CROP SIMULATION AND CROP EVAPOTRANSPIRATION FOR IRRIGATION MANAGEMENT OF SPINACH

Authors: PICINNI, GIOVANI - TAES-UVALDE, TX; GERIK, THOMAS - TAES-TEMPLE, TX; STEGLICH, EVELYN - TAES-TEMPLE, TX; LESKOVAR, DANIEL - TAES-UVALDE, TX; KO, JONGHAN - TAES-UVALDE, TX; MAREK, THOMAS - TAES-AMARILLO, TX; Howell, Terry

Submitted to: American Society of Horticulture Science Meeting
Publication Type: Abstract Only
Publication Acceptance Date: 6/6/2006
Publication Date: 7/1/2006
Citation: Picinni, G., Gerik, T., Steglich, E., Leskovar, D., Ko, J., Marek, T., Howell, T.A. 2006. Crop simulation and crop evapotranspiration for irrigation management of spinach [abstract]. American Society of Horticulture Science Meeting, July 27-30, 2006, New Orleans, Louisiana. 41:971

Interpretive Summary:

Technical Abstract: Improving irrigation water management for crop production is becoming increasingly important in South Texas as the water supplies shrink and competition with urban centers in the region grows. Crop simulators and crop evapotranspiration (ET) are appealing methods for estimating crop water use and irrigation requirements because of the low investment in time and dollars required by on-site (in-field) measurement of soil and/or crop water status. We compared the effectiveness of the CropMan/EPIC crop simulator and Crop-ET approaches estimating the crop water use for irrigation scheduling of spinach. In-ground weighing lysimeters were used to measure real-time spinach water use during the growing season. We related the water use of the spinach crop to a well-watered reference grass crop to determine crop coefficients (Kc) to assist in predicting accurate crop needs using available meteorological data. In addition, we ran several simulations of CropMan to evaluate the best management for growing spinach under limited water availability. Results show the possibility of saving about 61 to 74 million m3 of water per year in the 36,500 ha of irrigated farms of the Edwards aquifer region if proper irrigation management techniques are implemented in conjunction with the newly developed decision support systems. We discuss the implications of the use of these technologies for improving the effectiveness of irrigation and for reducing irrigation water requirements in South Texas.