Your search found 8 records
1 Rhoades, J. D.; Corwin, D. L.; Hoffman, G. J. 1981. Scheduling and controlling irrigations from measurements of soil electrical conductivity. In American Society of Agricultural Engineers, Irrigation scheduling for water and energy conservation in the 80's. St. Joseph, MI, USA: ASAE. pp.106-115. (ASAE publication 23-81)
(Location: IWMI-HQ Call no: 631.7.1 G000 AME Record No: H03380)
2 Corwin, D. L.; Werle, J. W.; Rhoades, J. D. 1988. The use of computer-assisted mapping techniques to delineate potential areas of salinity development on soils. Hilgardia, 56(2):1-17.
(Location: IWMI-HQ Call no: P 2814 Record No: H013002)
3 Corwin, D. L.; Rhoades, J. D.; Vaughan, P. J.; Lesch, S. M. 1995. Salt-loading assessment methodology for managing soil salinity. In Clean water - Clean environment - 21st century: Team agriculture - Working to protect water resources: Conference proceedings, March 5-8, 1995, Kansas City, Missouri. Volume II: Nutrients. St. Joseph, MI, USA: ASAE. pp.35-38.
(Location: IWMI-HQ Call no: 333.91 G000 CLE Record No: H018769)
4 Corwin, D. L.; Loague, K.; Ellsworth, T. R. (Eds.) 1999. Assessment of non-point source pollution in the Vadose Zone. Washington, DC, USA: American Geophysical Union. xii, 369p. (Geophysical monograph 108)
Water pollution ; Groundwater ; Water quality ; Simulation models ; Computer models ; Watersheds ; Databases ; Soil properties ; Remote sensing ; GIS ; Hydrology ; Evapotranspiration ; Soil salinity ; Irrigation effects ; Bananas / USA / Costa Rica / California / Salinas Valley / Vadose Zone
(Location: IWMI-HQ Call no: 333.91 G430 COR Record No: H024743)
5 Rhoades, J. D.; Corwin, D. L.; Lesch, S. M. 1999. Geospatial measurements of soil electrical conductivity to assess soil salinity and diffuse salt loading from irrigation. In Corwin, D. L.; Loague, K.; Ellsworth, T. R. (Eds.), Assessment of non-point source pollution in the Vadose Zone. Washington, DC, USA: American Geophysical Union. pp.197-215.
Soil properties ; Soil salinity ; Irrigation effects ; Water pollution ; Soil degradation ; Mathematical models ; Soil water ; Leaching ; Tillage
(Location: IWMI-HQ Call no: 333.91 G430 COR Record No: H024749)
6 Corwin, D. L.; Lesch, S. M. 2005. Characterizing soil spatial variability with apparent soil electrical conductivity: I. Survey protocols. Computers and Electronics in Agriculture, 46:103-113.
Soil properties ; Assessment ; Soil salinity ; Soil water ; Surveys ; Crop yield / USA / California / San Joaquin Valley
(Location: IWMI-HQ Call no: P 7782 Record No: H039866)
7 Corwin, D. L.; Lesch, S. M. 2005. Characterizing soil spatial variability with apparent soil electrical conductivity: Part II. Case study. Computers and Electronics in Agriculture, 46:135-152.
/ USA / California / San Joaquin Valley / KEY Soil properties / Assessment / Soil salinity / Sodic soils
(Location: IWMI-HQ Call no: P 7783 Record No: H039867)
8 Corwin, D. L.; Loague, K. M. (Eds.) 1996. Applications of GIS to the modeling of non-point source pollutants in the Vadose Zone. Madison, WI, USA: Soil Science Society of America (SSSA). 319p. (SSSA Special Publication No. 48)
GIS ; Models ; Information technology ; Pollutants ; Sensitivity analysis ; Surface water ; Water flow ; Groundwater ; Soil hydraulic properties ; Soil salinity ; Pesticides ; Leaching
(Location: IWMI HQ Call no: 526.0285 G000 COR Record No: H045259)
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