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Highly productive soils in Ukraine have been losing their main quality indicators in the last decade. This is due to the violation of basic agricultural laws, particularly in the selection of agricultural crops in crop rotation, climate change, and other negative manifestations. Successful farming in the South Steppe zone of Ukraine significantly depends on moisture conditions, specifically the amount of precipitation during plant vegetation and initial moisture reserves during sowing. The first limiting factor for crop yields in arid regions is moisture. Depleted and compacted soils are unable to accumulate and retain it. Under such conditions, it is necessary to develop new approaches and implement the previously developed technological measures that would contribute to increasing the productivity of agricultural crops while preserving soil fertility. This involves enriching soils with organic matter, which structures them as well as increases their water absorption and retention capacity. In the absence of manure in the fields, it is advisable to use post-harvest residues of all crops and straw. These are the most resource-efficient and environmentally friendly measures. It has been determined that incorporating straw into the soil can increase the yield and quality of agricultural crops, as demonstrated in the cultivation of sorghum.
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Rocznik
Tom
Strony
324--332
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
autor
- Mykolaiv National Agrarian University, Georgiya Gongadze Str., 9, Mykolaiv, 54008, Ukraine
autor
- Mykolaiv National Agrarian University, Georgiya Gongadze Str., 9, Mykolaiv, 54008, Ukraine
autor
- Mykolaiv National Agrarian University, Georgiya Gongadze Str., 9, Mykolaiv, 54008, Ukraine
autor
- Kherson State Agrarian and Economic University, Streetenska Str., 23, Kherson, 73006, Ukraine
Bibliografia
- 1. According to the information from the Kherson branch of the State Soil Protection Department. Alternative measures to restore soil fertility in modern farming conditions. https://khoda.gov.ua/alternativn%D1%96-zahodi-v%D1%96dtvorennjarodjuchost%D1%96-grunt%D1%96v--v-suchasnihumovah-gospodarjuvannja (accessed: 2.01.2022).
- 2. Balyuk S.A., Medvedev V.V., Vorotintseva L.I., Shimel V.V. 2017. Modern problems of soil degradation and measures to achieve its neutral level. Bulletin of Agrarian Science, 8, 5-11.
- 3. Gamajunova V. 2017. Sustainability of Soil fertility in Southern Steppe of Ukraine, Depending on fertilizers and irrigation. In: Dent D. & Dmytruk Yu. (Eds.). Soil Science Working for a Living: Applications of soil science to present-day problems. Switzerland: Springer International Publishing, 159-166. https://doi.org/10.1007/978-3-319-45417-7
- 4. Gamayunova V.V., Kovalenko O.A., Khonenko L.G. 2018. Modern approaches to agricultural industry management on the basis of biologization and resource conservation. Collective monograph. Edited by P.V. Pysarenko, T.O. Chaika, I.O. Yasnolob. Poltava PDAU, 324, 232-241.
- 5. Gamajunova V., Panfilova A., Kovalenko O., Khonenko L., Baklanova T., Sydiakina O. 2021. Better management of soil fertility in the southern steppe zone of ukraine. Springer International Publishing Switzerland. Soils Under Stress, 163-171. https://doi.org/10.1007/978-3-030-68394-8_16.
- 6. Gamayunova V., Honenko L., Baklanova T., Pilipenko T. 2023. Current trends in sorghum use, grain yield and water consumption depending on the hybrid composition. Ecological Engineering & Environmental Technology, 24(6), 211-220. https://doi.org/10.12912/27197050/168451
- 7. Gamayunova V. Sydiakina O. 2023. The problem of nitrogen in modern agriculture. Ukrainian Black Sea Region Agrarian Science, 27(3), 46-61.
- 8. Hospodarenko H.M., Prokopchuk I.V., Stasinievych O. Yu. & Boiko V.P. 2019. Influence of fertilizer application ratio on field crop rotation effectiveness. Scientific Horizons, 3(76), 80-86. https://doi.org/10.33249/2663-2144-2019-76-3-80-86
- 9. Ivanchuk M.D. 2022. Methods of processing plant residues. Agronomist. URL: https://www.agronom.com.ua/sposoby-obrobitkuroslynnyh-reshtok/(accessed: 2.01.2022).
