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Productivity of Spring Triticale under Conditions of the Southern Steppe of Ukraine

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Abstrakty
EN
Triticale is a valuable grain forage and food crop. Application of fertilizers enables to both increase the grain yield and improve its quality indicators. Triticale responds positively to fertilization, foliar top dressing, and the action of growth-regulating drugs. The presented field experiments were carried out in 2014–2016 in the educational-scientific-practical center of the Mykolaiv national agrarian university on the southern chernozem, typical for the southern Steppe of Ukraine. Pre-sowing seed treatment, application of mineral fertilizers and foliar nitrogen fertilization had a positive effect on the length of the ear, the number of grains in it, the mass of grain from the ear of the main stem and the level of the formed yield of spring triticale grain. Among the studied fertilizer options, the introduction of N30P30 before sowing and top dressing with ammonium nitrate at a dose of N30 against the background of pre-sowing seed treatment with Escort-Bio was advantageous. In this variant, the yield was 3.61 t/ha, the length of the ear was 10.4 cm, the number of grains in the ear was 30.2 PCs, the weight of grain from the ear of the main stem was 1.43 g. Creating an optimal nutrition background for plants improved the quality indicators of the spring triticale grain. The most favorable conditions for the formation of grain nature were provided by applying N60P30 before sowing and N30P30 before sowing with top dressing in a dose of N30 in the form of ammonium nitrate, urea or double top dressing with D2. The maximum protein content in the grain of the spring triticale was ensured by the introduction of N30P30 into the sowing with feeding with carbamide at a dose of N30. Due to the higher yield, the highest conditional protein yield per hectare of spring triticale sowing was provided by the introduction of N60P30 before sowing and N30P30 before sowing with top dressing with ammonium nitrate in the phase of stooling at a dose of N30. Improving the background of plant nutrition in cultivation technology is a promising measure to increase the productivity of spring triticale.
Twórcy
  • Mykolaiv National Agrarian University, George Gongadze 9, 54000, Mykolaiv, Ukraine
  • Kherson State Agrarian and Economic University, Stritenska St. 23, 73006, Kherson, Ukraine
  • Mykolaiv National Agrarian University, George Gongadze 9, 54000, Mykolaiv, Ukraine
  • Kherson State Agrarian and Economic University, Stritenska St. 23, 73006, Kherson, Ukraine
Bibliografia
  • 1. Abdelaal H.K., Bugaev P.D., Fomina T.N. 2019. Nitrogen fertilization effect on grain yield and quality of spring triticale varieties. Indian Journal of Agricultural Research, 53(5), 578–583.
  • 2. Ates S., Keles G., Demirci U., Dogan S., Ben Salem H. 2017. Biomass yield and nutritioning value of rye, triticale, and wheat straw produced under a dual-purpose management system. Journal of Animal Science, 95(11), 4893–4903.
  • 3. Barrett C.B., Bevis Е.М. 2015. The self-reinforcing nutritionback between low soil fertility and chronić poverty. Nature Geoscience, 8(12), 907–912.
  • 4. Blazhevych L.Yu. 2005. Productivity of spring triticale in the conditions of northern Forest-steppe. Scientific Bulletin of NAU, 4, 184–188 (in Ukrainian).
  • 5. Dobreva St. Triticale – past and future. 2016. Agricultural science and technology, 8(4), 271–275.
  • 6. Doxastakis G., Zafiriadis I., Irakli M., Marlani H., Tananaki C. 2002. Lupin, soya and triticale addition to wheat flour doughs and their effect on rheological properties. Food Chemistry, 77(2), 219–227.
  • 7. Dospehov B.A. 1985. Field experiment method. Agropromizdat, Moscow (in Russian).
  • 8. DSTU 4117: 2007. 2007–08–01. Grain and products of its processing. Determination of quality indicators by infrared spectroscopy. National Standard of Ukraine. Derzhspozhyvstandart Ukrainy, Kyiv (in Ukrainian).
  • 9. El-Ramady H.R., Alshaal T. A., Amer M., Domokos-Szabolcsy E., Elhawat N., Prokisch J., Fari M. 2014. Soil quality and plant nutrition. Sustainable Agriculture Reviews, 14, 345–447.
  • 10. Gamayunova V.V., Filipyev I.D., Sidyakina A.V. 2004. The current state, problems and prospects of using fertilizers in irrigated agriculture of the southern zone of Ukraine. Bulletin of the Kharkov NAU named after V.V. Dokuchaev. Series "Soil science, agrochemistry, agriculture, forestry" 1, 181-186. (in Ukrainian).
  • 11. GOST 10840–64. Grain. Methods for determining nature. State Committee of the Council of Ministers of the USSR for product quality management and standards. Moscow (in Russian).
  • 12. Grebennikova I.G., Aleynikov A.F., Stepochkin P.I. 2016. The construction of a spring triticale variety model on the basis of modern information technologies. Computational Technologies. Special issue: Information technologies, systems and equipment in agroindustrial complex, 21, 53–64 (in Russian).
