The article presents the results of studies of the strip tillage system and crop sowing in the three-field crop rotation “corn-corn-soybean”, the principles of the technological process have been formed, the initial requirements for the parameters of the strips, the quality of sowing crops in the crop rotation (corn and soybeans) have been prepared, technical and technological methods have been improved the solution of sowing in strips with a significant content of plant residues and the technical and economic advantages of strip tillage are substantiated. The purpose of the research is to substantiate the expediency, to improve the technical and technological solutions and methods of implementation of the strip tillage technology in short-rotation grain crop rotation, and to determine their effectiveness. Methods and materials. The study of the effectiveness of strip tillage was carried out on the short-rotational crop rotation “corn-corn-soybean”, with a total area of 21 hectares at the scientific research ground of L. Pogorilyy UkrNDIPVT. Agricultural machinery is generally accepted for the zone of the right-bank forest-steppe, except for the studied factors: A - tillage; B – mineral fertilizers; C is a predecessor culture. Field experiments, observations, and records were carried out according to the methods of B. Dospehov and V. Yeshchenko. The «Belarus MTZ 1025» tractor and the 4-row «STA-4» unit were used to form the strips, which allows for the arrangement of sections, their movement along the beam of the frame for cutting strips with a row spacing of 70 cm and 90 cm and applying fertilizers to each strip. Corn was sown with a row spacing of 70 cm along the path, and soybeans (with a row spacing of 45 cm) were sown on the sides of the deep loosener pass line with a step of 90 cm. Results. The short-rotation 3-field crop rotation “corn-corn-soybean” provides an increase in productivity with a narrow set of crops with a wide-row sowing method, which are combined in the crop rotation as good predecessors and belong to different taxonomic groups. The effectiveness of the proposed technical-technological solutions of strip tillage and sowing compared to traditional technology is determined by the reduction of used resources due to the smaller number of technological operations, fuel consumption, and increased productivity. Indicators of the structure of the biological yield of corn proved the advantage of strip cultivation over plowing: grain yield is higher by 17-21% (depending on the year). It is substantiated that the design parameters of the unit for forming strips should ensure the straightness of their cutting at a sufficient working speed and the preservation of unloosened strips for moving (without slipping) the wheels of the traction tractor; the seeder must ensure high-quality sowing of seeds on backgrounds with a large content of plant residues, the technological ability of conversion to the required width of rows, which is the basis for improving the progressive direction of growing corn and soybeans in short-rotation crop rotation. Conclusions. Grounded prospects for the implementation of strip tillage technology in short-rotation crop rotation and the feasibility of its implementation in the forest-steppe zone of Ukraine using the example of corn and soybeans. Emphasis is placed on the sources of efficiency and the main recommendations for machine complexes for resource-saving technologies for growing grain crops in small and medium-sized farms are outlined. Keywords: crop short-rotation, strip tillage, technical and technological solutions, agricultural machines, soybean, corn, productivity, crop yield.
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