- 10. Karbivska U., Kurgak V., Gamayunova V., Butenko A., Malynka L., Kovalenko I., Onychko V., Masyk I., Chyrva A., Zakharchenko E., Tkachenko O., Pshychenko O. 2020. Productivity and quality of diverse ripe pasture grass fodder depends on the method of soil cultivation. Acta Agrobotanica, 73(3), article: 7334.
- 11. Kyryliuk V.P. 2018. Influence of long-term use of primary tillage systems on the formation of the weed component of winter wheat crops. Scientific Horizons, 1(64), 49-55.
- 12. Medvedev V.V., Plesko I.V., Nakiski S.G., Titenko G.V. 2018. The degradation of soils in the world, the experience of its prevention and overcoming. Kharkiv, a kind of stylish typography, pp. 168.
- 13. Skrylnyk Y.V., Hetmanenko V.A., Kutova A.M. 2018. Calculative models of humus balance as an indicator of agroecological stability of land use organization. Scientific Horizons, 7-8(70), 139-144.
- 14. Olifirovych V. O., Osadchuk V. D., Chynchyk O.S. & Kravchenko, V.S. 2018. The accumulation of root mass of legumes and grasses depending on the composition of the grass mix and fertilizer. Herald of Agrarian Sciences, 11, 201-208. https://doi.org/10.31395/2415- 8240-2018-93-1-201-208.
- 15. Ovcharuk V.V. 2020а. Plant production by-products - an alternative to replenishing soil organic matter. Dynamics of the development of world science. Vancouver, Canada, 9, 781-788.
- 16. Ovcharuk V. 2020b. Biomass potential of post-harvest residues as organic fertilizers. The scientific heritage, 49, 4-7.
- 17. Petrychenko V.F. and Hetman N.Ya. 2017. Factors of increase of productivity of agrophytocenoses of perennial legumes in the conditions of the Rightbank Forest Steppe. FODDER and fodder production, 84, 3–10.
- 18. Popov S., Avramenko S., Manko K. 2022. No manure - take straw! Agroexpert. https://btu-center.com/upload/images/stories/u_to_know/agroexp(6)14.pdf (accessed: 2.01.2022).
- 19. Sendetsky V.M. 2019. Yield and quality indicators of maize grain for the combined application of straw and cover crops. Tavria Scientific Bulletin, 105, 147-154.
- 20. Sydyakina O.V. 2021. Efficiency of biodegraders in modern agrotechnologies. Tavria Scientific Bulletin. Agricultural Sciences, 119, 123-129.
- 21. Tkachuk O.P., Ovcharuk V.V. 2020. Ecological potential of leguminous crops in modern intensive crop rotation. Agriculture and Forestrym 18, 161-171.
- 22. Ushkarenko V.O., Vozhegova R.A., Goloborodko S.P., Kokovikhin S.V. 2013. Statistical analysis of the results of field experiments in agriculture. Kherson: Ailant, pp. 381.
- 23. Ushkarenko V.O., Vozhegova R.A., Goloborodko S.P., Kokovikhin S.V. 2014. Field research methodology: Textbook. Kherson: Hrin D.S., pp. 448.
- 24. Vasilenko M.H. 2017. Organic-mineral fertilizers and plant growth regulators in organic farming. Bulletin of Agrarian Science, 2, 11-18. https://doi.org/10.31073/agrovisnyk201702-02.
- 25. Veremeenko S.I., Furmants O.A. 2014. Changes in the agrochemical properties of dark gray soil in the western ukrainiah forest-steppe under the effect of long-term agricultural Use. Eurasian Soil Science, 47(5), 483–490.
- 26. Veremeyenko S.I., Semenko L.O. 2019. Modern problems of soil degradation - trophic aspect. Scientific Horizons, 1(74), 69-75.
- 27. Vozhegova R.A., Lavrinenko Yu.O., Malyarchuk M.P. 2014. Methods of field and laboratory research on irrigated lands. Kherson: Hrin D.S., pp. 285.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9363a653-b371-4533-b869-8f1e7cfeb2d2