Analysis of the State and Assessment of Possible Ways of Preservation of Soil Fertility During its Mechanical Treatment

Bulgakov, Volodymyr; Gadzalo, Iaroslav; Ivanovs, Semjons; Adamchuk, Valerii; Kaminskyi, Viktor; Nadykto, Volodymyr; Nowak, Janusz

doi:10.12911/22998993/146334

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Tytuł artykułu

Analysis of the State and Assessment of Possible Ways of Preservation of Soil Fertility During its Mechanical Treatment

Autorzy

Bulgakov Volodymyr , Gadzalo Iaroslav , Ivanovs Semjons , Adamchuk Valerii , Kaminskyi Viktor , Nadykto Volodymyr , Nowak Janusz

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DOI

10.12911/22998993/146334

Warianty tytułu

Języki publikacji

Abstrakty

The issues of soil fertility preservation are relevant in all countries of the world. Concrete actions, technological and organisational solutions allowing to overcome this complex and continuous phenomenon by using exclusively agroengineering approaches are proposed. The preservation of the structure of agricultural soils requires urgent adoption of technological and organisational decisions in the following areas: maximum limitation of immobilisation of nitrogen in the soil after introduction of organic residues into the soil; development of technological methods and tools for the soil cultivation, aimed at loosening the surface layer of the soil with a minimum area of its contact with the airborne environment; improvement of the fundamentals of aggregation of agricultural machines, taking into account the maximum permissible slipping of wheeled energy facilities at the level of 15%, and a conceptual approach to their ballasting with respect to the requirements of the tire ecophilicity; application of a soil structure indicator when determining the ploughing frequency by means of ploughs with skimmers or their twotier analogs; wide practical application of the controlled traffic farming system; adoption of a legislative document on specific conformity of the land users for the level of soil fertility for agricultural purposes.

Słowa kluczowe

soil fertility humus destruction soil structure mechanical treatment

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2022

Tom

Vol. 23, nr 4

Strony

128--136

Opis fizyczny

Bibliogr. 22 poz., rys.

Twórcy

autor

Bulgakov Volodymyr

Department of Mechanics, National University of Life and Environmental Sciences of Ukraine, 15, Heroyiv Oborony Str., Kyiv, 03041, Ukraine

autor

Gadzalo Iaroslav

National Academy of Agrarian Sciences of Ukraine, 9 Mykhailo Omelyanovych-Pavlenko Str., Kyiv, 01010, Ukraine

autor

Ivanovs Semjons

semjons@apollo.lv

Faculty of Engineering, Latvia University of Life Sciences and Technologies, 2 Liela str., Jelgava, LV-3001, Latvia

https://orcid.org/0000-0002-9072-1340

autor

Adamchuk Valerii

Institute of Mechanics and Automation of Agricultural Production of NAAS, 11 Vokzalna Str., Glevakcha, 08631, Ukraine

autor

Kaminskyi Viktor

National Academy of Agrarian Sciences of Ukraine, 9 Mykhailo Omelyanovych-Pavlenko Str., Kyiv, 01010, Ukraine

autor

Nadykto Volodymyr

Department of Machine-Using in Agriculture, Dmytro Motornyi Tavria State Agrotechnological University, 18, Khmelnytskiy Ave., Melitopol, 72310, Ukraine

autor

Nowak Janusz

Department of Operation of Machines and Management of Production Processes, University of Life Sciences in Lublin, ul. Akademicka 13, Lublin, 20-950, Poland

