Publication reprints can be requested at office@weru.ksu.edu. Specify the ID number when making a request.
Publications highlighted in blue are linkd to a PDF version of the publication.
ID
Publication
400
Chepil, W.S. Wind erosion control with shelterbelts in North China. Agron. J. 41:127-129; 1949.
402
Zingg, A.W. A study of the movement of surface wind. Agric. Engin. 30:11-13, 19; 1949.
403
Zingg, A.W. and W.S. Chepil. Aerodynamics of wind erosion. Agric. Engin. 31:279-282, 284; 1950.
410
Chepil, W.S. Properties of soil which influence wind erosion: I. The governing principle of surface roughness. Soil Sci. 69:149-162; 1950.
414
Chepil, W.S. Properties of soil which influence wind erosion: II. Dry aggregate structure as an index of erodibility. Soil Sci. 69:403-414; 1950.
417
Zingg, A.W. The intensity-frequency of Kansas winds. USDA, SCS-TP-88; April 1950.
420
Chepil, W.S. Methods of estimating apparent density of discrete soil grains and aggregates. Soil Sci. 70:351-362; 1950.
423
Chepil, W.S. Properties of soil which influence wind erosion: III. The effect of apparent density on erodibility. Soil Sci. 71:141-153; 1951.
424
Zingg, A.W. A portable wind tunnel and dust collector developed to evaluate the erodibility of field surfaces. Agron. J. 43:189-191; 1951.
425
Zingg, A.W. and N.P. Woodruff. Calibration of a portable wind tunnel for the simple determination of roughness and drag on field surfaces. Agron. J. 43:191-193; 1951.
429
Chepil, W.S. An air elutriator for determining the dry aggregate soil structure in relation to erodibility by wind. Soil Sci. 71:197-207; 1951.
431
Zingg, A.W. Evaluation of the erodibility of field surfaces with a portable wind tunnel. Soil Sci. Soc. Am. Proc. 15:11-17; 1951.
435
Chepil, W.S. Properties of soil which influence wind erosion: IV. State of dry aggregate structure. Soil Sci. 72:387-401; 1951.
443
Chepil, W.S. Properties of soil which influence wind erosion: V. Mechanical stability of structure. Soil Sci. 72:465-478; 1951.
444
Chepil, W.S. and C.L. Englehorn. Report on causes and effects of wind erosion in east-central Kansas in March 1950. Mimeographed distribution; April 2, 1951.
445
Zingg, A.W. Some characteristics of aeolian sand movement by saltation process. Editions du Centre National de la Recherche Scientifique 13, Quai Anatole France, Paris, (7e), pp. 197-208; 1953.
446
Zingg, A.W., N.P. Woodruff, and C.L. Englehorn. Effect of wind-row orientation on erodibility of land in sorghum stubble. Agron. J. 44:227-230; 1952.
448
Englehorn, C.L., A.W. Zingg, and N.P. Woodruff. The effects of plant residue cover and clod structure on soil loses by wind. Soil Sci. Proc. 16:29-33; 1952.
449
Chepil, W.S., C.L. Englehorn, and A.W. Zingg. The effects of cultivation on erodibility of soils by wind. Soil Sci. Soc. Am. Proc. 16:19-21; 1952.
450
Zingg, A.W., W.S. Chepil, and N.P. Woodruff. Sediment transportation mechanics: Wind erosion and transportation. In: Sedimentation Engineering, ASCE M & R No. 54, Chapt. II, pp. 230-245, New York, New York; 1975.
451
Chepil, W.S., A.W. Zingg, and N.P. Woodruff. Sediment measurement techniques: E. Airborne sediment. In: Sedimentation Engineering, ASCE M & R No. 54, Chapt III, pp. 389-401, New York, New York; 1975.
452
Chepil, W.S. Improved rotary sieve for measuring state and stability of dry soil structure. Soil Sci. Soc. Am. Proc. 16:113-117; 1952.
457
Woodruff, N.P. and A.W. Zingg. Wind-tunnel studies of fundamental problems related to windbreaks. USDA, SCS-TP-112; August 1952.
462
Chepil, W.S. Factors that influence clod structure and erodibility of soil by wind: I. Soil texture. Soil Sci. 75:473-483; 1953.
470
Zingg, A.W. Wind-tunnel studies of the movement of sedimentary material. Proc. of the Fifth Hydraulics Conference Bul. 34, State University of Iowa Studies in Engienering, pp. 111-135; 1953.
