Add to ORKGPrecision agriculture technologies are an integral part of many crop production operations. However, implementation for N application has lagged, primarily due to lack of a viable system for variable N rate decisions. Active canopy sensors have been developed as a tool to determine plant N stress deficiency and provide an on-the-go decision for implementing variable rate. Two general approaches could be implemented. One is to plan on conducting canopy sensing each year, with a reduced N rate applied preplant, at planting, or early sidedress and then sensing conducted at mid-vegetative growth to determine additional application need. A second is to conduct sensing only if conditions result in N loss from the primary N application, or other f...
Corn nitrogen (N) applications are still done on a field basis in Kentucky, according to previous cr...
Traditional nitrogen (N) management schemes for corn production systems in the Corn Belt have result...
Corn production across the U.S. Corn Belt can be often limited by the loss of nitrogen (N) due to le...
Precision agriculture technologies are an integral part of many crop production operations. However,...
Precision agriculture technologies are an integral part of many operations in Iowa corn production. ...
Active sensor reflectance assessments of corn (Zea mays L.) canopy N status are advocated to direct ...
Optical canopy sensors are an emerging technology that can serve as a useful in-season N fertilizer ...
Determining the proper nitrogen (N) fertilization rate is important for the economic viability of co...
The utilization of active canopy sensors in corn (Zea Mays L.) for in-season N fertilizer management...
Determining the most economical N application rate for producing corn (Zea mays L.) is one of the mo...
The objectives of this project were to measure corn yield response to applied nitrogen (N) fertilize...
The soil’s nitrogen (N) supply can vary drastically in the field, spatially as well as temporally ma...
The nondestructive determination of plant biomass is not possible; however, crop-canopy sensors that...
The efficiency of nitrogen (N) use by corn (Zea mays L.) may be improved by delaying N application u...
Techniques that measure the N status of corn (Zea mays L.) can aid in management decisions that have...
Corn nitrogen (N) applications are still done on a field basis in Kentucky, according to previous cr...
Traditional nitrogen (N) management schemes for corn production systems in the Corn Belt have result...
Corn production across the U.S. Corn Belt can be often limited by the loss of nitrogen (N) due to le...
Precision agriculture technologies are an integral part of many crop production operations. However,...
Precision agriculture technologies are an integral part of many operations in Iowa corn production. ...
Active sensor reflectance assessments of corn (Zea mays L.) canopy N status are advocated to direct ...
Optical canopy sensors are an emerging technology that can serve as a useful in-season N fertilizer ...
Determining the proper nitrogen (N) fertilization rate is important for the economic viability of co...
The utilization of active canopy sensors in corn (Zea Mays L.) for in-season N fertilizer management...
Determining the most economical N application rate for producing corn (Zea mays L.) is one of the mo...
The objectives of this project were to measure corn yield response to applied nitrogen (N) fertilize...
The soil’s nitrogen (N) supply can vary drastically in the field, spatially as well as temporally ma...
The nondestructive determination of plant biomass is not possible; however, crop-canopy sensors that...
The efficiency of nitrogen (N) use by corn (Zea mays L.) may be improved by delaying N application u...
Techniques that measure the N status of corn (Zea mays L.) can aid in management decisions that have...
Corn nitrogen (N) applications are still done on a field basis in Kentucky, according to previous cr...
Traditional nitrogen (N) management schemes for corn production systems in the Corn Belt have result...
Corn production across the U.S. Corn Belt can be often limited by the loss of nitrogen (N) due to le...