Evaluating high resolution SPOT 5 satellite imagery to estimate crop yield

High resolution satellite imagery has the potential to map within-field variation in crop growth and yield. This study examined SPOT 5 satellite multispectral imagery for estimating grain sorghum yield. A 60 km x 60 km SPOT 5 scene and yield monitor data from three grain sorghum fields were recorded...

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Bibliographic Details
Published in:Precision agriculture 2009-08, Vol.10 (4), p.292-303
Main Authors: Yang, C, Everitt, J. H, Bradford, J. M
Format: Article
Language:English
Subjects:
Aerial photography
Agricultural production
Agriculture
Atmospheric Sciences
Biomedical and Life Sciences
Chemistry and Earth Sciences
Computer Science
Crop management
Crop yield
Crops
Grain
Life Sciences
Physics
Remote sensing
Remote Sensing/Photogrammetry
Satellites
Scientific imaging
Sensors
Soil Science & Conservation
Sorghum
Statistical analysis
Statistics for Engineering
Studies
Vegetation
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Summary:High resolution satellite imagery has the potential to map within-field variation in crop growth and yield. This study examined SPOT 5 satellite multispectral imagery for estimating grain sorghum yield. A 60 km x 60 km SPOT 5 scene and yield monitor data from three grain sorghum fields were recorded in south Texas. The satellite scene contained four spectral bands (green, red, near-infrared and mid-infrared) with a 10-m spatial resolution. Subsets were extracted from the scene that covered the three fields. Images with pixel sizes of 20 and 30 m were also generated from the individual field images to simulate coarser resolution satellite imagery. Vegetation indices and principal components were derived from the images at the three spatial resolutions. Grain yield was related to the vegetation indices, the four bands and the principal components for each field, and for all the fields combined. The effect of the mid-infrared band on estimates of yield was examined by comparing the regression results from all four bands with those from the other three bands. Statistical analysis showed that the 10-m, four-band image and the aggregated 20-m and 30-m images explained 68, 76 and 83%, respectively, of the variation in yield for all the fields combined. The coefficient of determination between yield and the imagery increased with pixel size because of the smoothing effect. The inclusion of the mid-infrared band slightly improved the R ² values. These results indicate that high resolution SPOT 5 multispectral imagery can be a useful data source for determining within-field yield variation for crop management.
ISSN:1385-2256
1573-1618
DOI:10.1007/s11119-009-9120-6