472
Chepil, W.S. Field structure of cultivated soils with special reference to erodibility by wind. Soil Sci. Soc. Am. Proc. 17:185-190; 1953.
473
Zingg, A.W. Discussion of paper entitled "The use of grass in the conservation program of New Zealand" by Douglas A. Campbell. Sixth Int'l. Grassland Congress, Sec. G., Soil and Water Conservation, Vol. II, pp. 1035-1037; August 1952: Penn State College, State College, PA.
474
Woodruff, N.P. and A.W. Zingg. Wind tunnel studies of shelterbelt models. J. Forestry 51:173-178; 1953.
475
Mazurak, A.P., A.W. Zingg, and W.S. Chepil. Effect of 39 years of cropping practices on wind erodibility and related properties of an irrigated Chestnut soil. Soil Sci. Soc. Am. Proc. 17:181-185; 1953.
476
Chepil, W.S. Factors that influence clod structure and erodibility of soil by wind: II. Water-stable structure. Soil Sci. 76:389-399; 1953.
481
Zingg, A.W. Speculations on climate as a factor in the wind erosion problem of the Great Plains. Trans. Kans. Academy of Sci. 56-371-377; 1953.
484
Zingg, A.W., W.S. Chepil, and N.P. Woodruff. Analyses of wind erosion phenomena in Roosevelt and Curry Counties, New Mexico. Published by Region VI, USDA, SCS, Albuquerque, New Mexico, M 436; May 1953.
488
Zingg, A.W. The wind erosion problem in the Great Plains. Trans. Am. Geophys. Union 35:252-258; 1954.
490
Chepil, W.S. The effect of synthetic conditioners on some phases of soil structure and erodibility by wind. Soil Sci. Soc. Am. Proc. 18:386-391; 1954.
492
Zingg, A.W. Material for Agricultural Engineering Handbook, Section 3: SOIL AND WATER, D. Erosion Control, 3. Erosion Control Practices, e. Wind erosion control; June 1953.
493
Chepil, W.S. Seasonal fluctuations in soil structure and erodibility of soil by wind. Soil Sci. Soc. Am. Proc. 18:13-16; 1954.
494
Chepil, W.S. Factors that influence clod structure and erodibility of soil by wind: III. Calcium carbonate and decomposed organic matter. Soil Sci. 77:473-480; 1954.
495
Woodruff, N.P. and A.W. Zingg. A comparative analysis of wind tunnel and atmospheric air flow patterns about single and successive barriers. Trans. Am. Geophys. Union 36:203-208; 1955.
5--
Woodruff, N.P. Barriers reduce wind velocity, evaporation, and control snow drifting. J. Soil and Water Conserv. 10:151; 1955.
503
Chepil, W.S., N.P. Woodruff, and A.W. Zingg. Field study of wind erosion in Western Texas. USDA, SCS-TP-125; February 1955.
504
Chepil, W.S. and N.P. Woodruff. Estimations of wind erodibility of field surfaces. J. Soil and Water Conserv. 9:257-265, 285; 1954.
505
Chepil, W.S. Effects of asphalt on some phases of soil structure and erodibility by wind. Soil Sci. Soc. Am. Proc. 19:125-128; 1955.
507
Woodruff, N.P. Shelterbelt and surface barrier effects on wind velocities, evaporation, house heating, snow drifting. Kans. Agr. Expt. Sta. Bul. 77, December, 1954.
516
Chepil, W.S. and N.P Woodruff. How to reduce dust storms. Kans. Agric. Expt. Stn. Cir. No. 318; March 1955.
517
Chepil, W.S. Factors that influence clod structure and erodibility of soil by wind: IV. Sand, silt, and clay. Soil Sci. 80:155-162; 1955.
519
Chepil, W.S. Influence of moisture on erodibility of soil by wind. Soil Sci. Soc. Am. Proc. 20:288-292; 1956.
524
Woodruff, N.P. The spacing interval for supplemental shelterbelts. J. Forestry 54:115-122; 1956.
525
Chepil, W.S. Factors that influence clod structure and erodibility of soil by wind: V. Organic matter at various stages of decomposition. Soil Sci. 80:413-421; 1955.
537
Chepil, W.S. Permanent methods of wind erosion control. The Kansas Crop Improvement Association Certified Seed Directory, pp. 66-67; Spring 1956.
