Abstract
Soil degradation, defined as the lowering and loss of soil functions, is becoming a serious problem worldwide and threatens agricultural production and terrestrial ecosystems. The surface residue of crops is one of the most effective erosion control measures and it increases the soil moisture content. In some areas of the world, the management of soil surface residue (SSR) is crucial for increasing soil fertility, maintaining high soil carbon levels, and reducing the degradation of soil due to rain and wind erosion. Standard methods of measuring the residue cover are time and labor intensive, but remote sensing can support the monitoring of conservation tillage practices applied to large fields. We investigated the potential of per-pixel and object-based image analysis (OBIA) for detecting and estimating the coverage of SSRs after tillage and planting practices for agricultural research fields in Iran using tillage indices for Landsat-8 and novel indices for Sentinel-2A. For validation, SSR was measured in the field through line transects at the beginning of the agricultural season (prior to autumn crop planting). Per-pixel approaches for Landsat-8 satellite images using normalized difference tillage index (NDTI) and simple tillage index (STI) yielded coefficient of determination (R2) values of 0.727 and 0.722, respectively. We developed comparable novel indices for Sentinel-2A satellite data that yielded R2 values of 0.760 and 0.759 for NDTI and STI, respectively, which means that the Sentinel data better matched the ground truth data. We tested several OBIA methods and achieved very high overall accuracies of up to 0.948 for Sentinel-2A and 0.891 for Landsat-8 with a membership function method. The OBIA methods clearly outperformed per-pixel approaches in estimating SSR and bear the potential to substitute or complement ground-based techniques.
Highlights
The world population is expected to reach 9.1 billion people by 2050
In order to map the soil surface residue (SSR) from Sentinel-2A, we developed the following indices: Sentinel normalized difference tillage index (SNDTI), Sentinel simple tillage index (SSTI), narrow near infrared tillage index (NITI), vegetation red edge shortwave tillage index (VRESTI), red shortwave difference index (RSDI), and vegetation red edge tillage index (VRETI)
Due to the water and soil erosion problems affected by agricultural activities, the use of conservation tillage methods has increasingly been recommended in recent years as an appropriate alternative to intensive tillage methods
Summary
The world population is expected to reach 9.1 billion people by 2050. This will require the production of 3 billion tons of cereals annually, up from today’s nearly 2.1 billion tons for both food and animal feed [1]. Residues are left from the previous cultivation on the soil surface in order to protect the soil from water and wind erosion [4]. At least 30% of the previous crop residues are left on the soil surface after tillage and planting operations [9]. Depending on the amount of soil surface residue (SSR), conservation tillage systems include minimum (ridge tillage and mulch tillage) and no tillage. In a no-tillage system, the seeding operation is carried out directly into the standing stubble of the previous crops [9]
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