  • 13.Janusauskaite D., Feiziene D., Feiza V. 2017. Nitrogen-induced variations in leaf gas exchange of spring triticale under field conditions. Acta Physiologiae Plantarum, 39(9), 193–204.
  • 14.Janusauskaite D. 2013. Spring triticale yield formation and nitrogen use efficiency as affected by nitrogen rate and its splitting. Zemdirbyste-Agriculture, 100(4), 383–392.
  • 15. Knapowski T., Ralcewicz M., Barczak B., Kozera W. 2009. Effect of nitrogen and zinc fertilizing on bread-making quality of spring triticale cultivated in Notec Valley. Polish Journal of Environmental Studies, 18, 227–233.
  • 16. Kshnikatkina A.N., Kshnikatkin S.A., Denisov K.E., Denisov E.P., Chetverikov F.P., Poletaev I.S. 2017. Complex water-soluble fertilizers, growth regulators and bacterial preparations the technology of cultivation of spring triticale. Agrarian scientific journal, 4, 27–32 (in Russian).
  • 17. Kushnirenko M.I. 2010. Productivity of spring triticale plants on typical chernozems depending on norms of mineral fertilizers application. Scientific Bulletin of the National University of Life and Environmental Sciences of Ukraine, 149, 220–226 (in Ukrainian).
  • 18. Liu J., Liu H., Huang S., Yang X., Wang B., Li X., Ma Y. 2010. Nitrogen efficiency in long-term wheatmaize cropping systems under diverse field sites in China. Field Crops Res, 118, 145–151.
  • 19. Mansour E., Merwad A.M.A., Yasin M. A. T., Abdul-Hamid M.I.E., El-Sobky E.E.A., Oraby H.F. 2017. Nitrogen use efficiency in spring wheat: genotypic variation and grain yield response under sandy soil conditions. The Journal of Agricultural Science, 155(9), 1407–1423.
  • 20. Onychko V.I., Berdin S.I. 2011. Yield and quality of spring triticale grain in the north-eastern foreststeppe depending on fertilizer and seeding rate. Coll. Science. pr. National Research Center "Institute of Agriculture NAAS", 3–4, 71–78 (in Ukrainian).
  • 21. Płaza A., Gąsiorowska B., Rzązewska E. 2020. Heavy metal content in green fodder made from narrowleaved lupine and spring triticale to be used in cattle nutritioning. Journal of Elementology, 25(2), 537–548.
  • 22. Ramazanova R.K., Tursinbaeva A.E., Kekilbaeva G.R., Matina A.E., Kasipkhan A. 2018. The effect of nitrogen fertilizers on productivity of spring triticale in the dry steppe zone of Kazakhstan. Agricultural Science Euro-North-East, 62(1), 47–51 (in Russian).
  • 23. Roques S.E., Kindred D.R., Clarke S. 2017. Triticale out-performs wheat on range of UK soils with a similar nitrogen requirement. The Journal of Agricultural Science, 155(2), 261–281.
  • 24. Rozhkov A.A., Gutyansky R.A. 2015. Formation of photosynthetic potential of spring triticale depending on methods of sowing and fertilization. Coll. Science. NSC “Institute of Agriculture NAAS”. Kiev: Edelweiss, 34–46 (in Ukrainian).
  • 25. Sharma B.D., Raj-Kumar J.S., Manchanda, Dhaliwal S.S., Thind H.S. 2016. Yadvinder-Singh Mapping of Chemical Characteristics and Fertility Status of Intensively Cultivated Soils of Punjab, India. Commu-nications in Soil Science and Plant Analysis, 47(15), 1813–1827.
  • 26. Sukhomud O.G., Lyubich V.V. 2013. Gluten content in spring triticale grain depending on the level of nitrogen nutrition. Scientific reports of NULES, 2, 21–29 (in Ukrainian).
  • 27. Sydiakina O.V., Ivanіv M.O., Dvoretskyi V.F. 2018. Dynamics of growth of aboveground mass of spring wheat and triticale plants depending on the nutrition background and pre-sowing seed treatment. Taurian Scientific Bulletin, 100(2), 58–68 (in Ukrainian).
  • 28. Tohver M., Kann A., Täht R., Mihhalevski A., Hakman J. 2005. Quality of triticale cultivars suitable for growing and bread-making in northern conditions. Food Chemistry, 89(1), 125–132.
  • 29. Yeshchenko V.O., Kopytko P.H., Kostohryz P.V., Opryshko V.P. 2014. Foundations of scientific investigations in agronomy: textbook. Edelveis i K, Vinnytsia (in Ukrainian).
  • 30. Wright C., Ghezzi-Haeft J. 2020. Hairy Vetch and Triticale Cover Crops for N Management in Soils. Open Journal of Soil Science, 10(6), 244–256.
  • 31. Wysokiński A., Kuziemska B. 2019. The sources of nitrogen for yellow lupine and spring triticale in their intercropping. Plant Soil Environ, 65,145–151.
  • 32. Zhu F. 2018. Triticale: Nutritional composition and food uses. Food Chemistry, 241, 468–479.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-196faafc-40ea-423b-bc18-45dcf06a2bd0
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