Post-Harvest Siderates and Soil Hardness

Mishchenko, Yurii; Kovalenko, Ihor; Butenko, Andrii; Danko, Yuriy; Trotsenko, Volodymyr; Masyk, Ihor; Zakharchenko, Elina; Hotvianska, Anna; Kyrsanova, Galyna; Datsko, Oksana

doi:10.12912/27197050/147148

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Post-Harvest Siderates and Soil Hardness

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Mishchenko Yurii , Kovalenko Ihor , Butenko Andrii , Danko Yuriy , Trotsenko Volodymyr , Masyk Ihor , Zakharchenko Elina , Hotvianska Anna , Kyrsanova Galyna , Datsko Oksana

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08_Mishchenko_Post_Harvest_EEET_2022_3.pdf

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DOI

10.12912/27197050/147148

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Abstrakty

The results of researches of the perspective direction of solving the problem of growth of hardness of typical chernozem, which consisted in enrichment of the soil with fresh organic matter of postharvest greens, are presented. During the years of our research it was found that growing of post-harvest siderates contributed to a significant reduction in hardness of 0-30 cm soil layer. Among the studied siderates the lowest hardness of 0-30 cm soil layer was under crops of Raphanus sativum in all years of research - 10.9-16.8 kg/cm². In the variants of potato growing without fertilizers was found close reverse relation between hardness and productive moisture reserves - r = -0.74. These dependences confirm positive effect of siderate Raphanus sativum as a factor of biological loosening of soil. After all, it was just the variant where reduction of productive moisture reserves had the smallest share of impact - 22% on the growth of soil hardness. At the same time, this share of influence increased to 27-41% on the background of other siderates and manure, and up to 54% in the control without application of organic fertilizers. The highest yield of potato tubers was obtained on the plots with the lowest soil hardness, where Raphanus sativum was used as a post-harvest siderate, followed by the variants with manure, Phacelia tanacetifolia and Fagopyrum esculentum.

Słowa kluczowe

chernozem siderate potato Raphanus sativum Phacelia tanacetifolia Fagopyrum esculentum litter manure

Wydawca

Lubelski Oddział Polskiego Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology
WNGB Wydawnictwo Naukowe

Czasopismo

Ecological Engineering & Environmental Technology

Rocznik

2022

Tom

Vol. 23, iss. 3

Strony

54--63

Opis fizyczny

Bibliogr. 59 poz., rys., tab.

Twórcy

autor

Mishchenko Yurii

Sumy National Agrarian University, H. Kondratieva St. 160, Sumy, 40021, Ukraine

https://orcid.org/0000-0002-5942-9288

autor

Kovalenko Ihor

Sumy National Agrarian University, H. Kondratieva St. 160, Sumy, 40021, Ukraine

https://orcid.org/0000-0003-4957-2352

autor

Butenko Andrii

andb201727@ukr.net

Sumy National Agrarian University, H. Kondratieva St. 160, Sumy, 40021, Ukraine

https://orcid.org/0000-0001-9639-9826

autor

Danko Yuriy

Sumy National Agrarian University, H. Kondratieva St. 160, Sumy, 40021, Ukraine

https://orcid.org/0000-0002-9847-1593

autor

Trotsenko Volodymyr

Sumy National Agrarian University, H. Kondratieva St. 160, Sumy, 40021, Ukraine

https://orcid.org/0000-0001-8101-0849

autor

Masyk Ihor

Sumy National Agrarian University, H. Kondratieva St. 160, Sumy, 40021, Ukraine

https://orcid.org/0000-0002-7599-210X

autor

Zakharchenko Elina

https://orcid.org/0000-0002-9291-3389

autor

Hotvianska Anna

Dnipro State Agrarian and Economic University, Sergey Efremov St. 25, Dnipro, 49600, Ukraine

https://orcid.org/0000-0003-3887-3192

autor

Kyrsanova Galyna

Dnipro State Agrarian and Economic University, Sergey Efremov St. 25, Dnipro, 49600, Ukraine

