Friction velocity and aerodynamic roughness of conventional and undercutter tillage within the Columbia Plateau, USA

Friction velocity ( u * ) and aerodynamic roughness ( z o ) at the soil–plant–atmosphere interface affect wind erosion, but no attempts have been made to quantify these parameters as affected by tillage systems within the Columbia Plateau region of the Pacific Northwest United States. Wind velocity...

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Published in	Soil & tillage research Vol. 105; no. 2; pp. 236 - 241
Main Authors	Sharratt, Brenton, Feng, Guanglong
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 01.11.2009 [Amsterdam]: Elsevier Science Elsevier
Subjects	aerodynamics Agronomy. Soil science and plant productions Air quality atmospheric circulation Biological and medical sciences Conservation tillage conventional tillage crop rotation Cropping systems. Cultivation. Soil tillage Dust emissions fallow friction Fundamental and applied biological sciences. Psychology General agronomy. Plant production grain crops Soil erosion, conservation, land management and development Soil science Soil tillage soil-plant-atmosphere interactions stubble surface roughness Tillage. Tending. Growth control Triticum aestivum undercutter tillage Washington Wind erosion wind speed winter wheat Washington United States North America America Air quality Wind erosion Conservation tillage Dust emissions Dust Soil tillage Friction Roughness Soil science Aerodynamic characteristic Velocity
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ISSN	0167-1987 1879-3444
DOI	10.1016/j.still.2009.08.004

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Abstract	Friction velocity ( u * ) and aerodynamic roughness ( z o ) at the soil–plant–atmosphere interface affect wind erosion, but no attempts have been made to quantify these parameters as affected by tillage systems within the Columbia Plateau region of the Pacific Northwest United States. Wind velocity profiles above adjacent field plots (>2 ha), with plots subject to conventional or undercutter tillage during the summer fallow phase of a winter wheat–summer fallow rotation, were measured over 50 high wind events (wind velocities in excess of 6.4 m s −1 at a height of 3 m) during 2005 and 2006 near Lind, Washington to determine u * and z o of tillage treatments. Wheat stubble plots were subject to either conventional (disks) or undercutter (wide V-shaped blades) tillage in spring and then periodically rodweeded prior to sowing winter wheat in late summer. Prior to sowing, u * for conventional and undercutter tillage respectively averaged 0.36 and 0.46 m s −1 in 2005 and 0.38 and 0.40 m s −1 in 2006 while z o for conventional and undercutter tillage respectively averaged 2 and 7 mm in 2005 and 2 and 4 mm in 2006. The aerodynamically rougher surface of undercutter tillage was predicted to suppress vertical dust flux; this was collaborated with observations in the field where undercutter tillage reduced dust flux as compared with conventional disk tillage. Undercutter tillage, therefore, appears to be an effective management practice to roughen the surface and thereby suppress dust emissions from agricultural land subject to summer fallow within the Columbia Plateau.
AbstractList	Friction velocity ( u * ) and aerodynamic roughness (z o ) at the soil-plant-atmosphere interface affect wind erosion, but no attempts have been made to quantify these parameters as affected by tillage systems within the Columbia Plateau region of the Pacific Northwest United States. Wind velocity profiles above adjacent field plots (>2ha), with plots subject to conventional or undercutter tillage during the summer fallow phase of a winter wheat-summer fallow rotation, were measured over 50 high wind events (wind velocities in excess of 6.4ms⁻¹ at a height of 3m) during 2005 and 2006 near Lind, Washington to determine u * and z o of tillage treatments. Wheat stubble plots were subject to either conventional (disks) or undercutter (wide V-shaped blades) tillage in spring and then periodically rodweeded prior to sowing winter wheat in late summer. Prior to sowing, u * for conventional and undercutter tillage respectively averaged 0.36 and 0.46ms⁻¹ in 2005 and 0.38 and 0.40ms⁻¹ in 2006 while z o for conventional and undercutter tillage respectively averaged 2 and 7mm in 2005 and 2 and 4mm in 2006. The aerodynamically rougher surface of undercutter tillage was predicted to suppress vertical dust flux; this was collaborated with observations in the field where undercutter tillage reduced dust flux as compared with conventional disk tillage. Undercutter tillage, therefore, appears to be an effective management practice to roughen the surface and thereby suppress dust emissions from agricultural land subject to summer fallow within the Columbia Plateau. Friction velocity ( u * ) and aerodynamic roughness ( z o ) at the soil–plant–atmosphere interface affect wind erosion, but no attempts have been made to quantify these parameters as affected by tillage systems within the Columbia Plateau region of the Pacific Northwest United States. Wind velocity profiles above adjacent field plots (>2 ha), with plots subject to conventional or undercutter tillage during the summer fallow phase of a winter wheat–summer fallow rotation, were measured over 50 high wind events (wind velocities in excess of 6.4 m s −1 at a height of 3 m) during 2005 and 2006 near Lind, Washington to determine u * and z o of tillage treatments. Wheat stubble plots were subject to either conventional (disks) or undercutter (wide V-shaped blades) tillage in spring and then periodically rodweeded prior to sowing winter wheat in late summer. Prior to sowing, u * for conventional and undercutter tillage respectively averaged 0.36 and 0.46 m s −1 in 2005 and 0.38 and 0.40 m s −1 in 2006 while z o for conventional and undercutter tillage respectively averaged 2 and 7 mm in 2005 and 2 and 4 mm in 2006. The aerodynamically rougher surface of undercutter tillage was predicted to suppress vertical dust flux; this was collaborated with observations in the field where undercutter tillage reduced dust flux as compared with conventional disk tillage. Undercutter tillage, therefore, appears to be an effective management practice to roughen the surface and thereby suppress dust emissions from agricultural land subject to summer fallow within the Columbia Plateau.
Author	Sharratt, Brenton Feng, Guanglong
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Snippet	Friction velocity ( u * ) and aerodynamic roughness ( z o ) at the soil–plant–atmosphere interface affect wind erosion, but no attempts have been made to... Friction velocity ( u * ) and aerodynamic roughness (z o ) at the soil-plant-atmosphere interface affect wind erosion, but no attempts have been made to...
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SubjectTerms	aerodynamics Agronomy. Soil science and plant productions Air quality atmospheric circulation Biological and medical sciences Conservation tillage conventional tillage crop rotation Cropping systems. Cultivation. Soil tillage Dust emissions fallow friction Fundamental and applied biological sciences. Psychology General agronomy. Plant production grain crops Soil erosion, conservation, land management and development Soil science Soil tillage soil-plant-atmosphere interactions stubble surface roughness Tillage. Tending. Growth control Triticum aestivum undercutter tillage Washington Wind erosion wind speed winter wheat
Title	Friction velocity and aerodynamic roughness of conventional and undercutter tillage within the Columbia Plateau, USA
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