Effect of Treatment of Callistephus chinensis ( L.) Ness. Plants by Ivin at Growth and Decorative Parameters in Conditions of Industrial City

[1] S. Batterman, R. Ganguly & P. Harbin, High resolution spatial and temporal mapping of traffic-related air pollutants, International Journal of Environmental Research and Public Health. 12(4) (2015). 3646–3666.

DOI: 10.3390/ijerph120403646

Google Scholar

[2] D.J. Nowak, E.C. D.E. Crane, J.C. Stevens, Air pollution removal by urban trees and shrubs in the United States, Urban Forestry & Urban Greening. 4 (2006) 115–123.

DOI: 10.1016/j.ufug.2006.01.007

Google Scholar

[3] D.J. Nowak, S. Hirabayashi, M. Doyle, M. McGovern, J. Pasher, Air pollution removal by urban forests in Canada and its effect on air quality and human health, Urban Forestry & Urban Greening. 29 (2018) 40–48.

DOI: 10.1016/j.ufug.2017.10.019

Google Scholar

[4] S. Cen Biological monitoring of air pollutants and its influence on human beings open, Biomed Eng J. 9 (2015) 219–223.

DOI: 10.2174/1874120701509010219

Google Scholar

[5] N. Belousova, N. Lunina, The modern tendency of the ornamental gardening of the Belorussian cities, Science and Innovation. 5 (2016). 7–9.

Google Scholar

[6] L.P. Gievaya, A.L. Kalmykova. The ornamental gardening M.A. Gorkogiy PKiO in Saratov city Landscape Architecture Bulletin. 8 (2016) 27–29.

Google Scholar

[7] E.V. Semenkova, On the question of the systematical approach to the flowering gardening in the city, Forestry Bulletin. 5 (2015) 23–27.

Google Scholar

[8] O.S. Zalivskaya, Je.V. Drochneva, The flowering gardening of Arkhangelsk city, the International student issue. 2 (2016) 187.

Google Scholar

[9] G.A. Potaev, A.D. Nikonchik, The ways of reconstruction the formed parks territories in the big cities, Architecture: the issue of scientific proceedings. 1 (2008) 87–90.

Google Scholar

[10] O.E. Ivanchenko, V.P. Bessonova, N.V. Kapelyush, Concentration of heavy metals in leaves of woody plants perks of Dnepropetrovsk. Visnyk of Lviv University. Biological series. 72 (2016) 82–92.

Google Scholar

[11] J.G. Atherton, G.P. Harris, Effects of chilling on the formation of secondary growing-centres in flowers on the glasshouse carnation, Sci. hort. 13(4) (1980) 371–376.

DOI: 10.1016/0304-4238(80)90095-3

Google Scholar

[12] S.-T. Chang, W.-S. Chen, M. Koshioka, L.N. Mander, K.-L. Huang & B.-S. Du, Gibberellins in relation to flowering in Polianthes tuberosa, Physiologia Plantarum, 112(3) (2001). 429–432.

DOI: 10.1034/j.1399-3054.2001.1120317.x

Google Scholar

[13] M. Grzesik Mozliwośc stosowania regylatorow wzrostu w produkciji roz, Ogrodnictwo. 24(8) (1987) 19–20.

Google Scholar

[14] O.E. Hanbabaeva, E.A. Kozlova, A.E. Macneva, The effect of treatment with gibberellic acids on the growth and development of the flowering annual culture, The International Technical-Economic Journal. 5 (2015) 100–106.

Google Scholar

[15] G. Hanks, A. Rees Substitution of tulip cold requirement by gibberellins, Intern. Hort. Congr. Abstr. Collect. 2 (1982) 1708.

Google Scholar

[16] A. Pobudkiewicz, The influence of growth retardants and cytokinins on flowering of ornamental plants, Acta Agrobotanica. 61 (1) (2008) 137–141.

DOI: 10.5586/aa.2008.018

Google Scholar

[17] A.V. Roberts, P.S. Blake, R. Lewis, J.M. Taylor & D.I. Dunstan, The Effect of Gibberellins on Flowering in Roses, Journal of Plant Growth Regulation. 18(3) (1999) 113–119.

DOI: 10.1007/pl00007058

Google Scholar

[18] L.V. Rounkova, Gibberellin and retardants influence on some ornamental plants and a level of their native growth substances, Acta Hortic. 91 (1979) 437–448.

DOI: 10.17660/actahortic.1979.91.53

Google Scholar

[19] L.V. Runkova, The effect of growth stimulators on the ornamental plants, Nauka, Moscow, 1984.

Google Scholar

[20] L.V. Runkova, The effect of cytokinins on the ornamental plants, Biostimulants and inhibitors of the plants growth processes, (1988) 110–122.

Google Scholar

[21] P.A. Tomas, G.D. Coorts, J.E. Preece, The effect of phtalamides AC 99524, AC 94377 and gibberellic acid (GA3) on flowering of cyclamen persicum F1 hybrids, Hort. Science. 16(3) (1981) 409.