https://orcid.org/0000-0002-0479-8975

autor

Datsko Oksana

Sumy National Agrarian University, H. Kondratieva St. 160, Sumy, 40021, Ukraine

https://orcid.org/0000-0001-9610-3087

Bibliografia

1. Bakšienė E., Ražukas A., Repečkienė J., Titova J. 2014. Influence of different farming systems on the stability of low productivity soil in Southeast Lithuania. Zemdirbyste-Agriculture, 101, 2, 115–124.
2. Bondareva V.Yu. 1982. Hardness of soddy-podzolic soil under various treatments. Vestn. MGU. Ser. soil scientist, 2, 21–27. (in Russian)
3. Borchert Mill Dtsch. Bidenkudl. Gesclschaft. Bodengefiigeveranderung nach Umstellung von Konvevtione Ver Bodenbearbeitung auf Minimal – Bodenbeitung. 1982. Bdl 34, 205–208.
4. Bussoher W.J., Frederick J.R., Baner B.J. 2000. Timing effects of deep tillage on penetration resistance and whear and soybean yield. Soil Sci. Soc. Amer. J., 64(3), 999–1003.
5. Carisson G. & Huss-Daneli K. 2003. Nitrogen fixation in perennial forage legumes in the field. Plant and Soil, 253(2), 353–372. DOI:10.1023/A:1024847017371
6. Chețan F., Chețan C., Bogdan I., Pop A.I., Moraru P.I. & Rusu T. 2021. The Effects of Management (Tillage, Fertilization, Plant Density) on Soybean Yield and Quality in a Three–Year Experiment under Transylvanian Plain Climate Conditions. Land; 10(2), 200. doi.org/10.3390/land10020200
7. Danilchenko A., Kovalenko I. & Butenko A. 2018. Peavine productivity by mineral fertilization of different doses and seed inoculation under the conditions of north–east forest steppe of Ukraine. Scientific Horizons, 2, 29–34. (In Ukrainian)
8. Demydas H.I., Galushko I.V., Butenko A.O., Karbivska U.M. & Asanishvili N.M. 2021. Fodder productivity of different meadow clover varieties depending on the elements of growing technology. AMA, Agricultural Mechanization in Asia, Africa and Latin America, 51(03), 1801–1811. https://www.shin-norinco.com/volume/AMA/51/03/fodder-productivity-of-different-meadow-clovervarieties-depending-on-the-elements-of-growingtechnology-612e77db8cd72.pdf
9. Diego Sánchez de Cima, Anne Luik, and Endla Reintam. 2015. Organic farming and cover crops as an alternative to mineral fertilizers to improve soil physical properties. International Agrophysics, 29, 405–412. doi: 10.1515/intag-2015–0056
10. Gorokhov P.V. 1990. Some aspects of the concept of “soil hardness” in relation to the study of the process of loosening. Soil Science, 2, 56–67. (in Russian)
11. Grunwald S., Rooney K., McSweeney, Lowery B. Development of pedotransfer functions for a profile cone penetrometer. 2001, 100, 25–47.
12. Hryhoriv Y., Butenko A., Nechyporenko V., Lyshenko M., Ustik T., Zubko V., Makarenko N., Mushtai V. 2021a. Economic efficiency of Camelina sativa growing with nutrition optimization under conditions of Precarpathians of Ukraine. Agraarteadus, 32(2), 232–238. DOI: 10.15159/jas.21.33
13. Hryhoriv Ya.Ya., Butenko A.O., Moisiienko V.V., Panchуshуn V.Z., Stotska S.V., Shuvar I.A., Kriuchko L.V., Zakharchenko E.A., Novikova A.V. 2021b. Photosynthetic activity of Camelina sativa plants depending on technological measures of growing under conditions of Precarpathians of Ukraine. Modern Phytomorphology, 15, 24–28. DOI: 10.5281/zenodo.5801099
14. Huntenburg K., Dodd I.C., Stalham M. 2021. Agronomic and physiological responses of potato subjected tosoil compaction and/or drying. Annals of applied biology; 178, 328–340. https://doi.org/10.1111/aab.12675
15. Kachinsky N.A. 1937. Soil properties as a factor determining the working conditions of agricultural machines. Soil Science, 8, 1119–1138. (in Russian)
