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The influence of fertilizer systems on plant residues mass of agrophytocoenoses of short-term crop rotation, the balance of soil humus and ecologization of agriculture

Three-year (2020–2022) studies on the black soil of a typical experimental field of the Bila Tserkva National Agrarian University found that on unfertilized variants fertilized with 6t/ha of manure + N64P54K58, 6t/ha of manure + N98P66K92 and 6 t/ha of manure + N126P82K116 according to the use of non-commercial products of agrophytocenoses as organic fertilizer, the dry matter of root residues was 2.64, respectively; 3.89; 4.64 and 5.13 tons, plant residues – 3.63; 5.25; 6.24 and 6.84 tons, and crop rotation productivity – 1.98; 3.42; 4.40 and 4.83 tons of dry matter of the main products and 4.48; 7.84; 10.22 and 11.43 tons of the main products and by-products of crops per hectare of arable land. With an increase in fertilizer application rates, the increase in marketable products of agrophytocenoses is higher than that of plant residues. At the same time, the ratio of the dry mass of the main products and byproducts of agricultural plants to the mass of their root and plant residues, as well as the share of their nonmarketable products, is increasing. A positive balance of soil humus was recorded only in the fields of white mustard and buckwheat, it is negative under the rest of the agrophytocenoses. On unfertilized plots fertilized with 6 tons of manure + N64P54K58, 6 tons of manure + N98P66K92 and 6 tons of manure + N126P82K116 with the use of by-products of agrophytocenoses as organic fertilizer, the balance of humus in the arable layer of typical black soil was positive and was, respectively, 0.34; 0.63; 0.55 and 0.60 t per hectare of crop rotation. When noncommodity crop production was removed from the fields, this indicator was negative in all experimental variants. In general, the share of humus formed from manure, plant residues, green manure and non-commodity crop products in the crop rotation was 0, 36, 31 and 33% on unfertilized plots, respectively; 10, 30, 27 and 33 % – fertilized with 6 t/ha of manure + N64P54K58; 8, 29, 27 and 36 % – fertilized with 6 t/ha of manure + N98P66K92; 7.29, 26 and 38 % – fertilized with 6 t/ha of manure + N126P82K116. According to the indicator of the ecologization coefficient of agriculture, the zero fertilization system (without the application of manure and mineral fertilizers) corresponds to biological farming, the first is ecological, the second and the third – the ecologization of the branch. Agrotechnically efficient is the use of agrophytocenoses by-products as organic fertiliser and ploughing only for a row crop in a five-field crop rotation.

Key words: fertilization system, plant residues, humus, agrophytocenoses, crop rotation, ecologization , by-products (non-marketable products), productivity.

 

Prymak I. http://orcid.org/0000-0002-0094-3469


L. Ezerkovska


Voytovik M.


V. Karaulna


Panchenko O.


Kachan L.


