Monday, November 5, 2007 - 9:55 AM
100-2
Site-Specific Production Functions for Variable Rate Corn Nitrogen Fertilization.
Matias Ruffo1, G. A. Bollero2, D.S. Bullock3, and D. G. Bullock2. (1) Crop Sciences, University of Illinois at Urbana-Champaign, Las Heras 4025 18 C, Buenos Aires, 1425, Argentina, (2) Crop Sciences Department, University of Illinois at Urbana-Champaign, 1102 South Goodwin Avenue, Urbana, IL 61801, (3) Dept. of Agric and Consumer Economics, 1301 w gregory dr, Urbana, IL 61801
Specific recommendations for variable rate nitrogen (VRN) fertilization in corn (Zea mays L.) are required to realize the potential environmental and economic benefits of this technology. However, recommendations based on algorithms that consider the processes controlling crop response to nitrogen fertilizer (NF) within fields have not yet been developed. The objectives of this study were to develop site-specific corn yield production functions for VRN fertilization and to determine the site-specific variables controlling corn response to NF. The experiments were conducted on eight commercial production fields. Fields were divided into 13 to 20 sections composed of five plots. Each plot received one NF rate. Site-specific variables included primary and secondary terrain attributes, and the Illinois Soil Nitrogen Test (ISNT). Nitrogen fertilizer significantly increased corn yield and it interacted with at least one site-specific variable. The ISNT was the site-specific variable that interacted with NF in most fields where the CV of ISNT was larger than 10%. The parameter estimates indicate that ISNT had a positive effect on corn yield and that it reduced the response to NF. Terrain attributes also affected corn yield and its response to NF. In general, parameter estimates indicated that well drained areas (i.e. small specific catchment area, moderate slopes) had higher yields and responded less to NF than areas where water is expected to accumulate. These results indicate that terrain attributes as surrogates for soil water content and the ISNT as a measure of soil mineralizable nitrogen are site-specific characteristics that affect corn yield and its response to NF.