Google Scholar

[22] J. Tonecki, Effect of short photoperiod and growth regulators on growth, flowering and tuberization of Begonia × tuberhybrida, Acta hortic. Wageningen. 177(1) (1986) 147–156.

DOI: 10.17660/actahortic.1986.177.20

Google Scholar

[23] V.P. Bessonova, I.I. Lyzhenko, O.F. Mikhailov, O.N. Kulaeva, Effect of cytokinin of plant growth and chlorophyll content under conditions of atmospheric pollution. Plant physiology. 31(6) (1984) 1149–1153.

Google Scholar

[24] V.P. Bessonova, The effect of polystimulin K on the photosynthetic apparatus of sweet pea plants, which was cultivated under the excess of iron, Manganese and chrome, Physiology and biochemistry of cultivated plants. 23(2) (1991). 158–163.

Google Scholar

[25] M. Kamínek, T. Vanĕk, A. Kalendová-Kulasová, J. Pilař, The effect of two cytokinins on production of stem cuttings by stock plants of Euphorbia pulcherrima Willd. and Gerbera jamesonii Hook, Sc. hortic. 33 (3/4) (1987) 281–289.

DOI: 10.1016/0304-4238(87)90075-6

Google Scholar

[26] S.H. Shah, The effect of the spraying with kinetin on the growth and production of Nigella sativa plants, Plant physiology. 54(5) (2007) 790–793.

Google Scholar

[27] A. Trivellini, G. Cocetta, P. Vernieri, A. Mensuali-Sodi, & A. Ferrante, Effect of cytokinins on delaying petunia flower senescence: a transcriptome study approach. Plant Molecular Biology, 87(1–2) (2015) 169–180.

DOI: 10.1007/s11103-014-0268-8

Google Scholar

[28] E.Yu. Bakhtenko, Yu.A. Suslov, B.P. Kurapov, T.V. Khurshkainen, Comparative study of the efficiencies of plant growth regulators for fiber flax, Аgrochemistry. 8 (2011) 37–43.

Google Scholar

[29] Y. Sajjad, M.J. Jaskani, M. Asif, M. Qasim, Application of plant growth regulators in ornamental plants: a review, Pak. J. Agri. Sci. 54(2) (2017) 327–333.

Google Scholar

[30] E.P. Priymak, Effect of 24-epibrasonolid on the growth processes of some ornamental flowering plants in the conditions of the environmental pollution with automobile fumes, Problems of bioindications and ecology. 12(1) (2007) 80–99.

Google Scholar

[31] V.A. Vostokova, L.T. Suhenko, M.A. Egorov. The effect of the plants biological ctive substances on the development of hothouse plants, Issue of the publication of the multidisciplinary scientific journal "Archivarius" on the materials of the XXst International scientifically-practical conference "The Science in the modern world" (Kiev), Multydiciplinary scientific journal "Archivarius", Kiev, 2017. 5–9.

Google Scholar

[32] M.N. Zhizhina, A.V. Omelchenko, Influence of regulators of growth on some structurally functional indicators of activity of the photosynthetic salinization, The scientific proceedings of V.I. Vernadsky Crimerian federal university. Biology. Chemistry. 3 (69) (2017) 82–90.

Google Scholar

[33] M.N. Zhizhina, S.N. Kabuzenko, The effect of the biological active substances on the miotic aactivity of the root meristem cells of corn and barley plants in the conditions of salinisation stress, The Scientific Proceedings of V.I. Vernadskiy Tavricheskiy National University. Biology. Chemistry. 19 (58) (2006) 80–85.

Google Scholar

[34] V.P. Bessonova, O.E. Ivanchenko, E.P. Priymak, The effect of polystimulin K on flowering quality in ornamental flowering plants in the polluted environment, Ukr. Botan. Journ. 63(4) (2006) 541–550.

Google Scholar

[35] V.P. Bessonova, The effect of heavy metals and polystimulin K on the antioxidant system the cells of sweet pea leaves, Physiology and biochemistry of cultivated plants. 24(2) (1992). 137–153.

Google Scholar

[36] O.E. Ivanchenko, The effect of polystimulin K on the growth of vegetative organs the ornamental flowering plants at the bachground of the environmental pollution with iron and chrome substances, Problems of bioindications and ecology. 9(2) (2004) 10–22.

Google Scholar

[37] V.M. Trojan, V.K. Javors'ka, S.P. Ponomarenko et al., The theoretical approachs of the application of the groWth regulator 2.6-dimethylpyridin-N-oxide in the crop research, Physiology and biochemistry of cultivated plants. 23(5) (1991) 468–4473.

Google Scholar

[38] The re-edition of the official Supplement to the List of pesticides and agrochemicals acceptable for using in Ukraine as of 2017, in line with State Service of Ukraine to Food Safety and Consumer Protection (the letter from 02.06.2017 № 602-123-10/5036), Univest Media, Kiev, 2017.