Chepil, W.S. Width of field strips to control wind erosion. Kans. Agric. Expt. Sta. Tech. Bul. No. 92; December 1957.
6--
Lyles, L. and N.P. Woodruff. Moisture and tillage tools influence soil cloddiness. Crops and Soils 13(4):21; 1961.
6--
Chepil, W.S., N.P. Woodruff, F.H. Siddoway, and L. Lyles. Stabilization of soil surfaces for wind erosion control in relation to grass establishment. Dept. of the Navy, Bureau of Yards and Docks, Navdocks No. P-323. Washington, DC; June 1959.
6--
Chepil, W.S., N.P. Woodruff, F.H. Siddoway, and L. Lyles. Stabilization of soil surfaces against erosion by wind. Dept. of the Navy, Bureau of Yards and Docks, Navdocks Suppl. 1, P-323. Washington, DC; September 1960.
601
Hanks, R.J. and N.P. Woodruff. Influence of wind on water vapor transfer through soil, gravel, and straw mulches. Soil Sci. 86:160-164; 1958.
602
Chepil, W.S. and N.P. Woodruff. Estimations of wind erodibility of farm fields. USDA, ARS Prod. Res. Rpt. No. 25; March 1959.
606
Chepil, W.S. Agronomic trends and problems in the Great Plains: VII. Wind erosion problems. Advances in Agronomy 10:56-66; 1958.
609
Woodruff, N.P. and W.S. Chepil. Influence of one-way disk and subsurface-sweep tillage on factors affecting wind erosion. Trans. Am. Soc. Agric. Engin. 1:81-85; 1958.
614
Woodruff, N.P., R.A. Read, and W.S. Chepil. Influence of a field windbreak on summer wind movement and air temperature. Kans. Agric. Expt. Stn. Tech. Bul. No. 100; June 1959.
621
Chepil, W.S. Equilibrium of soil grains at the threshold of movement by wind. Soil Sci. Soc. Am. Proc. 23:422-428; 1959.
624
Chepil, W.S. and F.H. Siddoway. Strain-gage anemometer for analyzing various characteristics of wind turbulence. J. of Meteor. 16(4):411-418; 1959.
625
Chepil, W.S. Stripcropping for wind erosion control. Soil Conserv. Magazine 24:153-156; February 1959.
630
Chepil, W.S. Wind erodibility of farm fields. J. Soil and Water Conserv. 14(5):214-219; 1959.
642
Chepil, W.S., N.P. Woodruff, and F.H. Siddoway. Soil erosion by wind and measures for its control on agricultural lands. Part of F.A.O. Agricultural Development Paper No. 71, Rome; 1960.
646
Lyles, L. and N.P. Woodruff. How moisture and tillage affect soil cloddiness for wind erosion control. Agric. Engin. 43(3):150-153; 1962.
649
Chepil, W.S. Conversion of relative field erodibility to annual soil loss by wind. Soil Sci. Soc. Am. Proc. 24(2):143-145; 1960.
654
Chepil, W.S. How to determine required width of field strips to control wind erosion. J. Soil and Water Conserv. 15:72-75; 1960.
655
Lyles, L. and N.P. Woodruff. Moisture control techniques for experimental field plots. Agron. J. 52:298-299; 1960.
661
Hanks, R.J. and S.A. Bowers. Non-steady-state moisture, temperature, and soil air pressure approximation with an electric simulator. Soil Sci. Soc. Am. Proc. 24(4):247-252; 1960.
670
Lyles, L. and N.P. Woodruff. Abrasive action of windblown soil on plant seedlings. Agron. J. 52:533-536; 1960.
671
Chepil, W.S., N.P. Woodruff, and F.H. Siddoway. How to control soil blowing. USDA Farmers' Bul. No. 2169; July 1961.
679
Hanks, R.J. Soil crusting and seedling emergence. Seventh Intern. Congress of Soil Sci. 1:340-346; 1960.
680
Lyles, L. and N.P. Woodruff. Surface soil cloddiness in relation to soil density at time of tillage. Soil Sci. 91:178-182; 1961.
694
Hanks, R.J., S.A. Bowers, and L.D. Bark. Influence of soil surface conditions on net radiation, soil temperature, and evaporation. Soil Sci. 91(4):233-238; 1961.