Obrajyy S. https://orcid.org/0000-0002-3532-6655


Reference: 
1. Baliuk, S.A., Medvediev, V.V., Momot, H.F., Levin, A.Ia. (2020). Pidtrymuite hrunt zhyvym, zakhyshchaite yoho bioriznomanittia [Keep the soil alive, protect its biodiversity] Visnyk ahrarnoi nauky [Bulletin of agricultural science]. no. 12, pp. 12–17.
2. Baliuk, S.A., Danylenko, A.S., Furdychko, O.I. (2017). Zvernennia do kerivnytstva derzhavy shchodo podolannia kryzovoi sytuatsii u sferi okhorony zemel [Appeal to the state leadership on overcoming the crisis situation in the field of land protection]. Visnyk s.-h. nauky [Bulletin of agricultural science]. no. 11, pp. 5–8.
3. Yatsuk, I.P. (2015). Periodychna dopovid. Pro stan hruntiv na zemliakh silskohospodarskoho pryznachennia Ukrainy [Periodic report. On the condition of soils on agricultural lands of Ukraine]. Kyiv, 118 p. 4. Prymak, I.D., Yezerkovska, L.V., Fedoruk, Yu.V. (2020). Zemlerobstvo: pidruchnyk [Agriculture]. Vinnytsia, TOV TVORY, pp. 3–5.
5. Yatsuk, I.P., Mokliachuk, L.I. (2018). Ekolohichni indykatory zelenoho zrostannia silskoho hospodarstva: monohrafiia [Ecological indicators of green growth of agriculture]. Kyiv, DIA, 159 p.
6. Kuzin, N.V. (2016). Reabilitatsiia dehradovanykh i maloproduktyvnykh zemel silskohospodarskoho pryznachennia [Rehabilitation of degraded and unproductive agricultural lands]. Sumy, publishing and production enterprise "Mriya-1", pp. 35–36, 47 p.
7. Popova, O.L. (2013). Otsinka suspilnykh zbytkiv i rozmiru vidshkoduvannia za pohirshennia yakosti silskohospodarskykh zemel [Assessment of social damages and the amount of compensation for the deterioration of the quality of agricultural land]. Ekonomika Ukrainy [Ukraine economy]. no. 3 (616), pp. 47–56.
8. Prymak, I.D., Tsiuk, O.A., Martyniuk, I.V. (2022). Evoliutsiia system zemlerobstva v Ukraini: monohrafiia [Evolution of farming systems in Ukraine]. Vinnytsia, TOV TVORY, pp. 433–453, pp. 469–479.
9. Prymak, I.D., Martyniuk, I.V., Fedoruk, Yu.V. (2022). Naukovi osnovy suchasnykh system vitchyznianoho zemlerobstva: navchalnyi posibnyk [Scientific foundations of modern systems of domestic agriculture]. Vinnytsia, TVORY, pp. 280–292, pp. 308–313.
10. Zaryshniak, A.S., Tsvei, Ya.P., Ivanina, V.V. (2015). Optymizatsiia udobrennia ta rodiuchosti hruntu v sivozminakh [Optimization of fertilization and soil fertility in crop rotations]. Kyiv, Agrarian science, pp. 48–49, 185 p.
11. Tanchyk, S.P., Tsiuk, O.A., Tsentylo, L.V. (2015). Naukovi osnovy system zemlerobstva: monohrafiia [Scientific foundations of farming systems: monograph]. Vinnytsia, TOV Nilan- LTD, pp. 97–98, pp. 253–258, 274 p. 110 Агробіологія, 2023, № 2 agrobiologiya.btsau.edu.ua
12. Tsvei, Ya.P. (2014) Rodiuchist hruntiv i produktyvnist sivozmin: monohrafiia [Soil fertility and crop rotation productivity]. Kyiv, TsP Komprynt, pp. 78–87, 331 p.
13. Skrylnyk, Ye.V., Hetmanenko, V.A., Kutova, A.M., Tovstyi, Yu.M. (2020). Balans humusu v chornozemi opidzolenomu vazhkosuhlynkovomu pid vplyvom kuriachoho poslidu i kompostiv na yoho osnovi [The balance of humus in podsolized heavy loam chernozem under the influence of chicken droppings and composts based on it]. Visnyk ahrarnoi nauky [Bulletin of agricultural science]. no. 4, pp. 21–27.
14. Demydenko, O.V. (2022). Rodiuchist chornozemu opidzolenoho za riznykh system udobrennia v ahrotsenozi Tsentralnoho Lisostepu [Fertility of podzolized chernozem under different fertilization systems in the agrocenosis of the Central Forest Steppe]. Visnyk ahrarnoi nauky [Bulletin of agricultural science]. no. 3, pp. 5–12.
15. Demydenko, O.V., Boiko, P.I., Blashchuk, M.I., Shapoval, I.S., Kovalenko, N.P. (2019). Sivozminy ta rodiuchist chornozemu Livoberezhnoho Lisostepu: monohrafiia. Smila [Crop rotations and fertility of chernozem of the Left Bank Forest Steppe]. pp. 253–255, pp. 397–398, 402 p.
16. Kryvenko, A.I. (2018). Ahrobiolohichni osnovy tekhnolohii vyroshchuvannia ozymykh zernovykh kultur u Pivdennomu Stepu Ukrainy: monohrafiia [Agrobiological bases of technologies for growing winter grain crops in the Southern Steppe of Ukraine]. Vinnytsia, TOV Nilan-LTD, pp. 63–65, pp. 106–108.
