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At present, there are burning issues concerning waste utilization of the agro-industrial complex, rational usage of nature and transition to the use of environmentally friendly and low-waste technologies. One of the most forward-looking areas is the application of the principles of the so-called "green chemistry", in particular, the development of technological processes using renewable raw materials and chemicals, the chemicals with a short half-life and low cost while ensuring maximum efficiency. The article presents the results of antigiberrelic preparation effect, which is characterized by low dosage and half-life in soil from 3 to 43 days on productivity, growth processes, anatomical, morphological features and functioning of the leaf apparatus of white mustard plants and rapeseed. The research shows that CCC-750 reduced the height of mustard and rapeseed plants. Inhibition of growth processes of white mustard plants at the beginning of the flowering phase with an anti-gibberellic preparation led to increased stem branching, which, in its turn, resulted in an increase in the number and area of leaves throughout the growing season. Moreover, the use of quaternary ammonium salt on winter rape plants has led to a reduction in the number of leaves and leaf area in comparison to the control samples. The application of the retardant caused an increase in the productivity of the studied cultures due to the increase in the number of pods, the increase in the mass of thousands of seeds and the number of seeds in the pod.
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Rocznik
Tom
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53--60
Opis fizyczny
Bibliogr. 18 poz., rys., tab.
Twórcy
autor
- Vinnytsia State Pedagogical University named after Mykhailo Kotsiubynsky, Ostroz’koho St, 32, Vinnytsia, Vinnytsia Oblast, 21000, Ukraine
autor
- Vinnytsia Professional College of Construction, Architecture and Design, Kyiv National University of Civil Engineering and Architecture, Pam’yatnyk Mykoli Ostrovs’komu, Povitroflots’kyi Ave, Kyiv, 03037, Ukraine
autor
- Vinnytsia State Pedagogical University named after Mykhailo Kotsiubynsky, Ostroz’koho St, 32, Vinnytsia, Vinnytsia Oblast, 21000, Ukraine
autor
- Vinnytsia State Pedagogical University named after Mykhailo Kotsiubynsky, Ostroz’koho St, 32, Vinnytsia, Vinnytsia Oblast, 21000, Ukraine
autor
- Vinnytsia State Pedagogical University named after Mykhailo Kotsiubynsky, Ostroz’koho St, 32, Vinnytsia, Vinnytsia Oblast, 21000, Ukraine
autor
- Vinnytsia State Pedagogical University named after Mykhailo Kotsiubynsky, Ostroz’koho St, 32, Vinnytsia, Vinnytsia Oblast, 21000, Ukraine
autor
- Vinnytsia State Pedagogical University named after Mykhailo Kotsiubynsky, Ostroz’koho St, 32, Vinnytsia, Vinnytsia Oblast, 21000, Ukraine
autor
- Vinnytsia State Pedagogical University named after Mykhailo Kotsiubynsky, Ostroz’koho St, 32, Vinnytsia, Vinnytsia Oblast, 21000, Ukraine
autor
- Vinnytsia State Pedagogical University named after Mykhailo Kotsiubynsky, Ostroz’koho St, 32, Vinnytsia, Vinnytsia Oblast, 21000, Ukraine
autor
- Vinnytsia State Pedagogical University named after Mykhailo Kotsiubynsky, Ostroz’koho St, 32, Vinnytsia, Vinnytsia Oblast, 21000, Ukraine
Bibliografia
- 1. Koutroubas, S.D., Damalas, C.A. 2016. Morphophysiological responses of sunflower to foliar applications of chlormequat chloride (CCC). Bioscience Journal, 32(6), 1493–1501. DOI: 10.14393/BJ-v32n6a2016-33007
- 2. Kuriata V.G., Rohach V.V., Rohach T.I., Khranovska T.V. 2016. The use of antigibberelins with different mechanisms of action on morphogenesis and production process regulation in the plant Solanum melongena (Solanaceae). Visnyk of Dnipropetrovsk University. Biology, Ecology, 24(1), 230–233.
- 3. Kuryata, V.G., Khodanitska, O.O. 2018. Features of anatomical structure, formation and functioning of leaf apparatus and productivity of linseed under chlormequatchloride treatment. Ukrainian Journal of Ecology, 8(1), 918–926.
- 4. Kuryata, V.G., Golunova, L.A., Poprotska, I.V., Khodanitska, O.O. 2019. Symbiotic nitrogen fixation of soybean-rhizobium complexes and productivity of soybean culture as affected by the retardant chlormequat chloride. Ukrainian Journal of Ecology, 9(2), 5–13.
