TY - JOUR T1 - Nitrogen Variability: A Need for Precision Agriculture AU - Haggard, B. AU - Weindorf, D.C. AU - Lofton, J. AU - Tubana, B. JO - Agricultural Journal VL - 5 IS - 1 SP - 6 EP - 11 PY - 2010 DA - 2001/08/19 SN - 1816-9155 DO - aj.2010.6.11 UR - https://makhillpublications.co/view-article.php?doi=aj.2010.6.11 KW - site-specific management KW -precision farming KW -remote sensing KW -precision agriculture KW -temporal variability KW -spatial variability KW -Nitrogen KW -nitrogen use efficiency KW -Greenseekerâ„¢ KW -Crop Circleâ„¢ AB - Nitrogen (N) variability can have a negative impact on many production practices as well as having a negative influence on the environment. Nitrogen can be highly variable, both spatially and temporally. This is due to the N cycle being such a dynamic system. Producers have to change management practices to account for this variability. One way to manage N variability is the implementation of precision management practices. Scale of N variability is important, when implementing precision management. In some sites, the resolution of N variability is too fine to implement traditional precision agriculture management, such as management zone soil sampling, therefore remote sensing needs to be implemented. Many ground-based remote sensors are able to detect fine resolution differences however, delays between sensing and implementing management practices makes them flawed. Therefore, on-the-go sensors that indirectly measure nutrient status by plant tissue can be utilized to minimize this downtime. Many of these sensors are available, such as the Greenseeker™ and the Crop Circle™. Implementing these practices has been shown to increase the N use efficiency in crops therefore increasing potential yield and decreasing environmental hazards. ER -