Chepil, W.S., N.P. Woodruff, F.H. Siddoway, and L. Lyles. Anchoring vegetative mulches. Agric. Engin. 41(11):754-755, 759; 1960.
702
Chepil, W.S. The cycle of wind erosion. Proc. Seventh Intern. Congress of Soil Sci. 1:225-231; 1960.
703
Bowers, S.A. and R.J. Hanks. Effect of DDAC on evaporation and infiltration of soil moisture. Soil Sci. 92(5):340-346; 1961.
714
Chepil, W.S. A compact rotary sieve and the importance of dry sieving in physical soil analysis. Soil Sci. Soc. Am. Proc. 26(1):4-6; 1962.
715
Chepil, W.S. The use of spheres to measure lift and drag on wind-eroded soil grains. Soil Sci. Soc. Am. Proc. 25(5):343-345; 1961.
725
Woodruff, N.P., D.W. Fryrear, and L. Lyles. Engineering similitude and momentum transfer principles applied to shelterbelt studies. Trans. Am. Soc. Agric. Engin. 6(1):41-47; 1963.
729
Niles, J.S. A universal equation for measuring wind erosion. ARS Special Rpt. No. 22-69; June 1961.
731
Lyles, L. and N.P. Woodruff. Effects of moisture and soil packers on consolidation and cloddiness of soil. Trans. Am. Soc. Agric. Engin. 6(4):273-275; 1963.
746
Chepil, W.S., W.C. Moldenhauer, J.A. Hobbs, N.L. Nossaman, and H.M. Taylor. Deep plowing of sandy soil. USDA, ARS Prod. Res. Rpt. No. 64; December 1962.
Kemper, W.D. and W.S. Chepil. Size distribution of aggregates. ASA Monograph, Series No. 9, Methods of Soil Analysis, Part I, pp. 499-510; 1965.
761
Chepil, W.S., N.P. Woodruff, F.H. Siddoway, D.W. Fryrear, and D.V. Armbrust. Vegetative and nonvegetative materials to control wind and water erosion. Soil Sci. Soc. Am. Proc. 27(1):86-89; 1963.
763
Hanks, R.J. and S.A. Bowers. Numerical solution of the moisture flow equation for infiltration into layered soils. Soil Sci. Soc. Am. Proc. 26(6):530-534; 1962.
764
Bowers, S.A. and R.J. Hanks. Specific heat capacity of soils and minerals as determined with a radiation calorimeter. Soil Sci. 94(6):392-396; 1962.
767
Bowers, S.A., R.J. Hanks, and F.C. Stickler. Distribution of net radiation within sorghum plots. Agron. J. 55:204-205; 1963.
772
Chepil, W.S. Stubble mulching to control erosion. Proc. of the Great Plains Council Workshop on Stubble Mulch Farming, Lincoln, Nebraska; February 1962.
Fryrear, D.W. Sudangrass and sorghum make best wind barriers. Crops and Soils p. 23; March 1964.
9--
Woodruff, N.P. Residue maintenance by various types of farm machines. Prepared for "Guide for Wind Erosion Control on Cropland in the Great Plains States." USDA, SCS, pp. 96-97; July 1964.
9--
Woodruff, N.P. Windbreaks and other wind barriers for wind erosion control. Prepared for "Guide for Wind Erosion Control on Cropland in the Great Plains States." USDA, SCS, pp. 99-101; July 1964.
9--
Mech, S.J. and N.P Woodruff. Wind erosion on irrigated lands. Agron. Monograph No. 11, Irrigation of Agricultural Lands, Am. Soc. Agron. pp. 976-973; 1967.
9--
Anonymous. Can we utilize dust? Agric. Res. 13(11):13; May 1965.
9--
Lyles, L. Effect of dryland leveling on soil moisture storage and grain sorghum yield. Trans. Am. Soc. Agric. Engin. 10(4):523-525; 1967.
Twiss, P.C. Dust accumulation in the Great Plains. Conserv. Tillage Workshop Proc., Lincoln, Nebraska, Great Plains Agric. Counc. Pub. No. 32, pp. 137-137j; 1968.
Skidmore, E.L., H.S. Jacobs, L.J. Hagen, and W.L. Powers. Micrometeorological investigation of the energy budget: Effect of summer winds. Kans. Water Resources Res. Insti. Mimeo. Project Completion Rpt., 61 pp.; 1970.
