Page 133 - Soil Degradation, Conservation and Remediation
P. 133
References 121
Chepil WS (1957a) Width of field strips to control wind erosion, Technical bulletin 92. Kansas
Agricultural Experiment Station, Manhattan
Chepil WS (1957b) Sedimentary characteristics of dust storms: III. Composition of suspended
dust. Am J Sci 255:206–213
Chepil WS (1958) Soil conditions that influence wind erosion, Technical bulletin 1185. USDA,
Washington, DC
Chepil WS (1960) Conversion of relative field erodibility to annual soil loss by wind. Soil Sci Soc
Am Proc 24(2):143–145
Chepil WS, Milne RA (1941) Wind erosion of soil in relation to roughness of surface. Soil Sci
52:417–433
Chepil WS, Woodruff NP (1954) Estimations of wind erodibility of field surfaces. J Soil Water
Conserv 9:257–265
Chepil WS, Woodruff NP (1959) Estimations of wind erodibility of farm fields, Production
research report no. 25. USDA, Washington, DC
Chepil WS, Siddoway FH, Armbrust DV (1962) Climatic factor for estimating wind erodibility of
farm fields. J Soil Water Conserv 17:162–165
Chepil WS, Woodruff NP, Siddoway FH, Fryrear DW, Armbrust DV (1963) Vegetative and
non- vegetative materials to control wind and water erosion. Soil Sci Soc Am Proc 27:86–89
Craig DG, Turelle WJ (1964) Guide for wind erosion control on cropland in the Great Plains states.
USDA, SCS, Washington, DC
Dickerson JD, Woodruff NP, Banbury EE (1976) Techniques for improving survival and growth of
trees in semiarid areas. J Soil Water Conserv 31:63–66
Dong ZB (1994) Wind erosion loss model in a typical area in the desert/loess zone of North Shaanxi.
Ph.D. dissertation, Institute of Desert Research, Chinese Academy of Sciences, Liuzhou
Dong YX, Kang GD (1994) Study on the wind erosion climatic erosivity in arid and semi-arid
areas in China. J Soil Water Conserv 8(3):1–7
Dong ZB, Li ZS (1998) Wind erodibility of aeolian sand as influenced by grain size parameters.
J Soil Eros Soil Water Conserv 4(4):1–5
Dong GR, Li CZ, Jin J, Gao SY, Wu D (1987) Some results from wind erosion experiments by
wind tunnel. Chin Sci Bull 32:297–301
Dong ZB, Wang XM, Liu LY (2000) Wind erosion in arid and semiarid China: an overview. J Soil
Water Conserv 55(4):439–444
Englehorn CL, Zingg 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
FAO (1979) A provisional methodology for soil degradation assessment. Food and Agriculture
Organization of the United Nations, Rome
Ferber AE (1969) Windbreaks for conservation, Agriculture information bulletin no. 339. USDA-
SCS, Washington, DC
Fryrear DW (1969) Reducing wind erosion in the Southern Great Plains. Texas A and M University,
College Station
Fryrear DW (1984) Soil ridges-clods and wind erosion. Trans ASAE 27:445–448
Fullen MA, Mitchell DJ (1994) Desertification and reclamation in north-central China. Ambio
23:131–135
Gillette DA (1977) Fine-particle emissions due to wind erosion. Trans ASAE 20:890–897
Gillette DA, Walker TR (1977) Characteristics of airborne particles produced by wind erosion of
sandy soil, high plains of West Texas. Soil Sci 123:97–110
Gregory JM, Borrelli J (1986) The Texas Tech wind erosion equation. American Society of
Agricultural Engineers, Washington, DC. Paper no. 86-2528
Hagen LJ, Woodruff NP (1973) Air pollution from dust storms in the Great Plains. Atmos Environ
7:323–332
Hagen LJ, Skidmore EL, Dickerson JD (1972) Designing narrow strip barrier systems to control
wind erosion. J Soil Water Conserv 27:269–270
Hare FK (1983) Climate and desertification: a revised analysis, World climate program, report no. 44.
World Meteorological Organization, Geneva
