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Nutritional regime of gray forest soil аt different anthropogenic loads

The aim of the research is to establish the peculiarities of the formation of the nutrient regime of gray forest soil with different systems of basic cultivation, fertilization and sealing of by-products of crops in short-rotation 4-field grain crop rotation – winter wheat–corn for grain–barley–soybean. Evaluate the quantitative inflow of biomass, participation in the formation of the nutrient regime of gray forest soil, especially the differentiation of 0–40 cm of soil layer depending on the distribution of nutrients in different tillage soil systems. The studies were carried out in a long-term stationary experiment of the department of soil cultivation and weed control of the NSC «Institute of Agriculture of the NAAS», founded in 1969. The fertilization system consisted of the application of mineral fertilizers N65Р58К68 kg acting things per 1 ha of crop rotation area. As an organic fertilizer, we used by-products of crop rotation, where during 2009–2013 received an average of 5,17–5,50 t/ha, and 2014–2017 – 6,65–7,76 t/ha of crop rotation. The existing yield of the main product significantly influenced the volume of the non-commodity part, with the growth of the main product, the growth of by-products also took place in direct proportion. Nitrogen removal averaged 105 kg/ha, and with biomass it returned on average 55,4 kg/ ha, nitrogen with a full mineralization cycle, in general, this corresponds to 45–47 % of the share of costs. In general, the return of phosphorus from by-products for the rotation of 5 received an average of 12,0–16,7 kg/ha and 4-field crop 26 rotation 19,5–22,0 kg/ha, which was 35–40 % of the total removal harvest. The soil received many times more potassium from the biomass of agricultural crops than part of the cost of the main product, due to the attraction of the maize leaf mass, from which an average of 177–253 kg/ha enters the soil, and for crop rotation – 61,4–95,4 kg/ha per hectare of sown area.

Key words: gray forest soil, soil nutrient regime, recycling of nutrients, main and by-products of crops.

 

 

Borys N. https://orcid.org/0000-0002-9385-1263


Krasjuk L.


