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Biogeochemical Principles of Plant Product Quality in Agrolandscapes with Typical Chernozems

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Peculiarities of formation, distribution and fertility of typical chernozems on the territory of Europe as a whole and within the agricultural lands of Ukraine were given. It is noted that the existing agro-industrial characteristics of agricultural products least reflect the quality of raw materials and therefore are not analyzed as a factor influencing public health. The relevance of biogeochemical research of food (agricultural) raw materials and the introduction of new criteria for its quality were outlined. The purpose of the presented research was to expand the quality indicators of agricultural products on the basis of topical structure of agricultural landscapes and biogeochemical criteria for evaluating "typical chernozems – cereals and vegetables" systems. A system of biogeochemical parameters and quality criteria of plant products containing two components has been developed. The first component is the spatial differentiation of natural and agro-technological features of agrolandscapes (systems of rocks-typical chernozems-cultures), which highlight the prevalence of nutrients in bedrock, particle size distribution of typical chernozems and the ratio of their prevalence within the administrative regions of Ukraine. There are 12 groups of agricultural landscapes that differ in these features. A set of biogeochemical parameters for the distribution of essential elements in the components of the agricultural landscape, criteria for their ecological balance and impact on the quality of agricultural raw materials.Implementation of the proposed criteria for the quality of agricultural products was carried out on the territories of two agrolandscapes of typical chernozems in the Kyiv and Poltava regions.It was established that the physico-chemical balance of Zn, Cu and excess Mo in the rocks and soils of the agro-landscape of the Right Bank Forest-Steppe is not consistent with biogeochemical deficiency of copper and, in part, zinc in cereals (oats). The physico-chemical balance of Zn, Cu in the soils of the agro-landscape of the Left Bank Forest-Steppe does not agree with the biogeochemical deficiency of zinc in vegetable crops (potatoes, carrots, and beets). On the basis of the biogeochemical criteria for the distribution of Zn, Cu, Mo in agricultural landscapes, the proposed territorial measures to improve the quality of grain and vegetable products to prevent copper and zinc "hidden hunger" in the population.
Rocznik
Strony
304--316
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
  • Department of Landscape Protection, Biodiversity Conservation and Nature Preservation of the Institute of Agroecology and Environmental Management of NAAS, Kyiv, 12 Metrologichna str., 03143, Ukraine
  • Department of Agricultural Economics in the Agrosphere of the Institute of Agroecology and Environmental Management of NAAS, Kyiv, 12 Metrologichna str, 03143, Ukraine
  • Department of Agricultural Economics in the Agrosphere of the Institute of Agroecology and Environmental Management of NAAS, Kyiv, 12 Metrologichna str, 03143, Ukraine
  • AGH University of Science & Technology, Faculty of Energy and Fuels, ul. W. Reymonta 23, 30-059 Krakow, Poland
Bibliografia
  • 1. Balyuk S.A., Medvedev V.V., Tararico O.G., Grekov V.O., Balaev A.D. 2010. National report on the state of soil fertility of Ukraine. Kyiv, 112. (in Ukrainian)
  • 2. Barroso P.M., Winkler J., Oulehla J., Vaverková M.D. 2022. Effect of Application of Soil Amendments on the PAHs Level in the Fire-Affected Forest Soil. Journal of Ecological Engineering, 23(3), 26–38. https://doi.org/10.12911/22998993/145461
  • 3. Balyuk S.A., Lisovyi M.V., et al. 2016. Handbook of normative indicators of the quality of agricultural crops in different soil and climatic zones of Ukraine: reference and normative information. Kharkiv: Striped Typography, 46. (in Ukrainian)
  • 4. Chemistry of Europin`s Agricultural soil. 2012. Part В. P. 36.