11--
Woodruff, N.P. Closure "Sediment measurement techniques: E. Airborne sediment". J. Hydraulics Div., Proc. of ASCE, Vol. 97, No. HY1, Proc. Paper 7783, pp. 173-174; January 1971.
Armbrust, D.V. and J.D. Dickerson. Temporary wind erosion control: Cost and effectiveness of 34 commercial materials. J. Soil and Water Conserv. 26(4):154-157; 1971.
Greb, B.W., D.E. Smika, N.P. Woodruff, and C.J. Whitfield. Summer fallow in the Central Great Plains. USDA, ARS, Conserv. Research Rpt. No. 17, Chapt. 4, pp. 51-85; April 1974.
Greig, J.K., N. Bokhari, D.V. Armbrust, and L.C. Anderson. Residual effects of wind- and sandblast-damage on tomato plants at different stages of development. J. Am. Soc. Hort. Sci. 99(6):530-534; 1974.
Disrud, L.A. and L.T. Fan. A stochastic model for momentum transfer in wind erosion -- a surface renewal concept. In: ERDA Symp. Series No. 38, Atmosphere-Surface Exchange of Particulate and Gaseous Pollutants (1974), pp. 528-539; 1976.
1457
Manam, R., I.D. Teare, W.L. Powers, and E.L. Skidmore. Nitrate reductase activity of soybeans in relation to other indicators of water stress. ton 35(2):189-194, XI; 1977.
Lyles, L. and L.P. Swanson. Advances in wind and water erosion control. Proc. Conserv. Tillage Workshop, Great Plains Agric. Counc. Pub. No. 77, pp. 13-32, Fort Collins, Colorado; August 1976.
Precheur, R., J.K. Greig, and D.V. Armbrust. The effects of wind and wind-plus-sand on tomato plants (Lycopersicon esculentum L.). J. Am. Soc. Hort. Sci. 103(3):351-355, 1978.
Hagen, L.J. and M. Sharif. Design and field testing of a variable-speed VAWT system for low-lift irrigation pumping. In: USDA Wind Workshop Proc. "Wind Energy Applications in Agric." Ames, Iowa, pp. 87-104; May 1979.
79-328-A
Hagen, L.J., L. Lyles, E.L. Skidmore, and M. Sharif. Evaluation of methods for applying wind energy in Great Plains irrigation. In: USDA Wind Workshop Proc. "Wind Energy Applications in Agric." Ames, Iowa, pp. 42-66; May 1979.
Skidmore, E.L., L.J. Hagen, and I. Elminyawi. Wind barriers - breaking the wind. The Third International Windbreaks and Agroforestry Symposium Proc. pp. 71-73, Ridgetown College, Canada; 1991.
Hagen, L.J., Wagner, L.E. and Tatarko, J. Wind Erosion Prediction System (WEPS): Introduction. In: Wind Erosion Prediction System Technical Description. Proc, of WEPP/WEPS Symposium, August 9-11, 1995, Des Moines, IA. Soil and Water Conservation Society, Ankeny, IA.
95--
Hagen, L.J. Erosion submodel. In: Wind Erosion Prediction System Technical Description. Proc, of WEPP/WEPS Symposium, August 9-11, 1995, Des Moines, IA. Soil and Water Conservation Society, Ankeny, IA.
95--
Hagen, L.J. Wind Erosion Prediction System: Application to DOD Lands. Proc. f DOD/Interagency Workshop on Technologies to address soil erosion on DOD lands. Army Corp of Engineers, Vicksburg, MS, 1995.
Podsiadlowski, S. and Hagen, L.J. The influence of tillage energy on soil aggregation and susceptibility of loamy sands to wind erosion. In GEOFORMA Ediciones, Logronso Soil as a Strategic Resource: Degradation Processes and Conservation Measures, pp. 149-157. Department de Edafologia y Geologia Universidad de Laguna, 1998.
Skidmore, E.L., C. Valentin and J. Ingram. Soil Erosion Network. In J.M. Laflen, J. Tian and C-H. Huang (eds.) Soil erosion and dryland farming, Soil and Water Conservation Society, CRC Press, pp. 689-692, 2000.
Puma, M.C., Maghirang, R.G., Hosni, M.H. and Hagen, L.J. Modeling dust concentration distribution in a swine house under isothermal conditions. Trans. Amer. Soc. Agric. Engin. 42(6):1811-1821, 1999.