17. Skrylnyk, Ye.V., Kutova, A.M., Hetmanenko, V.A. (2016). Zminy orhanichnoi rechovyny chornozemiv pid vplyvom tryvaloho silskohospodarskoho vykorystannia [Changes in the organic matter of chernozems under the influence of long-term agricultural use. Ukrainian farmer's guide]. Posibnyk ukrainskoho khliboroba [Ukrainian farmer's guide]. Vol. 1, pp. 121–123.
18. Bohdanovych, R.P., Oliinyk, V.S. (2014). Vplyv nadkhodzhennia roslynnykh reshtok kultur korotkorotatsiinoi sivozminy na vmist rukhomykh humusovykh rechovyn v chornozemi typovomu lehkosuhlynkovomu Pravoberezhnoho Lisostepu [The influence of the arrival of plant residues of short-rotation crops on the content of mobile humic substances in the typical light loam chernozem of the Right Bank Forest Steppe]. Naukovi pratsi Instytutu bioenerhetychnykh kultur i tsukrovykh buriakiv [Scientific works of the Institute of Bioenergy Crops and Sugar Beet]. Issue 21, pp. 20–24.
19. Prysiazhniuk, M.V. (2010). Natsionalna dopovid pro stan rodiuchosti hruntiv Ukrainy [National report on the state of soil fertility of Ukraine]. Kyiv, 112 p.
20. Tsvei, Ya.P., Ivanina, R.V., Dubovyi, Yu.O. (2019). Stan humusu chornozemu vyluhuvanoho ta pisliadiia dobryv za tryvaloho yikh zastosuvannia u zernovykh lankakh sivozminy [The condition of leached chernozem humus and the effect of fertilizers during their long-term use in the grain links of crop rotation]. Novitni ahrotekhnolohii [The latest agricultural technologies]. 7 p.
21. Voitovyk, M.V. (2023). Nakopychennia pisliazhnyvnykh reshtok u hrunti korotko rotatsiinykh sivozmin [Accumulation of post-harvest residues in the soil of short rotation crop rotations]. Peredhirne ta hirske zemlerobstvo i tvarynnytstvo: mizh vid. temat. nauk. zb. [Foothill and mountain agriculture and animal husbandry: interdisciplinary. subject of science coll.]. Issue 73, Part 1, pp. 42–56.
22. Hanhur, V.V. (2019). Ahrobiolohichni osnovy formuvannia sivozmin riznoi rotatsii v Livoberezhnomu Lisostepu Ukrainy: avtoref. dys. na zdobuttia nauk. stupenia d-ra s.-h. nauk: 06.01.01. [Agrobiological bases of formation of crop rotations of different rotations in the Left Bank Forest Steppe of Ukraine: abstract of the dissertation of the Doctor of Agricultural Sciences: 06.01.01]. Chabany, 54 p.
23. Ivanina, V.V. (2016). Biolohizatsiia udobrennia kultur u sivozminakh: monohrafiia [Biologization of crop fertilization in crop rotations]. Kyiv, TsP Komprynt, pp. 63–82, pp. 282–283.
24. Skrylnyk, Ye.V., Kutova, A.M., Hetmanenko, V.A., Herasymenko, Ya.O. (2020). Vplyv riznykh system udobrennia na kilkist i yakisnyi sklad humusu dernovo-pidzolystoho hruntu [The influence of different fertilization systems on the quantity and qualitative composition of humus in sod-podzolic soil]. Visnyk ahrarnoi nauky [Bulletin of agricultural science]. no. 8, pp. 14–19.
25. Yeshchenko, V.O., Kopytko, P.H., Kostohryz, P.V., Opryshko, P.V. (2014). Osnovy naukovykh doslidzhen v ahronomii [Basics of scientific research in agronomy]. Vinnytsia, PP TD Edelveis i K, 227 p.
26. Batsula, O.O., Holovachov, Ye.A., Derevianko, R.H. (1987). Zabezpechennia bezdefitsytnoho balansu humusu v hrunti [Ensuring a deficit-free balance of humus in the soil]. Kyiv, Harvest, pp. 77–90, pp. 103–106.
27. Tanchyk, S.P., Demidov, O.A., Man'ko, Ju.P. (2011). Ekologichna systema zemlerobstva v Lisostupu Ukrai'ny: metodychni rekomendacii' dlja vprovadzhennja u vyrobnyctvo [The ecological system of agriculture in the forest-steppe of Ukraine: methodical recommendations for implementation in production]. Kyiv, pp. 3–30.
28. Tanchyk, S.P., Prymak, I.D., Litvinov, D.V., Tsentylo, L.V. (2019). Sivozminy: pidruchnyk [Crop rotation]. Kyiv, TsP Komprynt, pp. 108–110.
29. Prymak, I.D., Marchuk, I.U., Martyniuk, I.V. (2023). Dobryva v orhanichnomu zemlerobstvi: istoriia, teoriia, praktyka [Fertilizers in organic farming: history, theory, practice]. Vinnytsia, TVORY, 262 p.
30. Shykula, M.K. (2005). Kontseptsiia biolohichnoho zemlerobstva na chornozemnykh hruntakh [The concept of biological agriculture on chernozem soils]. Naukovyi visnyk NAU [Scientific Bulletin of NAU]. no. 81, pp. 262–278.
 
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2023
AGROBIOLOGY №2 2023