Reference: 
1. Baliuk, S.A. (2011). Rozrahunok balansu gumusu i pozhyvnyh rechovyn u zemlerobstvi Ukrai'ny na riznyh rivnjah upravlinnja [Calculation of the balance of humus and nutrients in agriculture of Ukraine at different levels of government]. NNC Instytut g'runtoznavstva ta agrohimii' im. O.N. Sokolovs'kogo [NSC Institute of Soil Science and Agrochemistry O.N. Sokolovsky]. Kharkiv, KP City printing house, 30 p.
2. Borys, N. (2019). Pozhivnij rezhim ґruntu za vikoristannja bіomasi kul'tur [Soil nutrient regime using crops biomass]. Propozicіja [Sentence], no. (291), 12, pp. 72–74.
3. Gamaljej, V.I., Dragan, M.I., Shkarivs'ka, L.I. (2010). Rodjuchist' sirogo lisovogo g'runtu za riznyh umov vykorystannja [Fertility of gray forest soil under different conditions of use]. Visnyk agrarnoi' nauky [Bulletin of Agricultural Science], no. 7, pp. 10–15.
4. Hanhur, V.V. (2009). Caryca polej v monokul'ture: produktyvnost' kukuruzy na zerno pry bessmennom vurashhyvanyy v sevooborote [The queen of fields in monoculture: the productivity of corn for grain during continuous cultivation and crop rotation]. Zerno [Grain], no. 6, pp. 27–29.
5. Gordijenko, V.P., Bodnja, V.I. (2005). Vplyv tryvalogo zastosuvannja riznyh system udobrennja j obrobitku g'runtu v sivozminah na urozhajnist' jarogo jachmenju [Influence of long-term application of different systems of fertilizer and tillage in crop rotations on spring barley yield]. Naukovi praci Poltavs'koi' derzhavnoi' agrarnoi' akademii' [Scientific works of Poltava State Agrarian Academy]. Poltava, Issue 4 (23), pp. 94–100.
6. Demydenko, O.V., Blashhuk, M.I., Shapoval, I.S. (2016). Krugoobig organichnogo vuglecju v agrocenozah riznorotacijnyh sivozmin livoberezhnogo Lisostepu [The cycle of organic carbon in the agrocenoses of rotational crop rotations of the left-bank Forest-Steppe]. Posibnyk Ukrai'ns'kogo hliboroba [Handbook of Ukrainian farmers]. Ministry of AIC. Institute of Plant Breeding named after Yuryeva, pp. 179–182.
7. Derzhavna sluzhba statystyky Ukrai'ny [State Statistics Service of Ukraine]. Obsjag vyrobnyctva, urozhajnist' ta zibrana ploshha sil's'kogospodars'kyh kul'tur za i'h vydamy na 01 lystopada 2019 roku [Production volume, yield and harvested area of crops by their types on November 1, 2019]. Available at: http://www.ukrstat.gov.ua/
8. Degodjuk, E.G. (2014). Zastosuvannja pobichnoi' produkcii' roslynnyctva i syderativ u vidnovljuval'nomu zemlerobstvi Ukrai'ny [Application of crop by-products and greens in regenerative agriculture of Ukraine]. Kyiv, Agrarian Science, 60 p.
9. Kamins'kyj, V.F., Gangur, V.V. (2018). Vynos pozhyvnyh rechovyn sil's'kogospodars'kymy kul'turamy riznorotacijnyh sivozmin livoberezhnogo Lisostep: zb. nauk. prac' Nacional'nogo naukovogo centru «Instytut zemlerobstva NAAN» [Removal of nutrients by agricultural crops of rotational crop rotations of the left-bank ForestSteppe: coll. Science. Proceedings of the National Research Center "Institute of Agriculture NAAS"]. Issue 3, pp. 3–10.
10. Lebid', Je.M., Kovalenko, V.Ju., Chaban, V.I. (2003). Vykorystannja pobichnoi' produkcii' poperednyka pid kukurudzu [The use of by-products of the predecessor for corn]. Bjul. in-t zernovogo gospodarstva stepovoi' zony NAAN Ukrai'ny [Bull. Institute of Grain Management of the Steppe Zone of NAAS of Ukraine]. Dnipropetrovsk, no. 20, pp. 9–11.
11. Boyko, P., Litvinov, D., Demidenko, O., Blashchuk, M., Rasevich, V. (2019). Prediction humus level of black soils of forest-steppe Ukraine depending on the application of crop rotation, fertilization and tillage International Journal of Ecosystems and Ecology Science (IJEES). Vol. 9 (1), P. 155–162. Available at: https://doi.org/10.31407/ijees9118
12. Litvinov, D.V., Borys, N.Je. (2018). Recyrkuljacija organichnoi' rechovyny ta biogennyh elementiv u riznorotacijnyh sivozminah [Recycling of organic matter and nutrients in rotational crop rotations]. Vidomchyj tematychnyj zbirnyk naukovyj zbirnyk «Zemlerobstvo» [Interdepartmental thematic collection scientific collection "Agriculture"]. Kyiv, PV Edelweiss, no. 1 (94), pp. 4–19.
13. Malijenko, A.M., Borys, N.Je. (2016). Vlijanie sposobov osnovnoj obrabotki i pobochnoj produkcii predshestvennika na plotnost' slozhenija pochvy v sevooborote: zbіrnik naukovih prac' Umans'kogo nacіonal'nogo unіversitetu sadіvnictva [Influence of the main processing methods and by-products of the predecessor on the density of the soil in the crop rotation: collection of Science Practitioners of the Uman National University of Gardens]. Uman, UNUS, Vol. 89, Part 1, Agricultural sciences, pp. 113–125. Available at: http://nbuv.gov.ua/ UJRN/zhpumus_2016_89(1)__17.
14. Malijenko, A.M., Tarariko, N.M., Zvedenjuk, T.B., Ljuboms'kyj, V.S. (2016). Dynamika rodjuchosti chornozemu zvychajnogo v bezzminnomu posivi kukurudzy i v korotkorotacijnij sivozmini [Dynamics of fertility of common chernozem in uninterrupted sowing of corn and in short-rotation crop rotation]. Mizhvidomchyj tematychnyj naukovyj zbirnyk «Zemlerobstvo» [Interdepartmental thematic scientific collection «Agriculture»]. Kyiv, Issue 1 (90), pp. 32–36.
15. Myshustyn, E.N. (1983). Puty uluchshenyja azotnogo balansa pahotnyh pochv SSSR y vypolnenye prodovol'stvennoj programmy [Ways to improve the nitrogen balance of arable soils of the USSR and the implementation of the food program]. Publishing house ANSSR ser. Biol., no. 3, 325 p.
16. Jatchuk, V.Ja., Gavrilov, S.O., Krasjuk, L.M., Zvedenjuk, T.B. (2012). Recirkuljacіja elementіv zhivlennja za vikoristannja na dobrivo pobіchnoі' produkcіі' roslinnictva ta rіznih sposobіv osnovnogo obrobіtku gruntu [Recycling of nutrients for the use of crop by-products and various methods of basic tillage]. Naukovij zhurnal «Bіologіchnі sistemi» [Scientific Journal "Biological Systems"]. Vol. 4, Issue 3, pp. 356–359.
17. Hrystenko, A.A. (2010). K voprosu o plodorodyy chernozemnyh pochv [On the fertility of chernozem soils]. Agrohimija i g'runtoznavstvo [Agrochemistry and Soil Science]. Special issue, Book 3, pp. 292–294.
18. Tkachenko, M., Borys, N. (2019). Zalezhnіst' strukturi posіvnih ploshh v Ukrai'nі za zrostajuchogo popitu na sіl's'kogospodars'ku produkcіju ta zmіni klіmatu [Dependence of the structure of sown areas in Ukraine with the growing demand for agricultural products and climate change]. Propozicіja [Sentence], no. (288), 9, pp. 34–38.
19. Roy, R.N., Misra, R.V., Lesschen, J.P., Smaling, E.M. Assessment of soil nutrient balance. Approaches and Methodologies. FAO 2003. Available at: http://www.fao. Org/3/y5066e/y5066e00.htm#Contents
20. Oehl, F., Frossard, E., Fliessbach, A. (2004). Basal organic phosphorus mineralization in soils under different farming systems. Soil. Biochem. Vol. 36, pp. 667–675.
21. Ukraine Corn: Harvest Reports Cite Record Production. Foreign Agricultural Service. USDA 4 December 2018. Office of Global Analysis. Available at: https://ipad.fas. usda.gov/

 

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AGROBIOLOGY №2 2020