Foliar nutritionin modern sunfl ower hуbrid growing technologies

The results of the study on foliar nutrition infl uence on the productivity of sunfl ower hybrids are presented in the article. The research was carried out in the period 2018–2019 in the conditions of the experimental fi eld of VNAU on the basis of NRF "Agronomichne," located in the village of Agronomichne, Vinnytsia region. The research studied two hybrids of sunfl ower mid-early ripenessgroup: Basfora and Sanai MR in the application of foliar nutrition microfourings Vanguard R Sunfl ower which was introduced into the phase 3–4 and 6–8 pairs of leaves. Thesoil on the experimental plot is a gray forest middle-loamy. According to the results of measurements, the height of plants in Basfora sunfl ower hybrid on control, on average for two years of research was 181.0 cm, and Sanai MR hybrid – 169.5 cm. When applying microfertilizers in phase 3–4 pairs of Bosphora leaves – 186.0 cm, Sanai MR – 174.5 cm, in phase 6–8 pairs of Bosphora leaves – 187.5 cm, Sanai MR – 174.5 cm and with double application microfertilizers in phase 3–4 and 6–8 leaves – 191,0 and 175,0 cm, respectively for the hybrids of Bosphora and Sanai MR. Foliar nutrition reduces the number of plants aff ected by gray rot by 1.2–2.5 % for the Bosphora hybrid and 1.0–1.7 % for the Sanai MR hybrid and white rot – Bosphora by 1.6–2 in the studied sunfl ower hybrids, 1 % and Sanai MR – 0.6–1.4 %. Carrying out foliar nutrition contributed to the growth of the mass of seeds from one plant. In particular, application of microelements Vanguard R Sunfl ower in phase 3–4 pairs of leaves provides the following value of seed weight from one plant: Basfora – 45.0 grams, Sanai MG – 40.5 grams, introduction in phase 6–8 pairs of leaves 44.7 and 39 7 grams, and two-day introduction of this microelement in phase 3–4 and 6–8 pairs of leaves – 48.6 and 42.6 grams.

It is also noted that the implementation of foliar nutrition provided an increase in the number of seeds in the infl orescence (basket). On control (without nutrition), the number of seeds from the basket, respectively, was 698 and 663 pieces, for the hybrid of the Bosphora and Sanai MR. The lowest productivity of the studied sunfl ower hybrids was formed on the control (without foliar feeding): Bosphora – 2.85 t/ha and Sanai MR – 2.79 t/ha. The highest productivity on sunfl ower crops in the studied hybrids was obtained under double foliar nutrition of sunfl ower with microfertilizers Avanhard R in the phase 3–4 and 6–8 pairs of leaves and on average during the years of research it amounted to 3.19 t/ha for the Basfora hybrid and 3.14 t/ha for the Sanai MR hybrid, which is 0.44 and 0.35 % more than the control.
Key words: sunfl ower, productivity, hybrid, foliar nutrition, microfertilizers, development phase, disease, pests.

V. Palamarchuk

https://orcid.org/0000-0002-4906-3761

Reference:

1. Prokopenko, O.M. (2019). Roslynnytstvo Ukrainy [Crop production of Ukraine]. Statystychnyi zbirnyk [Statistical collection]. Kyiv, 220 р.

2. Jabeen, N., Ahmad, R. (2012). Foliar application of potassium nitrate aff ects the growth and nitrate reductase activity in sunfl ower and saffl ower leaves under Salinity. Notulae Botanicae Horti Agrobotanici Cluj-Napoca. 39, pp. 172-178. Available at: https://doi.org/10.15835/nbha3926064

3. Coelho, V.A.T, Rodas, C.L., Coelho L.C., Carvalho, J.G., Almeida, E.F.A., Figueiredo, M.A. (2012). Caracterização de sintomas visuais de defi ciências de macronutrientes e boro em plantas de gengibre ornamental. Revista Brasileira de Horticultura Ornamental 18(1), pp. 47–55.

4. Hassanlouee, M., Baghbani, F. (2013). Effects of stages and amount of nitrogen foliar application on yield and yield components in hybrid alestar sunfl ower. ARPN Journal of Agricultural and Biological Science. 8, pp. 224–226.

5. Castro, A.C.R., Willadino, L.G., Loges, V., Castro, M.F.A., Aragão, F.A.S. (2015). Macronutrient defi ciencies in Heliconia psittacorum x Heliconia spathocircinata ‘Golden Torch’. Revista CiênciaAgronômica. 46(2), pp. 258–265. Available at: http://dx.doi.org/10.5935/1806-6690.20150005.

