60-5 Soil and Environmental Factors Affecting Internal N Efficiency of Maize.
See more from this Division: ASA Section: Agronomic Production Systems
See more from this Session: Outcomes of an Innovative Public-Industry Corn Nitrogen Research Partnership
Monday, October 23, 2017: 10:28 AM
Marriott Tampa Waterside, Room 2
Abstract:
The inverse of internal N efficiency (IE), N needed per quantity of grain produced, is used in yield-goal based N recommendations to determine the target quantity of N needed to attain a chosen maize yield. Often the value of IE is considered static, irrespective of environment. Evaluation of 47 site-years of data across the U.S. Corn Belt demonstrated variation in IE at the economically optimum N rate (IEE). IEE ranged from 38 to 73 kg grain dry matter per kg plant N with a mean and standard deviation of 54 and 7 kg grain kg-1 N. A linear model based on soil properties determinable at planting (texture, organic matter, and pH) explained only 16% of the variation in IEE. Just prior to sidedress at growth stage V9, 38% of the variation in IEE was explained by soil texture, soil nitrate-N, and NDVI. Considering all variables at the end of the season, including soil, weather, and crop parameters, only about 60% of the variation in IEE was explained by linear models. Unpredictable variation in IEE introduces meaningful variation in yield-goal based N recommendations.
See more from this Division: ASA Section: Agronomic Production Systems
See more from this Session: Outcomes of an Innovative Public-Industry Corn Nitrogen Research Partnership