ID:
publications-2042
Type:
Peer reviewed articles
Year:
2022
Authors:
Foteini Baladima, Jennie L. Thomas, Didier Voisin, Marie Dumont, Clementine Junquas, Rajesh Kumar, Christophe Lavaysse, Louis Marelle, Mark Parrington, Johannes Flemming
Title:
Modeling an extreme dust deposition event to the French alpine seasonal snowpack in April 2018Â : Meteorological context and predictions of dust deposition
Venue/Journal:
Journal of Geophysical Research : Atmospheres
DOI:
10.1029/2021jd035745
Research type:
Data Management & Analytics
Water System:
Precipitation & Ecological Systems
Technical Focus:
Abstract:
AbstractMineral dust is an important aerosol in the atmosphere and is known to reduce snow albedo upon deposition. Model predictions of dust deposition events in snow covered mountain regions are challenging due to the complexity of aerosolâcloud interactions and the specifics of mountain meteorological systems. We use a case study of dust deposition between 30 March and 5 April 2018 to the French alpine snowpack to study the processes that control dust deposition to the seasonal snowpack. To understand processes controlling dust transport and deposition to snow, we use a combination of in situ observations at Col du Lautaret in the French Alps, satellite remote sensing, the Copernicus Atmosphere Monitoring Service (CAMS) reanalysis global atmospheric composition, and the regional model WRFâChem. Specifically, we investigate the role of increased model spatial resolution within WRFâChem in capturing mountain meteorology, precipitation, and predicted dust deposition. Regional model results are also compared to the reanalysis global CAMS products including aerosols in the atmosphere and predicted dust deposition fluxes. We conclude that predicted mountain meteorology (e.g., precipitation) is better with increased model resolution (3Â ĂÂ 3Â km resolution WRFâChem domain). This improved meteorology has significant impacts on predicted dry and wet dust deposition to the alpine snowpack. Dry deposition is important in the western part of the French Alps at low altitudes, while wet deposition dominates over the complex higher altitude mountain terrain.
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949516
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