The part of the troposphere influenced by the surface of the earth is termed the atmospheric boundary layer. Flow within this layer is influenced by the roughness of the surface; rougher surfaces induce more turbulence than smoother surfaces and, hence, higher atmospheric transfer rates across the surface. Roughness elements also shield erodible particles, thus decreasing the transport of windblown particles. Therefore, the aerodynamic roughness length (z(sub 0)) is an important parameter in aeolian and atmospheric boundary layer processes as it describes the aerodynamic properties of the underlying surface. z(sub 0) is assumed to be independent of wind velocity or height, and dependent only on the surface topography. It is determined using...
The influence of mesoscale features (e.g., irrigation projects, desert regions, patches of forest, c...
The aerodynamic roughness length (Z0m) serves an important role in the flux exchange between the lan...
Kutzbach reports wind profiles over a series of roughness elements on a frozen lake and how the wind...
Surface roughness is a key parameter for surface-atmosphere exchanges of mass andenergy. Only a few ...
This study evaluates how well values of aerodynamic surface roughness, z sub 0, measured over scale ...
Surface roughness plays a key role in determining aerodynamic roughness length (zo) and shear veloci...
The relation between wind, momentum flux, roughness and land-use in disturbed, non-homogeneous bound...
A technique using multiple images from a single year to find surface roughness-based differences in ...
Aerodynamic roughness length (z(0)) and displacement height (d(0)) are important surface parameters ...
Estimates of the aerodynamic roughness lengths z0 in arid and semi-arid regions are for the first ti...
This study presents the results from a series of wind-tunnel experiments designed to investigate the...
Plains covered by gravel-dominated desert pavement in the Puna of Argentina have an aerodynamic roug...
The atmospheric boundary layer (ABL) height separates turbulently mixed air and pollutants emitted a...
Wind erosion and dust emission models are essential to estimate the lateral and vertical fluxes of c...
The influence of mesoscale features (e.g., irrigation projects, desert regions, patches of forest, c...
The aerodynamic roughness length (Z0m) serves an important role in the flux exchange between the lan...
Kutzbach reports wind profiles over a series of roughness elements on a frozen lake and how the wind...
Surface roughness is a key parameter for surface-atmosphere exchanges of mass andenergy. Only a few ...
This study evaluates how well values of aerodynamic surface roughness, z sub 0, measured over scale ...
Surface roughness plays a key role in determining aerodynamic roughness length (zo) and shear veloci...
The relation between wind, momentum flux, roughness and land-use in disturbed, non-homogeneous bound...
A technique using multiple images from a single year to find surface roughness-based differences in ...
Aerodynamic roughness length (z(0)) and displacement height (d(0)) are important surface parameters ...
Estimates of the aerodynamic roughness lengths z0 in arid and semi-arid regions are for the first ti...
This study presents the results from a series of wind-tunnel experiments designed to investigate the...
Plains covered by gravel-dominated desert pavement in the Puna of Argentina have an aerodynamic roug...
The atmospheric boundary layer (ABL) height separates turbulently mixed air and pollutants emitted a...
Wind erosion and dust emission models are essential to estimate the lateral and vertical fluxes of c...
The influence of mesoscale features (e.g., irrigation projects, desert regions, patches of forest, c...
The aerodynamic roughness length (Z0m) serves an important role in the flux exchange between the lan...
Kutzbach reports wind profiles over a series of roughness elements on a frozen lake and how the wind...