16. 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), 1–11. DOI: 10.5586/aa.7334
17. Karbivska Uliana, Masyk Ihor, Butenko Andrii, Onychko Viktor, Onychko Tetiana, Kriuchko Lyudmyla, Rozhko Valentina, Karpenko Olena, Kozak Maksym. 2022a. Nutrient Balance of Sod–Podzolic Soil Depending on the Productivity of Meadow Agrophytocenosis and Fertilization. Ecological Engineering & Environmental Technology, 23(2), pp. 70–77. doi.org/10.12912/27197050/144957
18. Karbivska Ulyana, Asanishvili Nadiia, Butenko Andrii, Rozhko Valentina, Karpenko Olena, Sykalo Оksana, Chernega Tetyana, Masyk Ihor, Chyrva Andrii & Kustovska Alla. 2022b. Changes in Agrochemical Parameters of Sod-Podzolic Soil Depending on the Productivity of Cereal Grasses of Different Ripeness and Methods of Tillage in the Carpathian Region. Journal of Ecological Engineering, 23(1), 55–63. doi:10.12911/22998993/143863.
19. Karpenko O.Yu., Rozhko V.M., Butenko A.O., Samkova O., Lychuk A.I., Matviienko I.S., Masyk I.M., Sobran I.V. & Kankash H.D. 2020a. Influence of agricultural systems and measures of basic tillage on the number of microorganisms in the soil under winter wheat crops of the Right–bank forest–steppe of Ukraine. Ukrainian Journal of Ecology, 10(5), 76–80. doi: 10.15421/2020_209
20. Karpenko O.Yu., Rozhko V.M., Butenko A.O., Samkova O.P., Lychuk A.I., Matviienko I.S., Masyk I.M., Sobran I.V., Kankash H.D. 2020b. Influence of agricultural systems and measures of basic tillage on the number of microorganisms in the soil under winter wheat crops of the Right-bank forest-steppe of Ukraine. Ukrainian Journal of Ecology, 10(5), 76–80. doi: 10.15421/2020_209
21. Korshens M. 1983. Zwischenfruchtanbau zur Futtemutzung und Grundungung – ein Beitrag zur Steigerung der Bodenfruchbarkeit. Feldwirtschaft, 24(8), 361–362.
22. Kryvobochek V.H., Velmyseva L.E. 2005. Precise adaptive varietal agricultural technology – a reserve for increasing grain production. Achievements of science and technology Agro-industrial complex, 2, 12–14. (in Russian)
23. Kukresh N.P., Bezsylko V.S. 1990. Influence of mineral fertilizers on the yield and quality of oat grain. Agrokhimiya, 4, 48–49. (in Russian)
24. Kvitko Maksym, Getman Nadiia, Butenko Andrii, Demydas Grygory, Moisiienko Vira, Stotska Svitlana, Burko Lesya & Onychko Viktor. 2021. Factors of increasing alfalfa yield capacity under conditions of the Forest–steppe. Agraarteadus. Journal of Agricultural Science, 1, XXXII, 59–66. DOI: 10.15159/jas.21.10
25. Laboski С.L, Dowley R.H., Allmaras R.R., Lamb J A. 1998. Soil strength and water content influences on corn root distribution in a sandy soil. Plant and Soil. 203(2), 239–247.
26. Larkin R.P., Griffin T.S., Honeycutt C.W., Olanya O.M., He.Z. 2021. Potato cropping system management strategy impacts soil physical, chemical, and biological properties over time. Soil and Tillage Research, (213), 105148. https://doi.org/10.1016/j.still.2021.105148.
27. Litvinov D., Litvinova O., Borys N., Butenko A., Masyk I., Onychko V., Khomenko L., Terokhina N. & Kharchenko S. 2020. The Typicality of Hydrothermal Conditions of the Forest Steppe and Their Influence on the Productivity of Crops. Journal of Environmental Research, Engineering and Management, 76(3), 84–95. DOI 10.5755/j01.erem.76.3.25365
28. Litvinov, D.V., Butenko, A.O., Onychko, V.I., Onychko, T.O., Malynka, L.V., Masyk, I.M., Bondarieva, L.M., Ihnatieva O.L. 2019. Parameters of biological circulation of phytomass and nutritional elements in crop rotations. Ukrainian Journal of Ecology, 9(3), 92–98. DOI: 10.15421 / 2019_714