  • 5. Dreshaj A., Millaku B., Abazi A.S., Gashi A. 2022. Soil Pollution Factors Affecting the Quality of Crops (Solanum Tuberosum L.). Journal of Ecological Engineering, 23(3), 109–115. https://doi.org/10.12911/22998993/145469
  • 6. Ivanov V.V. 1994. Ecological geochemistry of elements: a reference book / ed. E.K. Burenkov. M.: Nedra. T.1., 304. (in Russian)
  • 7. Galetsky L.S. et al. 2001. Geology and minerals of Ukraine. Atlas [maps]: scale 1:5,000,000. Kyiv: State Enterprise “Takispravi”, 168. (in Ukrainian)
  • 8. Klos V.R., Birke M., Zhovynskyi E.Ya., Akinfiev G.O., Amashukeli Y.A., Klamens R. 2012. Regional geochemical studies of the soils of Ukraine within the framework of the International Project on Geochemical Mapping of Agricultural and Pasture Lands in Europe (GEMAS). Environmental geochemistry, 1(12), 51–66. (in Ukrainian)
  • 9. Kovalsky V.V. 1978. Geochemical ecology – the basis of the system of biogeo-chemical zoning. Tr. Biogeochem. lab. Institute of geochem. and analyt. chem. them. IN AND. Vernadsky. M.: Science. 15, 3-21. (in Russian)
  • 10. Krupsky M.K. et al. 1972. Lands of the Ukrainian SSR [maps]: scale 1:750,000. Kyiv: Ukrzemproekt, 3. (in Ukrainian)
  • 11. Maps of Ukraine. Soils. Available online: https://geomap.land.kiev.ua/soil-2.html in Ukrainian
  • 12. Marynych O.M., Pashchenko V.M., Petrenko O.M., Shishchenko P.G. 2007. Landscapes of Ukraine: 1:5,000,000 scale map. National Atlas of Ukraine. Available online: https://www.cadastre.bg/archive/8zasedanie/prezentacii/ukraina/NAU.pdf in Ukrainian
  • 13. Palapa N.V., Kolesnyk Y.P., Skrypnyk G.L., Razumna L.Yu., Vesna V.Ya., Dzyubenko O.P., Rak V.V., Syvoglaz L.M., Kalinina M.A., Syvoglaz V.V. 2009. Ecological condition of rural settlement areas of Poltava region and ways to improve it (methodical recommendations) / edited by Acad. NAAS O.I. Furdychka Kyiv, 40. (in Ukrainian)
  • 14. Petrychenko V.F., Korniychuk O.V., Zemliany O.I., Voronetska I.S. 2019. Modern agrocenoses of the Pravoberezhny Forest Steppe: deepening risks and productivity. Available online: http://fri.vin.ua/conferenzii/2019.10.28. (in Ukrainian)
  • 15. Prokopenko O.M. et al. 2019. Agriculture of Ukraine. Statistical collection. Kyiv: State Statistics Service, 235. (in Ukrainian)
  • 16. Rudenko L.H., et al. 2009. Ecological atlas of Ukraine. Edited by Kyiv Center for Environmental Education and Information, 104. (in Ukrainian)
  • 17. Sobchyk W., Sternik K., Sobchyk E.J., Noga H. 2015. Rating of yielding of willow fertilized with sewage sludge. Annual Set The Environment Protection, 17(2), 1113–1124.
  • 18. Sobchyk W. 2014. Sustainable development of rural areas. Problems of Sustainable Development, 9(1), 119–126.
  • 19. Sozinov O.O., Priester B.S. et al. 1994. Methodology of continuous soil and agrochemical monitoring of agricultural lands of Ukraine. Kyiv: IAB UAAS, 162. (in Ukrainian)
  • 20. Storchak N.P. et al. 1984. Precambrian Geology and Metallogeny of the Ukrainian Shield. Set of cards: explanatory note. Kyiv. Book, 2, 85. (in Russian)
  • 21. Yatsuk I.P., Balyuk S.A. 2019. Methodology for agrochemical certification of agricultural lands (guiding regulatory document). Kyiv, 108. (in Ukrainian)
  • 22. Yehorova T.M. 2018. Ecological geochemistry of agricultural landscapes of Ukraine: monogr. / edited by O.I. Furdychka Kyiv: LLC “DIA”. 264. (in Ukrainian)
  • 23. Yehorova T.M. 2021. Biosphere ideas V.I. Vernadskyi as the theoretical foundations of agrarian ecology. Agroecological journal, 1, 7–17. (in Ukrainian)
  • 24. Yehorova T.M., Amashukeli Yu. A., Akinfiev G.O., Klos S.V. 2007. Landscape-geochemical basis of geochemical mapping of the Ukrainian Shield. Mineral resources of Ukraine, 1, 6–7. (in Ukrainian)
  • 25. Yehorova T.M., Shumygai I.V., Sapsai T.P. 2020. Biogeochemical chains of nutrient elements and the system of assessment of their agrotechnological deformations (methodical recommendations) / for the science. ed. O.I. Furdychka Kyiv: LLC “DIA”, 26. (in Ukrainian)
  • 26. Yehorova T.M. 2020. The influence of geochemical specialization of rocks on the ecological features of soils. Agroecological journal, 2, 24–30. https://doi.org/10.33730/2077-4893.2.2020.207677 (in Ukrainian)
  • 27. Zaritsky A.I. et al. 1989. Methodological recommendations for the rational use of complexes of geochemical methods for prospecting for ore deposits in large-scale geological mapping. Kyiv, 211. (in Russian)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5bf819d0-119c-4e21-a37c-b07c8edd5ef7
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