6. Mazur, V.A., Palamarchuk, V.D., Polishchuk, I.S., Palamarchuk, O.D. (2017). Novitni ahrotekhnolohii u roslynnytstvi: pidruchnyk. [Newest agrotechnologies in crop production]. Vinnytsia, 588 p.

7. Rajesh Kumar, Oad, Muhammad Ali, Ansari, Jagdesh, Kumar, Dilpat Rai, Menghwar (2018). Eff ect of foliar applied urea on growth and yield of sunfl ower (Helianthus annuus L.). Open Access Library Journal. Vol. 5, pp. 1–12.

8. Schultz, E., DeSutter ,T., Sharma, L., Endres, G., Ashley, R., Bu, H., Markell, S., Kraklau, A., Franzen, D. (2018). Response of sunfl ower to nitrogen and phosphorus in North Dakota. Agronomy Journal. Vol. 110, Issue 2, pp. 1–11.

9. Stolyarov, O.V., Kolodyazhnyy, S.V. (2018). Vliyaniye obrabotki pochvy i norm vyseva na urozhaynost podsolnechnika. vyrashchivayemogo po sisteme Express SunTM [The eff ect of soil cultivation and sowing rates on the yield of sunfl ower cultivated using the Express SunTM system]. Vestnik Voronezhskogo gosudarstvennogo agrarnogo universiteta [Bulletin of the Voronezh State Agrarian University], no. 2(57), pp. 13–19.

10. Nunes A., Guedes F., Garófalo L.H., Alves J., Feitosa A.C. (2019). Eff ect of nutrient omission in the development of sunfl ower BRS-122 in greenhouse conditions. Revista Facultad Nacionalde Agronjmia. Medellín. 72(1), pp. 8663–8671. Available at: http://dx.doi.org/10.15446/rfnam. v72n1.69388

11. Kalenska, S.M., Yermakova, L.M., Palamarchuk, V.D., Polishchuk, I.S., Polishchuk, M.I. (2015). Systemy suchasnykh intensyvnykh tekhnolohii u roslynnytstvi: pidruchnyk z hryfom MON [Systems of modern intensive technologies in crop production]. Vinnytsia, FOP Rohalska I.O., 448 p.

12. Palamarchuk, V.D., Polishchuk, I.S., Yermakova, L.M., Kalenska, S.M. (2013). Biolohiia ta ekolohiia silskohospodarskykh Roslyn: pidruchnyk z hryfom MON [Biology and ecology of agricultural plants].Vinnytsia, FOP Danyliuk, 636 p.

13. Madejón, P., Murillo, J.M., Marañón, T., Cabrera, F., Soriano, M.A. (2003). Trace element and nutrient accumulation in sunfl ower plants two years after the Aznalcóllar mine spill.Science of The Total Environment. Vol. 307, Issues 1-3, pp. 239–257.

14. Susanna, De Maria, Anna, Rita Rivelli. (2013). Trace element accumulation and distribution in sunfl ower plants at the stages of fl ower bud and maturity. Italian Journal of Agronomy. pp. 65–72.

15. Volkan, Gul, Erdogan, Ozturk, Taskın, Polat, Furkan, Coban (2017). Eff ects of Nitrogen Treatments on Macro and Microelement Contents of Oil Sunfl ower (Helianthus annuus L.) Seeds. International Journal of Research Studies in Agricultural Sciences (IJRSAS). Vol. 3, Issue 1, pp. 44–51.

16. Seraya, T.M. (2014). Usovershenstvovannaya sistema udobreniya podsolnechnika pri vozdelyvanii ego po kukuruznoy solome na dernovo-podzolistoy supeschanoy pochve [An advanced system for fertilizing sunfl ower when cultivating it on corn straw on sod-podzolic sandy loam soil]. Pochvovedeniye i agrokhimiya [Soil Science and Agrochemistry], no. 2(53), pp. 95–102.

17. Sikorskiy, A.V., Radovnya, V.A., Bobovkina, V.V. (2008). Podsolnechnik v Belarusi. Aspekty vozdelyvaniya [Sunfl ower in Belarus. Aspects of cultivation.]. Belorusskoye selskoye khozyaystvo [Belarusian agriculture], no. 5 (76), pp. 24–25.

18. Saskevich, P.A. (2012). Tekhnologiya vozdelyvaniya podsolnechnika v usloviyakh severo-vostoka Respubliki Belarus: rekomendatsii [Sunfl ower cultivation technology in the north-east of the Republic of Belarus]. Gorki, BGSKhA, 58 p.

