Adjusting nitrogen (N) fertilization and accounting for the legacy of past N fertilizer application (i.e., residual N) based on remote sensing estimation of crop nutritional status may increase resource efficiency and promote sustainable management of cropping systems. Our main goal was to evaluate the potential of hyperspectral airborne imagers and ground-level sensors for identifying N fertilizer rates and the residual N effect from the previous crop fertilization in a maize/wheat rotation. A two-season field trial that provided various combinations of N rates and residual N response was established in central Spain. Ground-level sensors and aerial hyperspectral images were used to calculate vegetation indices (VIs). In addition, the sola...
There is a growing need for developing high-throughput tools for crop phenotyping that would increas...
International audienceIn the study presented here, we used a pushbroom CCD camera fitted on a motori...
Hyperspectral remote sensing is a rapid non-destructive method for diagnosing nitrogen status in whe...
Remote sensing allows fast assessment of crop monitoring over large areas; however, questions regard...
Remote sensing is a valuable tool for reducing the environmental impact of agricultural practices by...
The efficient use of nitrogen fertilizer is a crucial problem in modern agriculture. Fertilization h...
This paper presents a method for mapping the nitrogen (N) status in a maize field using hyperspectra...
Estimating crop nitrogen (N) status with sensors can be useful to adjust fertilizer levels to crop r...
Wheat Grain Yield (GY) and quality are particularly susceptible to nitrogen (N) fertilizer managemen...
Wheat Grain Yield (GY) and quality are particularly susceptible to nitrogen (N) fertilizer managemen...
In situ, non-destructive and real time mineral nutrient stress monitoring is an important aspect of ...
This paper presents a method for mapping the nitrogen (N) status in a maize field using hyperspectra...
Proximal remote sensing systems depending on spectral reflectance measurements and image analysis ca...
Nitrogen (N) is the largest agricultural input in many Australian cropping systems and applying the ...
There is a growing need for developing high-throughput tools for crop phenotyping that would increas...
There is a growing need for developing high-throughput tools for crop phenotyping that would increas...
International audienceIn the study presented here, we used a pushbroom CCD camera fitted on a motori...
Hyperspectral remote sensing is a rapid non-destructive method for diagnosing nitrogen status in whe...
Remote sensing allows fast assessment of crop monitoring over large areas; however, questions regard...
Remote sensing is a valuable tool for reducing the environmental impact of agricultural practices by...
The efficient use of nitrogen fertilizer is a crucial problem in modern agriculture. Fertilization h...
This paper presents a method for mapping the nitrogen (N) status in a maize field using hyperspectra...
Estimating crop nitrogen (N) status with sensors can be useful to adjust fertilizer levels to crop r...
Wheat Grain Yield (GY) and quality are particularly susceptible to nitrogen (N) fertilizer managemen...
Wheat Grain Yield (GY) and quality are particularly susceptible to nitrogen (N) fertilizer managemen...
In situ, non-destructive and real time mineral nutrient stress monitoring is an important aspect of ...
This paper presents a method for mapping the nitrogen (N) status in a maize field using hyperspectra...
Proximal remote sensing systems depending on spectral reflectance measurements and image analysis ca...
Nitrogen (N) is the largest agricultural input in many Australian cropping systems and applying the ...
There is a growing need for developing high-throughput tools for crop phenotyping that would increas...
There is a growing need for developing high-throughput tools for crop phenotyping that would increas...
International audienceIn the study presented here, we used a pushbroom CCD camera fitted on a motori...
Hyperspectral remote sensing is a rapid non-destructive method for diagnosing nitrogen status in whe...