29. Lychuk T.E. 2006. Crusting and sealing as soil degradation processes in North-Western Region of Ukraine: formation reasons and prevention methods. Proceedings of the 18th World Congress of Soil Science. Philadelphia, USA, p. 14.
30. Lys N.M., Tkachuk N.L., Butenko A.O., Onychko V.I., Rozhko V.M., Karpenko O.Yu., Chernega, T.O., Masyk I.M., Berdin S.I. 2021. Five-year cycle efficiency of willow and poplar growing under conditions of Pre-carpathians. AMA, Agricultural Mechanization in Asia, Africa and Latin America, 51(01), pp. 821–830. ISSN: 00845841
31. Mamiev D., Abaev A., Tedeeva A., Khokhoeva N., Tedeev V. 2019. Use of green manure in organic farming. IOP Conference Series: Earth and Environmental Science, 403, 012137. XII International Scientific Conference on Agricultural Machinery Industry 10–13 September 2019, Don State Technical University, Russian Federation.
32. Medvedev V.V. 2009. Soil hardness. Kharkov. Ed. KP “City Printing House”, pp. 152. (in Russian)
33. Meraj A. Ansari, Burhan U. Choudhury, Jayanta Layek, Anup Das, Rattan Lal, Vinay K. Mishra 2022. Green manuring and crop residue management: Effect on soil organic carbon stock, aggregation, and system productivity in the foothills of Eastern Himalaya (India). Soil and Tillage Research, 218, 105318. https://doi.org/10.1016/j.still.2022.105318.
34. Mishchenko Y.G., Masik I.M. 2017. Control of soil weediness and sugar beets by after crop green manure and different tillages. Ukrainian Journal of Ecology, 7(4), 517–524. doi: 10.15421/2017_154.
35. Mishchenko Y.G., Zakharchenko E.A., Berdin S.I., Kharchenko O.V., Ermantraut E.R., Masyk I.M., Tokman V.S. 2019. Herbological monitoring of efficiency of tillage practice and green manure in potato agrocenosis. Ukrainian Journal of Ecology. 9(1), 210–219.
36. Mishchenko Y.Н., Zakharchenko E.A. 2019. The effect of green manures on weediness of sugar beet. Bulletin of Sumy National Agrarian University. The series: Agronomy and Biology. 4 (38). 41–49.
37. Nowroz F., Roy T., Haque M., Ferdous J., Noor R., Mondal G. 2021. Yield and Grading of Potato (Solanum tuberosum L.) as Influenced by Different Mulch Materials. Agrotechniques in Industrial Crops, 1(1), 1–10. doi: 10.22126/etic.2021.6209.1001
38. Nyiraneza J., Chen D., Fraser T., Comeau L.-P. 2021. Improving Soil Quality and Potato Productivity with Manure and High-Residue Cover Crops in Eastern Canada. Plants. 10(7):1436. https://doi.org/10.3390/plants10071436
39. Revyakin Yu.Yu. 1956. Application of the Goryachkin density meter to control the quality of tillage. Dokl. TSCA, 12, pp. 11–14. (in Russian)
40. Rieznik S., Havva D., Butenko A. & Novosad K. 2021. Biological activity of chernozems typical of different farming practices. Agraarteadus, pp. 32(2), 307–313. DOI: 10.15159/jas.21.34.
41. Romaneckas K., Balandaitė J., Sinkevičienė A., Kimbirauskienė R., Jasinskas A., Ginelevičius U., Romaneckas A., Petlickaitė R. 2022. Short-Term Impact of Multi-Cropping on Some Soil Physical Properties and Respiration. Agronomy, 12(1):141. https://doi.org/10.3390/agronomy12010141
42. Sartori F., Piccoli I., Polese R., Berti A. 2022. A Multivariate Approach to Evaluate Reduced Tillage Systems and Cover Crop Sustainability. Land, 11, 55. https://doi.org/ 10.3390/land11010055
43. Semykin V.A. 2002. Basic tillage and fertility. Sugar beet, 7, 21–23. (in Russian)
44. Shaheb M.R., Venkatesh R. & Shearer S.A. 2021. A Review on the Effect of Soil Compaction and its Management for Sustainable Crop Production. Journal of Biosystems Engineering, 46, 417–439. https://doi.org/10.1007/s42853–021–00117–7
