Bibliography
-
[Arnold and William, 1989]
- Arnold, J. and
William, J. R. (1989). Stochastic generation of internal storm structure at a
point. Transactions of the ASAE, 32(1):161--167.
-
[Bristow et al., 1986]
- Bristow, R. L., Cambell,
G. S., Papendick, R. I., and Elliot, L. F. (1986). Simulation of heat and
moisture transfer through a surface residue - soil system. Agriculture and
Forestry Meteorology, 36:193--214.
-
[Bristow and Campbell, 1984]
- Bristow, R. L. and
Campbell, G. S. (1984). On the relationship between incoming solar radiation
and daily maximum and minimum temperature. Agriculture and Forestry
Meteorology, 31:159--166.
-
[Campbell, 1985]
- Campbell, G. (1985).
Transport Models for Soil-Plant Systems. Elsevier, Amsterdam, Netherlands.
-
[Campbell and Diaz, 1988]
- Campbell, G. S. and
Diaz, R. (1988). Simplified Soil-Water Balance Models to Predict Crop
Transpiration. ICRISAT, Patancheru, India. Bidinger, F. R. and Johnson, C.
(eds.).
-
[Corwin et al., 1991]
- Corwin, D. L., Waggoner, B.
L., and Rhoades, J. D. (1991). A functional model of solute transport that
accounts for bypass. Journal of Evironmental Quality, 20:647--658.
-
[Flerchinger, 1987]
- Flerchinger, G. N.
(1987). Simultaneous Heat and Water Model of a Snow-Residue-Soil System.
dissertation, Washington State University.
-
[Godwin and Jones, 1991]
- Godwin, D. C. and Jones,
A. C. (1991). Modeling Plant and Soil Systems. nitrogen dynamics in
soil-plant systems. American Society of Agronomy, 31:297--302.
-
[Gregory, 1982]
- Gregory, J. M. (1982). Soil
cover prediction with various amount and types of crop residue.
Transactions of the ASAE, 25:1333--1337.
-
[McCool and Krauss, 1981]
- McCool, D. and Krauss,
H. (1981). A system for calculating crop management factors for pacific
northwest non-irrigated croplands. In Annual meeting, Pacific Northwest
Region ASAE, number 81 in Paper PNW, page 213, Edmonton, Alberta Canada.
-
[McCool, 1976]
- McCool, D. K. (1976). Program to
calculate crop management factors for the usle. Personal communication.
-
[McCool et al., 1987]
- McCool, D. K., Brown, L.
C., Foster, G. R., Mutchler, C. K., and Meyer, D. (1987). Revised slope
steepness factor for the universal soil loss equation. Transactions of the
ASAE, 30:1387--1396.
-
[Monteith, 1965]
- Monteith, J. (1965). Climate
and the efficiency of crop production in britain. Phil. Trans. Res. Soc.
London, 281:277--329.
-
[Murali and Aylmore, 1981]
- Murali, V. and
Aylmore, L. A. (1981). Model Description and some Simulations.a
convective-dispersive-adsorptive flow model for solute transport in soils.
Australian Journal of Soil Reasearch, 19:32--39.
-
[Priestley and Taylor, 1972]
- Priestley, C. and
Taylor, R. J. (1972). On the assessment of surface heat flux and evaporation
using large scale parameters. Monthly Weather Review, 100:81--92.
-
[Rose et al., 1982a]
- Rose, C., Chichester, F.,
Williams, J. R., and Ritchie, J. T. (1982a). Application of an approximate
analytic method of computing solute profiles with dispersion in soils.
Journal of Evironmental Quality, 11(1):151--155.
-
[Rose et al., 1982b]
- Rose, C., Chichester, F.,
Williams, J. R., and Ritchie, J. T. (1982b). A contribution to simplified
models of field solute transport. Journal of Evironmental Quality,
11(1):146--150.
-
[Schwab et al., 1993]
- Schwab, G. O., Fangmeier,
D. D., Elliot, W. J., and Frevert, R. K. (1993). Soil and Water
Conservation Engineering. John Willey & Sons, Inc., New York, NY USA, 4
edition.
-
[Shaffer et al., 1991]
- Shaffer, M. J.,
Halverson, A. D., and Pierce, F. J. (1991). Nitrate leaching and economic
analysis package (NLEAP): Model description and application.managing nitrogen
for groundwater quality and farm profitiblity. Soil Science Society of
America.
-
[Sharpley and Williams, 1990]
- Sharpley, A. and
Williams, J. R. (1990). Epic, erosion, productivity impact calculator: 1.
model documentation. Technical Bulletin 1768, U.S. Dept. of Agriculture.
-
[Stöckle and Campbell, 1989]
- Stöckle,
C. and Campbell, G. (1989). Simulation of crop response to water and
nitrogen: An example using spring wheat. Transactions of the ASAE, pages
66--68.
-
[Stöckle et al., 1992]
- Stöckle, C.,
Martin, S., and Cambell, G. (1992). A model to assess environmental impact of
cropping systems. Amer. Soc. of Agr. Eng., 92(2041).
-
[Stroo et al., 1989]
- Stroo, Bristow, R., Elliot,
R., and Campbell, G. S. (1989). Predicting rates of wheat residue
decomposition. Soil Science Society of America (Journal), 53:91--99.
-
[Tanner and Sinclair, 1983]
- Tanner, C. B. and
Sinclair, T. R. . (1983). Limitations to Efficient Water Use in Crop
Production. efficient water use in crop production: research or research?
American Society of Agronomy, Crop Science Society of America, Soil Science
Society of America.
-
[USDA-SCS, 1988a]
- USDA-SCS (1988a).
National Engineering Handbook,
chapter Hydrology Section 4:4-10. In USDA-SCS, 1988b .
-
[USDA-SCS, 1988b]
- USDA-SCS (1988b). National
Engineering Handbook. U.S. Government Printing Office:USDA, Washington D.C.
-
[van Rooij, 1987]
- van Rooij, C. W. D. M.
(1987). Two computer models to predict the maximum frost penetration in the
soil. University of Idaho, Moscow, ID.
-
[Wagnet and Hutson, 1989]
- Wagnet, R. and Hutson,
J. (1989). LEACHM. Water Resources Institute. Cornell University, Ithaca,
NY.
-
[Wischmeier and Smith, 1978]
- Wischmeier, W.
H. and Smith, D. D. (1978). Predicting rainfall erosion losses - A guide to
conservation planning, page 537. In USDA-SCS, 1988b .