Google Scholar

[39] R.M. Klejn, T.D. Klejn, Plant research methods, Kolos, Moscow, 1974.

Google Scholar

[40] V.F. Gavrilenko, T.V. Zhigalova. The big practicum on photosyntsesis, The publisher center "Academia", Мoscow, 2003.

Google Scholar

[41] N. Nambiar, T.C. Siang, M. Mahmood, Effect of 6-Benzylaminopurine on flowering of a Dendrobium orchid, Australian Journal of Crop Science. 6(2) (2012) 225–231.

Google Scholar

[42] P.E. Jameson, J.  Song, Cytokinin: a key driver of seed yield, Journal of Experimental Botany. 67(3) (2016) 593–606.

DOI: 10.1093/jxb/erv461

Google Scholar

[43] M. Mohd, A.K. Taqi, M. Firoz, Cytokinins, a classical multifaceted hormone in plant system, Journal of Stress Physiology & Biochemistry. 7(4) (2011) 347–368.

Google Scholar

[44] T. Werner, V. Motyka, M. Strnad and T. Schmülling, Regulation of Plant Growth by Cytokinin, Proceedings of the National Academy of Sciences of the United States of America. 98(18) (2001) 10487–10492.

DOI: 10.1073/pnas.171304098

Google Scholar

[45] O.I. Ulyanych, Production of spinach depending on the treatment of seeds with growth regulators, The Bulletin of Kharkiv National Agrarian University. Series Biology. 2 (2009) 94–97.

Google Scholar

[46] І.V. Dydiv, The effect of Ivin and emistim C on the production of parsnip in the conditions of West Forrest-Steppe zone of Ukraine, Vegetable and melon growing. 54 (2008) 156–162.

Google Scholar

[47] А.V. Kolisnyk, M.V. Draga, S.A. Shumіk, M.M. Musіenko, Effect of N-oxydes of pyridins (Ivin and triman) and kinetin on the nitrogen metabolism of wheat, Physiology and biochemistry of cultivated plants. 32(5) (2000) 394–400.

Google Scholar

[48] N.L. Kljachko, L.A. Jakovleva, F.M. Shakirova, The effect of cytokinin on the protein synthesis in the isolated pumpkin cotyledon, Plant growth and development regulators, Nauka, Moscow (1981) 29–30.

Google Scholar

[49] M.G. Blanchard, E.S. Runkle, Benzyladenine promotes flowering in Doritaenopsis and Phalaenopsis orchids, J Plant Growth Regul. 27 (2008) 141–150.

DOI: 10.1007/s00344-008-9040-0

Google Scholar

[50] F. Bonhomme, B. Kurz, S. Melzer, G. Bernier & A. Jacqmard, Cytokinin and gibberellin activate SaMADS A, a gene apparently involved in regulation of the floral transition in Sinapis alba, Plant J. 24. (2000) 103–111.

DOI: 10.1046/j.1365-313x.2000.00859.x

Google Scholar

[51] L. Corbesier, E. Prinsen, A. Jacqmard, P. Lejeune, H.V. Onckelen, C. Périlleux, G. Bernier, Cytokinin levels in leaves, leaf exudate and shoot apical meristem of Arabidopsis thaliana during floral transition, J Exp Bot. 54(392) (2003) 2511-2517.

DOI: 10.1093/jxb/erg276

Google Scholar

[52] K.F. Wentrel Habitus-Anderung der walabaaume durch duftverlinigung, Forstarchiv. 41 (1971) 165–172.

Google Scholar

[53] A. Ramina, W.P. Hackett, R.M. Sachs, Flowering in Bougainvillea: a Function of Assimilate Supply and Nutrient Diversion, Plant Physiol. 64(5) (1979) 810–813.

DOI: 10.1104/pp.64.5.810

Google Scholar

[54] J.W. Mastalke, Changes of axillary meristem localization in relation to flowering, Proc. Am. Soc. Hortic Sci. 502 (1956) 87.

Google Scholar

[55] Т.N. Kantanistova, T.V. Bavrina, A.P. Aksenova, S.A. Goljanovskaja, The action of glucose at the morphogenesis of shooy calluses of photoperiodical neutral tobacco Trapesond, Plant physiology, 19 (1972) 89–97.

Google Scholar

[56] Yu.E. Andrianova, I.A. Tarchevsky, Chlorophyll and plant productivity, Moscow, Nauka, 2000.

Google Scholar

[57] V.P. Karpenko, S.S. Shutko, Chlorophyll concentration and photosynthetic productivity in soriz while applying of Pik 75 WG herbicide and Regoplant plant growth regulator, Journal of Uman NUH. 93(1) (2018) 23–32.

DOI: 10.31395/2415-8240-2018-93-1-23-32

Google Scholar

[58] G.O. Priadkina, O.V. Maslyukivska, O.O. Stasik, V.P. Oksem, Relationships between leaves and canopy chlorophyll concentrations at grain filling and productivity of winter wheat, Plant physiology and genetics. 47(2) (2015) 167–174.

Google Scholar