19. Zanilov, A.S., Shilova, E.P. (2017). Innovatsionnyye priyemy povysheniya eff ektivnosti mineralnogo pitaniya rasteniy: metodicheskiye rekomendatsii [Innovative techniques for improving the effi ciency of mineral nutrition of plants]. Moscow, FGBNU «Rosinformagrotekh», 132 p.

20. Havryliuk, M.M., Salatenko, V.N., Chekhov, A.V. (2007). Oliini kultury Ukrainy: monohrafi ia [Oilseeds of Ukraine]. Kyiv, Osnova, 416 p.

21. Bailly, C., Benamar, A., Corbineau, F., Come, D. (2000). Antioxidant systems in sunfl ower (Helianthus annuus L.) seeds as aff ected by priming. Seed Science Research, Vol. 10, pp. 35–42.

22. Rozhkov, A.O., Kalenska, S.M., Puzik, L.M., Muzafarov, N.M., Bukhalo, V.Ya. (2016). Doslidna sprava v ahronomii knyha druha: Statystychna obrobka rezultativ ahronomichnykh doslidzhen: navchalnyi posibnyk [Agronomy Pilot Book Two: Statistical Processing of Agronomic Research Results]. Kharkiv, 298 p.

23. Rozhkov, O.A., Puzik, V.K., Kalenska, S.M., Puzik, L.M., Popov, S.I., Muzafarov, N.M., Bukhalo, V.Ya., Kryshtop, Ye.A. (2016). Doslidna sprava v ahronomii: navchalnyi posibnyk [An agronomy research case]. Kharkiv, Maidan, 300 p.

24. Vovkodav, V.V. (2001). Metodyka derzhavnoho sortovyprobuvannia silskohospodarskykh kultur [The method of state variety testing of agricultural crops]. Kyiv, 64 p.

25. Volf, V.G. (1966). Statisticheskaya obrabotka opytnykh danykh [Statistical processing of experimental data]. Kyiv, Harvest, 256 p.

26. Dospekhov, B.A. (1972). Planirovaniye polevogo opyta i obrabotka ego danykh [Planning fi eld experience and processing its data]. Moscow, Kolos, 207 p.

27. Maksimova, I.M., Soliar, L.V., Halushchak, L.B., Papusha, K.F. (2017). Zberihannia soniashnyku z riznym vmistom zhyru [Storage of sunfl ower with diff erent fat content]. Zbirnyk naukovykh prats VNAU. Seriia silskohospodarski nauky [Collection of scientifi c works of VNAU. Agricultural Science Series], Issue 6, Vol. 2, pp. 94–101.

28. Palamarchuk, V.D., Klymchuk, O. V., Polishchuk, I. S., Kolisnyk, O. M., Borivskyi, A.F. (2010). Ekolohobiolohichni ta tekhnolohichni pryntsypy vyroshchuvannia polovykh kultur: navch. posibnyk [Ecological-biological and technological principles of growing of fi eld crops]. Vinnytsia, 636 p.

29. Palamarchuk, V.D., Polishchuk, I.S., Venediktov, O.M. (2011). Systemy suchasnykh intensyvnykh tekhnolohii u roslynnytstvi [Systems of modern intensive technologies in crop production]. Vinnytsia, FOP Danyliuk, 432 p.

30. Palamarchuk, V.D., Polishchuk, I.S., Yermakova, L.M., Kalenska, S.M. (2012). Systemy suchasnykh intensyvnykh tekhnolohii (2-he vydannia vyprav. ta dopov.) [Systems of modern intensive technologies (2nd edition corrected and supplemented)]. Vinnytsia, FOP Rohalska I.O., 370 p.

31. Protsenko, V.I. (2000). Soniashnyk. Selektsiia, nasinnytstvo ta tekhnolohiia vyroshchuvannia. Monohrafi ia [Sunfl ower. Breeding, seed production and cultivation technology. Monograph]. Sumy, University book, 184 p.

32. Rohach, T.I. (2012). Vplyv sumishi khlormekvatkhlorydu i treptolemu na morfohenez ta produktyvnist soniashnyku [The eff ect of a mixture of chlormekhvatchloride and treptolem on the morphogenesis and productivity of sunfl ower]. Zbirnyk naukovykh prats VNAU. Seriia silskohospodarski nauky [Collection of scientifi c works of VNAU. Agricultural Science Serie], Issue 1(57), pp. 121–127.

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Foliar nutritionin modern sunfl ower hуbrid growing technologies