Analysis of the dependence of winter wheat yielding capacity formation on mineral nutrition in irrigation conditions of southern steppe of Ukraine
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صندلی اداریAbstract
This article is dedicated to the research of analysis of the dependence of growth and development of winter wheat varieties Khersonska Awnless and Odeska 267 on conditions of moisture provision and mineral nutrition status, impact of indicated factors and formation of yielding capacity and grain quality. Years of research significantly varied in rainfall amount during growing season. According to moisture supply, 2016 was dry, 2017 was average humid and 2018 was subhumid, which had an impact on grain yield equation. The lowest winter wheat productivity level was formed in 2016. Under supplemental watering without fertilizers the yield of the Khersonska Awnless variety was at the level 2.07 t/ha, and of Odeska 267 variety - 1.51 t/ha. Under provision of vegetative watering, the yielding capacity increased to 3.14 and 2.94 t/ha. Fertilizers also had significant impact on production processes of plants, accumulation of over ground biomass, area of assimilating surface that resulted in the yield increase of winter wheat. On average, over the years of research the most significant influence among considered factors had fertilizers - 43%, irrigation - 32% and variety content of winter wheat - 9%.
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References
BABYCH, V. L. (2005) Influence of mineral fertilizers on area of leaf surface, photosynthetic efficiency and photosynthetic potential of winter wheat. Tavriiskyi naukovyi visnyk [Tavriia Scientific Bulletin], n. 37, p. 72-77. (in Ukranian)
DUDIAK, N. V.; PICHURA, V. I.; POTRAVKA, L. A.; STRATICHUK, N. V. (2019) Geomodelling of Destruction of Soils of Ukrainian Steppe Due to Water Erosion. Journal of Ecological Engineering, v. 20 n. 8, p. 192–198.
HOSPODARENKO, H. M. (2010) Agrokhimiia [Agrochemistry]. Kyiv, NSC “IAE”. (in Ukranian)
KUDRIASHOV, I. N. (2001) Variety as a factor of stabilization of seed production of winter wheat. Selektsiia ozimoy pshenitsy: sb. dokl. na nauch.-prakt. konferentsii “Nauchnoe nasledie akademika I.G. Kalinenko” [Selection of winter wheat: Conference proceedings of scientific-practical conference “Scientific heritage of academician I.G. Kalinenko”]. Zernograd, p. 138-144.
LISETSKII, F.; PICHURA, V. (2016) Steppe Ecosystem Functioning of East European Plain under Age-Long Climatic Change Influence. Indian Journal of Science and Technology, v. 9, n. 18, p. 1-9. DOI: 10.17485/ijst/2016/v9i18/93780.
LISETSKII, F. N.; PICHURA, V. I.; BREUS, D. S. (2017) Use of Geoinformation and Neurotechnology to Assess and to Forecast the Humus Content Variations in the Step Soils. Russian Agricultural Sciences, n. 2, n. 43, p. 151-155.
LISETSKY, F. N.; SVETLICHNY, A. A.; CHERNY, S. G. (2012) Modern problems of erosion science. Belgorod: Constant. (in Russian)
MORARU, S. A. (1988) Ozimaya pshenitsa [Winter wheat]. Kishinev: Kartia Moldovenske Publ. (in Russian)
NETYS, I. T. (2003) Influence of predecessors, fertilizers and protection of plants on seed quality of winter wheat. Tavriiskyi naukovyi visnyk [Tavriia Scientific Bulletin], n. 32, p. 112-113. (in Ukranian)
NYCHYPOROVYCH, A. A. (1961) Fotosinteticheskaya deiatelnost rasteniy v posevah [Photosynthetic activity of plants in sowing]. Moscow: Academy of Science of USSR Publ. (in Russian)
NYCHYPOROVYCH, A. A. (1982) Physiology of photosynthesis and productivity of plants. Fiziologiia fotosinteza [Physiology of photosynthesis], n. 3, p. 7-33. (in Russian)
PETERBURGSKIY, A. V. (1964) Kornevoe pitanie rasteniy [Feeding of plant roots]. Moscow: Kolos Publ. (in Russian)
PICHURA, V. I. (2015) Basin approach to spatial-temporal modeling and neyroprediction of potassium content in dry steppe soils. Biogeosystem Techniqu, n. 2, n. 4, p. 172-184. DOI: 10.13187/bgt.2015.4.172.
PICHURA, V. I.; DOMARATSKY, Y. A.; YAREMKO, Yu. I.; VOLOCHNYUK, Y. G.; RYBAK, V. V. (2017) Strategic Ecological Assessment of the State of the Transboundary Catchment Basin of the Dnieper River Under Extensive Agricultural Load. Indian Journal of Ecology, v. 44, n. 3, p. 442-450.
PICHURA, V. I.; MALCHYKOVA, D. S.; UKRAINSKIJ, P. A.; SHAKHMAN, I. A.; BYSTRIANTSEVA, A. N. (2018) Anthropogenic Transformation of Hydrological Regime of The Dnieper River. Indian Journal of Ecology, v. 45, n. 3, p. 445-453.
PICHURA, V. I.; POTRAVKA, L. A.; DUDIAK, N. V.; SKRYPCHUK P. M.; STRATICHUK N. V. (2019) Retrospective and Forecast of Heterochronal Climatic Fluctuations Within Territory of Dnieper Basin. Indian Journal of Ecology, v. 46, n. 2, p. 402–407.
PYSARENKO, P. V.; KOKOVIKHIN, S. V.; HRABOVSKYI, P. V. (2011) Influence of conditions and moisture supply and mineral nutrition status on dynamics of accumulation of wet and dry weights by winter wheat plants. Zroshuvane zemlerobstvo [Irrigated agriculture], n. 55, p. 70-78. (in Ukranian)