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Applied systems approach to wind erosion control engineering model

Paper Details

Short Communications 01/12/2011
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Applied systems approach to wind erosion control engineering model

Paul C Njoku, PI Anyanwu, Archna Swati Njoku
J. Biodiv. & Environ. Sci. 1(6), 179-183, December 2011.
Copyright Statement: Copyright 2011; The Author(s).
License: CC BY-NC 4.0

Abstract

This study deals with the supplied systems approach to wind erosion and control engineering. Many humid regions of the world are damaged by wind erosion, wind distribution with height; wind erosion types, mechanics and control engineering, estimation of wind have been treated.

Certificate Cover PDF

Bagnold RA. 1941. The Physics of Blown Sand and Desert Dunes. Methuen, London.

Chepil WS. 1944. Utilization of Crop Residues for Wind Erosion Control. Sci. Arg. 24, 307 – 319.

Chepil WS, Milne RA. 1941. Wind Erosion of Soil in Relation to Roughness of Surface. Soil Sci. 52, 417-413.

Chepil WS, Siddoway FH, Armbrust DV. 1962. Climate Factor for Estimating Wind Erodibility to Farm Fields. J. Soil Water Cons. 17(4), 162-165.

Engelhorn CL, Zigg AW, Woodruff NP. 1952. The Effects of Plant Residue Cover and Clod Structure on Soil Losses by Wind. Soil Sci. Soc. Am. Proc. 16, 29-33.

Hagen LJ. 1991 A Wind Erosion Prediction System to meet User Needs” J. Soil Water Cons. 46(2), 106-111.

Hallsted AL. Mathews OR. 1936. Soil Moisture and Winter Wheat with suggestions on Aboundonment. Kansas Arg. Expt. Sta. Bull. 273. Kansas state University, Manhattan.

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