45. Sharifi M., Lynch D.H., Hammermeister A., Burton D.L., Messiga A.J. 2014. Effect of green manure and supplemental fertility amendments on selected soil quality parameters in an organic potato rotation in Eastern Canada. Nutr Cycl Agroecosyst, 100, 135–146. https://doi.org/10.1007/s10705–014–9633-x
46. Shein E.V. 2005. Soil Physics Course: Textbook. Publishing House of Moscow State University, pp. 432. (in Russian)
47. Slobodiuk P.I. 1997. Soil compaction with mobile agricultural implements. Kharkov, pp. 122. (in Russian)
48. Smagin V.P., Zazdravny A.N. 1981. Agronomic significance of soil hardness. Soil Science, 2, 138–141. (in Russian)
49. Starovoitova O.A., Starovoitov V.I., Manokhina A.A. and Voronov N.V. 2021. Methodological approaches to constructing 3D models of soil in potato farming. IOP Conf. Ser.: Earth Environ. Sci., 624, 012079.
50. Tanchyk S., Litvinov D., Butenko A., Litvinova O., Pavlov O., Babenko A., Shpyrka N., Onychko V., Masyk I. & Onychko T. 2021. Fixed nitrogen in agriculture and its role in agrocenoses. Agronomy Research, 19(2), 601–611. doi.org/10.15159/AR.21.086
51. Tonkha O., Butenko A., Bykova O., Kravchenko Y., Pikovska O., Kovalenko V., Evpak I., Masyk I., Zakharchenko E. 2021. Spatial Heterogeneity of Soil Silicon in Ukrainian Phaozems and Chernozems. Journal of Ecological Engineering, 22(2):111–119. doi.org/10.12911/22998993/130884
52. Ustroev A.A., Murzaev E.A. 2020. Efficiency of using seeder crops for uncomplacing soil in the technology of cultivation of potato. Agrarian science, (11–12):101–104. (in Russian). https://doi.org/10.32634/0869–8155–2020–343–11–101–104
53. Ustroyev A.A. and Murzaev E.A. 2021. Influence of crops of the cover crop when forming the ridge surface of landings of potatoes to dynamics of parameters of the soil state. E3S Web Conf., 262, 01038. DOI: https://doi.org/10.1051/e3sconf/202126201038
54. Vos J., Van Loon C.D. 1989. Effects of Cropping Frequency on Potato Production. In: Vos J., Van Loon C.D., Bollen G.J. (Eds) Effects of Crop Rotation on Potato Production in the Temperate Zones. Developments in Plant and Soil Sciences, 40. Springer, Dordrecht. https://doi.org/10.1007/978–94–009–2474–1_1
55. Woźniak A. 2019. Chemical Properties and Enzyme Activity of Soil as Affected by Tillage System and Previous Crop. Agriculture, 9(12), 262. doi: 10.3390/agriculture9120262
56. Yakupoglu T., Gundogan R., Dindaroglu T., Kusvuran K., Gokmen V., Rodrigo–Comino J. Gyasi–Agyei Y. & Cerdà A. 2021. Tillage Impacts on Initial Soil Erosion in Wheat and Sainfoin Fields under Simulated Extreme Rainfall Treatments. Sustainability, 13, 789. doi.org/10.3390/ su13020789
57. Xu Y., Jeanne T., Hogue R., Shi Y., Ziadi N., Parent L.E. 2021. Soil bacterial diversity related to soil compaction and aggregates sizes in potato cropping systems. Applied Soil Ecology, (168), 104–147. https://doi.org/10.1016/j.apsoil.2021.104147.
58. Yaroshchuk R.A., Zakharchenko E.A., Kovalenko I.M., Yaroshchuk S.V., Klymenko H.O. 2020. Soil aggregation with various cover crops in Ginkgo biloba L. plantations. Bulletin of Sumy National Agrarian University. The series: Agronomy and Biology, 42(4), 23–32. (in Ukrainian)
59. Zahradnijek J., Beran P., Pulkrabek J., Svachula V., Famera P., Scoller J., Chochova J. 2001. The effect of physical soil properties on metabolism and technological quality of sugar beet. Rosl. Vyroba, 1, 23–27. (in Ukrainian)

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