Numerical research of extreme wind-induced dust transport in a semi-arid human-impacted region of Mexico
Article
-
- Overview
-
- Research
-
- Identity
-
- Additional Document Info
-
- View All
-
Overview
abstract
-
A numerical research is carried out to investigate the regional impact of extreme wind-induced dust transport in the central-northern part of Mexico. In boreal winter, strong wind soil erosion processes occur in the arid zones of the Mexican highlands, as a consequence of land use change and land cover change. The effect of land use change and land cover change has consequences in the atmospheric circulation, by altering the balance in solar radiation, albedo, soil moisture and texture, aerodynamic roughness and other surface properties. The anthropogenic impact of land use change from natural vegetation to agriculture lands developed into land degradation and air quality loss by large dust fluxes into the atmosphere. To investigate the magnitude of these erosion processes, we carried out the numerical modeling of a strong dust storm during the passage of a cold front on 18 March 2008. An algorithm based on the friction velocity was implemented for estimating the flux of particulate matter less than 10μm (PM10) into the atmosphere. It was possible to show how the plume of high concentration of particulate matter propagates through the complex topography of the highland and of the Eastern Sierra Madre to reach large urban zones in the northern part of Mexico and Southern of Texas. In our numerical simulation we estimated roughly that the fraction of PM10 emitted during this event was of the order of 9162.72ton. A direct effect of dust particles is appreciated in the reduction of measured solar radiation. © 2011 Elsevier Ltd.
publication date
published in
Research
keywords
-
Dust characterization; Dust storm; Numerical modeling; PM10 Aerodynamic roughness; Anthropogenic impacts; Arid zones; Atmospheric circulation; Boreal winters; Cold front; Complex topographies; Dust flux; Dust particle; Dust storm; Dust transport; Erosion process; Friction velocity; High concentration; Land degradation; Land-cover change; Land-use change; Me-xico; Natural vegetation; Numerical modeling; Numerical research; Particulate Matter; PM10; Quality loss; Regional impacts; Semi arid; Soil erosion; Strong winds; Urban zones; Air quality; Arid regions; Climatology; Computer simulation; Erosion; Land use; Landforms; Numerical methods; Soil moisture; Solar radiation; Storms; Sun; Surface properties; Dust; agricultural land; air quality; albedo; algorithm; anthropogenic effect; arid region; atmospheric circulation; atmospheric plume; cold front; dust; dust storm; land cover; land degradation; land use change; numerical model; soil erosion; soil moisture; soil texture; solar radiation; topography; upland region; wind erosion; air quality; albedo; article; atmosphere; biodegradation; climate change; dust; environmental impact assessment; environmental parameters; friction; land use; mathematical model; Mexico; particle size; particulate matter; plume dispersion; priority journal; quantitative study; semiarid climate; soil erosion; soil moisture; soil texture; solar radiation; surface property; topography; transport kinetics; urban area; vegetation; velocity; wind; Mexico [North America]; Sierra Madre; Texas; United States
Identity
Digital Object Identifier (DOI)
Additional Document Info
start page
end page
volume
issue