Abstract
Generally, in tropical and subtropical agroecosystems, the efficiency of nitrogen (N) fertilization is low, inducing a temporal variability of crop yield, economic losses, and environmental impacts. Variable-rate N fertilization (VRF), based on optical spectrometry crop sensors, could increase the N use efficiency (NUE). The objective of this study was to evaluate the corn grain yield and N fertilization efficiency under VRF determined by an optical sensor in comparison to the traditional single-application N fertilization (TSF). With this purpose, three experiments with no-tillage corn were carried out in the 2008/09 and 2010/11 growing seasons on a Hapludox in South Brazil, in a completely randomized design, at three different sites that were analyzed separately. The following crop properties were evaluated: aboveground dry matter production and quantity of N uptake at corn flowering, grain yield, and vegetation index determined by an N-Sensor® ALS optical sensor. Across the sites, the corn N fertilizer had a positive effect on corn N uptake, resulting in increased corn dry matter and grain yield. However, N fertilization induced lower increases of corn grain yield at site 2, where there was a severe drought during the growing period. The VRF defined by the optical crop sensor increased the apparent N recovery (NRE) and agronomic efficiency of N (NAE) compared to the traditional fertilizer strategy. In the average of sites 1 and 3, which were not affected by drought, VRF promoted an increase of 28.0 and 41.3 % in NAE and NRE, respectively. Despite these results, no increases in corn grain yield were observed by the use of VRF compared to TSF.
Highlights
The average Brazilian corn grain yield is around 4.2 Mg ha-1, far below the 10 to 15 Mg ha-1 recorded in rainfed croplands with intensive use of technology in the main Brazilian agroecoregions (Glat, 2010)
Vegetation index and variable N fertilization rate estimated by the real-time crop sensor
The high number of vegetation index (VI) readings provided by the optical sensor reinforces the potential of this equipment for the prescription of Variable-rate N fertilization (VRF), promoting realtime information of the crop nutritional status with high spatial resolution, without requiring plant sampling and laboratory analysis (Table 1)
Summary
The average Brazilian corn grain yield is around 4.2 Mg ha-1, far below the 10 to 15 Mg ha-1 recorded in rainfed croplands with intensive use of technology in the main Brazilian agroecoregions (Glat, 2010). The corn grain demand for animal feed will increase by 37 % between 20052015 (Brasil, 2007). To attend this demand, corn grain yield should increase by 3.4 % per year in the same period. The N fertilization efficiency is low (33 %) (Raun & Johnson, 1999). This situation is aggravated in tropical and subtropical agroecosystems, where N losses can range from 18 to 78 % of the N mineral fertilizer input (Lara Cabezas et al, 1997a; Fontoura & Bayer, 2010; Rojas et al, 2012)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
