COMPARISON OF METHODS FOR REMOTE SENSING OF PLANT GROWTH AND NUTRIENT MANAGEMENT

Authors: Hunt Jr, Earle; Daughtry, Craig; Walthall, Charles; McMurtrey Iii, James; Dulaney, Wayne

Submitted to: Crop Science Society Of America
Publication Type: Abstract Only
Publication Acceptance Date: 10/12/2001
Publication Date: 10/22/2001
Citation: N/A

Interpretive Summary:

Technical Abstract: Remotely sensed imagery can be used to determine plant growth and nutrient status, and thus is an important geospatial data layer for site-specific agriculture. Side-dress nitrogen for maize is generally applied in June/early July, when clouds frequently inhibit image acquisition. Unmanned aircraft are being developed and may be an important image data source with hhigh spatial resolution. We tested a radio-controlled model airplane equipped with a camera and Kodak EIR color-infrared (CIR) film. The plane was flown between 125 and 175 m above ground level; the effective resolution of the camera and film was about 6 cm. The slides were scanned into digital image formats and georectified using ground control points. These data were compared to digital multispectral data, which were converted to reflectances using an uplooking pyranometer; the pixel sizes were about 0.5 m. The normalized difference vegetation index (NDVI) was calculated from both sensors, and were highly correlated to maize biomass. Thus, radio-controlled model aircraft (airplanes or helicopters) may be an effective source of remotely sensed data which would be less costly and more timely than other sources.