The object of this study is the process of soil compaction with ring-spur and ring-tooth rollers. Based on the zonal optimization of the agrophysical parameters of the arable horizon, the influence of the rolling working bodies on the soil environment in terms of creating a uniform set layer density during pre-sowing tillage was investigated. It was established that soil density should be evaluated in a zonal section together with its aggregate composition, humus content, moisture, etc. Smooth-water-filled, ring-tooth, and ring-spur rollers were studied. The use of a smooth water-filled roller in previous studies contributed to the high unevenness of the compaction of the upper and lower layers of the arable horizon, which indicated the impracticality of further experiments. The research of ring-tooth and ring-spur rollers was carried out by the method of a multifactorial experiment under defined soil and climatic conditions (soil type, sod-podzolic; layer-by-layer soil moisture, 26...28 %; layer-by-layer soil density, 0.96...1.25 g/cm3). Regression models were built of the influence of the specific load, the frequency of passes, and the working speed of the unit on the density of the soil in layers: 0–5; 5–10; 10–15; 15–20; 20–25; 25–30 cm. To assess the heterogeneity of soil density in layers 0–5 and 5–10 cm, a data array was constructed. It was established that the ring-spur roller, even at a speed of up to 6 km/h, is not a tool suitable for regulating the equilibrium density of the seed layer. The best for pre-sowing soil cultivation is a ring-tooth roller (specific soil load, 350 kg/m; unit speed up to 6 km/h).
The derived regression equations make it possible to select such a specific load on the ring-tooth roller that could provide a rational value of the layer density of the soil. This is economically and environmentally expedient.