Affiliation:
1. Scientific Research Institute of Agriculture for Northern Trans-Ural Region -Branch of Tyumen Scientific Centre of Siberian Branch of the Russian Academy of Sciences
Abstract
The effect of long-term use of different systems of basic tillage of dark grey forest soils on the agrophysical properties, nutrient regime and yield of grain crops in grain-fallow crop rotations was determined. The study was carried out in the conditions of the Northern Trans-Urals in a stationary experiment in 1996-2018. The traditional moldboard and resource-saving systems of basic tillage were studied. The experiment took place during the third-sixth rotations of two grain-fallow crop rotations spread in time and space: bare fallow - winter rye - spring wheat - spring vetch - spring barley; bare fallow - winter rye - spring wheat - spring wheat - spring barley. When cultivating a grain crop that completes a grain-fallow crop rotation, in the fourth field after the fallow with a legume forecrop (spring vetch), it is advisable to use systems of basic tillage with elements of minimization. These include non-moldboard and combined tillage with subsurface loosening by a plow with SibIME tines to a depth of 20-22 cm differentiated with stubble-mulch at 12-14 cm and disk harrowing at 10-12 cm. The studied tillage systems ensured the conditions of the water regime, soil composition and nutritional regime close to the moldboard tillage system. The yield of barley almost equal to the moldboard system was formed: against the background of natural land fertility - 2.97-3.03 t/ha, with the use of N40P40P40 - 3.47-3.65 t/ha. Application of tillage systems with minimization elements in a grain-fallow crop rotation without planting a leguminous crop with a given crop for a repeated grain crop (wheat) led to the following results. Productive moisture availability in the soil layer 0-1.0 m decreased by 8.6-28.0%, the nutrient regime worsened significantly, especially nitrogen (by 15.5-43.8%) and phosphorus (by 39.1-51.1%), with the negative differentiation of soil fertility, and reduction of grain yield by 0.09-0.40 t/ha.
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