Crop area estimate from original and simulated spatial resolution data and landscape metrics
DOI:
https://doi.org/10.1590/S0103-90162008000500003Keywords:
MODIS, remote sensing, regression, soybean, sugarcaneAbstract
Images acquired at the same day by the ETM+/Landsat-7 (30 m of spatial resolution) and MODIS/Terra (250 m) sensors were used to estimate areas of three major crops (soybean, sugarcane, and corn) with different landscape patterns in Southeastern Brazil. Majority filtering of ETM + classification results was applied to describe the behavior of 15 selected landscape metrics at distinct simulated spatial resolutions (90, 150, 210 and 270 m). By using regression models, the performance of MODIS and derived metrics to predict adequately the crop area, considering ETM+ data as reference, were analyzed. Results showed that the MODIS instrument overestimated the areas of soybean (15%) and sugarcane (1%), and underestimated the area of corn (12%). Multiple regression results indicated that coarse spatial resolution sensors can be used to predict adequately the area viewed by the 30 m spatial resolution instruments only for crops with low fragmentation pattern such as soybean. These sensors cannot be used to predict the area of corn due to aggregation pixel effects of the less fragmented crops (soybean and sugarcane) over the most fragmented one (corn), as demonstrated by the spatial resolution simulation using majority filtering of the ETM+ image. Landscape metrics improved MODIS area estimates only for sugarcane, as indicated by higher values of R² for multiple than for simple regression. Only a small set of metrics was select to compose the multiple regression models because most of them were not preserved across different spatial resolutions (30 m and 250 m).Downloads
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Published
2008-01-01
Issue
Section
Crop Science
License
All content of the journal, except where identified, is licensed under a Creative Common attribution-type BY-NC.How to Cite
Crop area estimate from original and simulated spatial resolution data and landscape metrics . (2008). Scientia Agricola, 65(5), 459-467. https://doi.org/10.1590/S0103-90162008000500003