- 5. Kuryata, V.G., Polyvanyi, S.V. 2018. Features of morphogenesis, donor-acceptor system formation and efficiency of crop production under chlormequat chloride treatment on poppy oil. Ukrainian Journal of Ecology, 8(4), 165–174.
- 6. Kuryata,V.G. 2009. Retardants - modifiers of hormonal status of plants/ Plant Physiology: problems and prospects. Part 1. Logos, Kyiv
- 7. Matysiak, K., Kaczmarek, S. 2013. Effect of chlorocholine chloride and triazoles – tebuconazole and flusilazole on winter oilseed rape (Brassica napus var. oleifera L.) in response to the application term and sowing density. J. Plant Prot. Res., 53(1), 79–88. DOI: 10.2478/jppr-2013-0012
- 8. Palamarchuk O., Sakalova H., Vasylinych T., Lyubchak L., Shevchuk O., Matviichuk O., Khodanaitska O. 2022. Usage of Worked Clay Absorbent as a Manifestation of an Ecologically Oriented Lifestyle Ecol. Eng. Environ. Technol, 2 (23), 90–96. DOI: 10.12912/27197050/144825
- 9. Petruk R., Petrushka I., Pohrebennyk V. Environmental safety management of used packaging of pesticides and other dangerous substances. Environmental problems, 2002, 1(5), 31–35. DOI: 10.23939/ep2020.01.030
- 10. Polyvanyi S.V., Golunova L.A., Baiurko N.V., Khodanitska O.O., Shevchuk V.V.,. Rоgаch Т.І, Tkachuk O.O., Shevchuk O.A. 2020. Morphogenesis of mustard white under the action of the antigibberellic preparation chlormequat chloride. Modern Phytomorphology, 14, 101–103 DOI: 10.5281/zenodo.5077891
- 11. Rohach V.V., Kiriziy D.A., Stasik O.O., Rohach T.I. 2020. Morphogenesis, photosynthesis and productivity of eggplants under the influence of growth regulators with different mechanisms of action. Plant physiology and genetics. 2 (52), 152–168. DOI: https://doi.org/10.15407/frg2020.02.152
- 12. Rohach V.V., Rohach T.I., Kylivnyk A.M., Polyvanyi S.V., Bayurko N.V., Nikitchenko L.O., Tkachuk O.O., Shevchuk O.A., Hudzevych L.S., Levchuk N.V. 2020. The influence of synthetic growth promoters on morphophysiological characteristics and biological productivity of potato culture. Modern Phytomorphology, 14, 111–114. DOI: 10.5281/zenodo.5078001
- 13. Sang-Kuk K., Hak-Yoon K. 2014. Effects of Gibberellin Biosynthetic Inhibitors on Oil, Secoisolaresonolodiglucoside, Seed Yield and Endogenous Gibberellin Content in Flax. Korean Journal of Plant Resources, 27(3), 229–235. DOI: 10.7732/kjpr.2014.27.3.229
- 14. Shadchyna Т.М., Kiriziy D.A., Gulyayev B.I. 2006. Regulation of photosynthesis and plant productivity: physiological and ecological aspects Phytosocialcenter, Kiev.
- 15. Shevchuk O.A., Khodanitska O.O., Tkachuk O.O., Matviichuk O.A., Polyvanyi. at all. 2021. Features of seed productivity of sugar beet plants under the influence of retardants. Ukrainian Journal of Ecology, 11(1), 143–148. DOI: 10.15421/2021_21
- 16. Sousa Lima G., Toledo Pereira M., Oliveira M., Nietsche S., Mizobutsi G., Publio Filho W. 2016. Floral induction management in Palmer mango using uniconazole. Ciencia Rural, 46(8), 1350–1356. DOI: 10.1590/0103-8478cr20150940
- 17. Tymchuk I., Shkvirko O., Sakalova H., Malovanyy M., Dabizhuk T., Shevchuk O., Vasylinych T. 2020. Wastewater a Source of Nutrients for Crops Growth and Development. Journal of Ecological Engineering, 21(5), 88–96. https://doi.org/10.12911/22998993/122188/
- 18. Vasilenko V.E., Blinovsky I.K. 1990. Toxicological and hygienic characteristics of retardants. Plant growth regulators. Agropromizdat, Moscow.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c830b99e-5435-4dc1-93e3-9c10bb4c64a9