Bibliografia

1. Adamchuk V., Bulgakov V., Tanchik S., Nadikto V. 2016. Modern problems of ploughing as a special method of tillage. Bulletin of Agrarian Science, Kyiv, 1, 5–10.
2. Balyuk S., Medvedev V., Vorotintseva L., Shimel V. 2017. Current problems of soil degradation and measures to achieve a neutral level. Bulletin of Agrarian Science, Kyiv, 11: 5–11 (In Ukrainian)
3. Barwicki J., Gach St., Ivanovs S. 2012. Proper utilization of soil structure for crops today and conservation for future generations. Engineering for Rural Development, 11, 10–15.
4. Bulgakov V., Nadykto V., Kyurchev S., Nesvidomin V., Ivanovs S., Olt J. 2019. Theoretical background for increasing grip properties of wheeled tractors based on their rational ballasting. Agraarteadus, 30(2), 78–84.
5. Bulgakov V., Pascuzzi S., Nadykto V., Ivanovs S., Adamchuk V. 2021. Experimental study of the implement-and-tractor aggregate used for laying tracks of permanent traffic lanes inside controlled traffic farming systems. Soil and Tillage Research, 208, 104895.
6. Guskov V., Velev V.N., Atamanov Y., Bocharov N., Ksenevich I., Solonsky A. 2008. Tractors: Theory. Moscow: Mechanical Engineering, 376. (in Russian)
7. Hakansson I. 2005. Machinery-inducted compaction of arable soils. Incidence-consequences-counter measures. Swedish University of Agricultural Sciences/ Report of Soils Sciences Department, 109, 153.
8. Ivanovs S., Bulgakov V., Adamchuk V., Kyurchev V., Kuvachov V. 2018. Experimental research on the movement stability of a ploughing aggregate, composed according to the “push-pull” scheme. INMATEH Agricultural Engineering, 56(3), 9–16.
9. Janulevičius A., Giedra K. 2005. Tractor ballasting in field transport work. Transport, 20(4), 146–153.
10. Kartamyshev N., Shumakov V., Zelenina A., Timonov V. 2008. The role of cultivation, cultivated plants and soil fauna in humus formation. Bulletin of the Kursk State Agricultural Academy, Kursk, 1, 8–15. (in Russian)
11. Novakovska I., Bulgakov V., Rucins A., Dukulis I. 2018. Analysis of soil tillage by ploughs and optimisation of their aggregation. Engineering for rural development, 17, 335–341.
12. Nugis E., Velykis A., Satkus A. 2016. Estimation of soil structure and physical state in the seedbed under different tillage and environmental conditions. Zemdirbyste, 103(3), 243–250.
13. Roncero-Ramos B., Román J.R., Gómez-Serrano C., Cantón Y., Acién F.G. 2019. Production of a biocrust-cyanobacteria strain (Nostoc commune) for large-scale restoration of dryland soils. Jounal of Applied Phycology, 31, 2217–2230.
14. Sokolova T., Trofimov S. 2009. Sorption properties of soils. Adsorption. Cation exchange: a textbook on some chapters of soil chemistry. Tula, 172. (in Russian)
15. Standard GOST 23740-79. Soils. Methods for laboratory determination of organic matter content. Moscow, 1987.
16. Standard of Ukraine DSTU 4521: 2006. Mobile Agricultural Machinery. Standards for normative allowance to machinery loading-pressure on soil, Kyiv, 2006.
17. Kaminski E. 2011. Conservation tillage systems and environment protection in sustainable agriculture. Institute of Technology and Life Sciences, Falenty, 86.
18. Nadykto V., Arak M., Olt J. 2015. Theoretical research into the frictional slipping of wheel-type undercarriage taking into account the limitation of their impact on the soil. Agronomy Research, 13, 148–157.
19. Skrypchuk P., Zhukovskyy V., Shpak H., Zhukovska N., Krupko H. 2020. Applied Aspects of Humus Balance Modelling in the Rivne Region of Ukraine. J. Ecol. Eng., 21(6), 42–52.
20. Šimanský V., Šrank D., Jonczak J., Juriga M. 2019. Fertilization and Application of Different Biochar Types and their Mutual Interactions Influencing Changes of Soil Characteristics in Soils of Different Textures. J. Ecol. Eng., 20(5), 149–164.
21. Williams V. 2009. Soil science with the basics of agriculture. Lviv, 472.
22. Wojciechowski T., Mazur A., Przybylak A., Piechowiak J. 2020. Effect of Unitary Soil Tillage Energy on Soil Aggregate Structure and Erosion Vulnerability. J. Ecol. Eng., 21(3), 180–185.

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Bibliografia

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