When applying conservation agriculture based on DD (direct drilling), soil is rarely disturbed by machinery, but is often subject to vehicle pressure that is frequent and intense. Soil compaction could be deeply mod...When applying conservation agriculture based on DD (direct drilling), soil is rarely disturbed by machinery, but is often subject to vehicle pressure that is frequent and intense. Soil compaction could be deeply modified, and DD can improve soil sustainability during rainy seasons. The technique of cone penetration resistance is still the easiest and most direct way to charaeterise soil compaction distribution of soils. Then measurements of cone penetration resistance were conducted on two typical agricultural soil zones in Tunisia. At the experimental site, soils were submitted to DD during different durations in the context of the conservative agriculture in order to investigate the evolution of compaction measured by a cone penetrometer during different time periods and to describe the trafficability of the tested soils. The results showed that (1) soil compaction increased with time application (years) of DD; (2) soil compaction was affected by soil depth and (3) DD improved the uniformity of soil compaction distribution within soil profile. Consequently, DD seems to improve trafficability of agriculture soils, which makes an easy access to a field during rainy times.展开更多
文摘When applying conservation agriculture based on DD (direct drilling), soil is rarely disturbed by machinery, but is often subject to vehicle pressure that is frequent and intense. Soil compaction could be deeply modified, and DD can improve soil sustainability during rainy seasons. The technique of cone penetration resistance is still the easiest and most direct way to charaeterise soil compaction distribution of soils. Then measurements of cone penetration resistance were conducted on two typical agricultural soil zones in Tunisia. At the experimental site, soils were submitted to DD during different durations in the context of the conservative agriculture in order to investigate the evolution of compaction measured by a cone penetrometer during different time periods and to describe the trafficability of the tested soils. The results showed that (1) soil compaction increased with time application (years) of DD; (2) soil compaction was affected by soil depth and (3) DD improved the uniformity of soil compaction distribution within soil profile. Consequently, DD seems to improve trafficability of agriculture soils, which makes an easy access to a field during rainy times.