99-003-A
Retta, A., Armbrust, D.V., Hagen, L.J. and Skidmore, E.L. Development of plant growth parameters for WEPS (Wind Erosion Prediction System). In R.L. Vanderlip and S.M. Welch (eds.) 29th Annual Crop Simulation Workshop, March 22-24, 1999, Manhattan, KS, pp.18.
99-007-A
Hagen, L.J. Wind erosion processes in WEPS: Validation of erosion predictions on small fields. International ASAE meeting, Toronto, Canada July 18-21, 1999, ASAE paper no. 99-2036.
99-009-A
Nelson, R., A.B. Anderson and E.L. Skidmore. Evaluation of wind erosion models for use on military training lands. Proc. of Conference 31, International Erosion Control Association, February 21-25, 2000, Palm Springs, CA, pp. 387-388.
99-010-A
Huang, W, E.L. Skidmore and G. Tibke. Spatial variability of soil properties along transect of CRP and continuously cropped fields. Proc. of 10th International Soil Conservation Organization Conference, May 24-29, 1999, Purdue Univ., West Lafayette, IN.
Puma, M.C., R.G. Maghirang, M.H. Hosni and L.J. Hagen. Modeling of dust concentration distribution in a swine house under non-isothermal conditions. Trans. Amer. Soc. Agric. Engin. 42(6):1823-1832, 1999.
Armbrust, D.V. Influence of vegetation on soil loss by wind erosion. In D.E. Stott, R.H. Mohtar, and G.A. Steinhardt (eds.) Sustaining the Global Farm. . Proc. of 10th International Soil Conservation Organization Conference, May 24-29, 1999, Purdue Univ., West Lafayette, IN.
99-2036
Hagen, L.J. Wind erosion processes in WEPS: Validation of erosion predictions on small fields. International ASAE meeting, Toronto, Canada July 18-21, 1999, ASAE paper no. 99-2036.
00--
Retta, A., Hagen, L.J., Wagner, L.E., Armbrust, D.V., and Skidmore, E.L. Yield adjustment factor for WEPS (Wind Erosion Prediction System). Proc. of Modeling for the 21st Century: thirty years of crop modeling. Temple, TX, March 6-8, 2000.
00--
Skidmore, E.L. and L.J. Hagen, Air quality as influenced by wind erosion: Research at USDA-ARS, Manhattan, KS. Air Quality National Program Workshop, Sacramento, CA, January 25-28, 2000.
00--
Retta, A., Armbrust, D.V., Wagner, L.E., Skidmore, E.L. and Hagen, L.J. Simulation of biomass components of brassica juncea in WEPS (Wind Erosion Prediction System). Agron. Abst., Madison, WI, pp.327, 2000.
Van Donk, S.J., E.W. Tollner, S.P. McDonald. Development of hot/cold plate apparatus for determining heat transport mechanisms in mulch materials. Trans. Of the ASAE 44:1479-1488.
Van Donk, S. J., and E.L. Skidmore. 2002. Soil roughness degradation and crop residue decomposition: measurement and simulation. In J.A. Lee and T.M. Zobeck (eds.) Proceedings of ICAR5/GCTE-SEN Joint Conference, International Center for Arid and Semiarid Lands Studies, Texas Tech Univ., Lubbock, TX, pp.199.
Hagen, L.J. How wind erosion processes affect selection and performance of erosion control systems. In J.A. Lee and T.M. Zobeck (eds.) Proc. of ICAR5/GCTE-SEN Joint Conference. Center for Arid and Semiarid Lands Studies, Texas Tech Univ., Lubbock, TX. Publication 02-2 ix, pp.317-320.
02-501-J
Lui, L.Y., E.L. Skidmore, L.E. Wagner, J. Tatarko and L.J. Hagen. Dune sand transport as influenced by direction, magnitude, and frequency of the erosive winds, Ordos Plateau, China. In press (Geomorphology).
03-3-A
Hagen, L.J. Validation of WEPS erosion predictions for single wind events. In J.A. Lee and T.M. Zobeck (eds.) Proc. of ICAR5/GCTE-SEN Joint Conference. Center for Arid and Semiarid Lands Studies, Texas Tech Univ., Lubbock, TX. Publication 02-2 ix, pp.252-255.
Publication reprints can be requested at office@weru.ksu.edu. Specify the ID number when making a request.
Publications highlighted in blue are linkd to a PDF version of the publication.