David Nielsen, Merle Vigil, and Joseph Benjamin. USDA-ARS, Central Great Plains Research Station, 40335 County Rd. GG, Akron, CO 80720
Farmers in the central Great Plains would like to diversify crop rotations from the monoculture of the traditional winter wheat-fallow system. Corn could work well as a rotation crop, but inputs are expensive and farmers would like to know the chances of producing a certain yield before investing in seed, fertilizer, herbicides, etc. Information on the yield response of corn to available soil water at planting could help guide the crop choice decision regarding corn. This study was conducted to determine if a predictive relationship exists between dryland corn yield and available soil water at planting time. Yield and soil water data from 10 years of an alternative crop rotation study at Akron, CO were analyzed by linear regression to determine predictive relationships. The yield-water content production function was found to be highly variable, ranging from 98.8 to 671.6 kg/ha per cm of available soil water in the 0-180 cm soil profile at planting. The differences in yield response to soil water were related to the amount and timing of precipitation that fell during the corn growing season. Because dryland corn yield is greatly dependent on rainfall during reproductive and grain-filling stages, soil water content at corn planting cannot be used to reliably determine whether corn should be planted in a flexible rotational system.
Handout (.pdf format, 1138.0 kb)
Back to Soil and Water Management for Yield Improvement
Back to S06 Soil & Water Management & Conservation
Back to The ASA-CSSA-SSSA International Annual Meetings (November 6-10, 2005)