Abstract
The USDA Environmental Quality Incentives Program (EQIP) provides financial assistance to encourage producers to adopt conservation practices. Historically, one of the most common practices is conservation tillage, primarily the use of no-till planting. The objectives of this research were to determine crop residue using remote sensing, an indicator of tillage intensity, without using training data and examine its performance at the field level. The Landsat Thematic Mapper Series platforms can provide global temporal and spatial coverage beginning in the mid-1980s. In this study, we used the Normalized Difference Tillage Index (NDTI), which has proved to be robust and accurate in studies built upon training datasets. We completed 10 years of residue maps for the 150,000 km2 study area in South Dakota, North Dakota, and Minnesota and validated the results against field-level survey data. The overall accuracy was between 64% and 78% with additional improvement when survey points with suspect geolocation and satellite tillage estimates with fewer than four dates of Landsat images were excluded. This study demonstrates that, with Landsat Archive available at no cost, researchers can implement retrospective, untrained estimates of conservation tillage with sufficient accuracy for some applications.
Highlights
The USDA Environmental Quality Incentives Program (EQIP) promotes the use of conservation practices by providing financial and technical assistance to producers
One practice of interest is the adoption of conservation tillage practices, which increase the proportion of the soil surface covered by crop residue
Crop residue cover is typically assessed shortly after spring planting operations have been completed, where 30% is classified as conservation tillage [1]
Summary
The USDA Environmental Quality Incentives Program (EQIP) promotes the use of conservation practices by providing financial and technical assistance to producers. The challenge in analyzing this and similar questions related to program evaluation is the lack of adequate long-term data on the adoption of these conservation practices. Research to address these issues requires field-level data for farms that are enrolled in EQIP conservation contracts as well as field-level data for farms that are not enrolled. One practice of interest is the adoption of conservation tillage practices, which increase the proportion of the soil surface covered by crop residue (or litter). Crop residue cover is typically assessed shortly after spring planting operations have been completed, where 30% is classified as conservation tillage [1]. Reducing tillage intensity enhances numerous ecosystem services including increased soil organic matter, decreased soil erosion, improved soil and water quality, and reduced carbon dioxide emissions [2]
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