining Earth’s radiative balance. Dust aerosols are o...
Saharan Dust Experiment (SHADE) are used to quantify the effect of a strong dust outbreak on radianc...
A demonstration study to examine the feasibility of retrieving dust radiative effects based on combi...
[1] The radiative forcing associated with biomass burning aerosols has been calculated over West Afr...
Abstract. We used the comprehensive model system COSMO-ART to quantify the impact of mineral dust on...
International audienceThe Sahara desert is one of the principal worldwide sources of dust aerosol em...
The Sahara desert is the world's primary source of mineral dust aerosols and is known to be an impor...
A high-resolution global aerosol model (Oslo CTM2) driven by meteorological data and allowing a comp...
The new online NMMB/BSC-Dust model is intended to provide short to medium-range weather and dust for...
International audienceThis paper provides an introduction to the special section of the Journal of G...
Airborne mineral dust can influence the climate by altering the radiative properties of the atmosphe...
Realistic size equivalence and shape of Saharan mineral dust particles are derived from in-situ part...
Atmospheric mineral dust particles exert significant direct radiative forcings and are important dri...
This study assesses the impact of dust on surface solar radiation focussing on an extreme dust event...
International audienceWe revise the direct radiative effect (DRE) of mineral dust aerosols in the sh...