Effect of indol-3-butric acid and chloromequate chloride on the vegetable and fruit growth of tomato plants

Автор: Suliman Ahmad Aly, Abramov Aleksandr G.

Журнал: Овощи России @vegetables

Рубрика: Овощеводство

Статья в выпуске: 1 (51), 2020 года.

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Relevance. This study aimed to improve fruit set and plant performance to increase tomato productivity by studying the effect of plant growth regulators on tomato plants. Methods. A specific experiment has been carried out to study the effect of plant growth regulators Milagro (1% indol-3-butric acid) and Atlet active substances indol-3-butric acid and chloromequate chloride with applied doses (0.6 M/L, 1.0 M/L and 1.5 M/L) and (1.0, 1.5 and 2.0 M/L) on growth and physiological characteristics of plants (Big Beef F1). The experimental design was a Complete Randomized Blocks Design. Both Hemo bles was applied three times (spraying on plants at 30 DAP, spraying on plants at 60 DAP and spraying on plants 90 DAP). Results. The obtained results showed that, Applying Milagro (1% indol-3-butric acid) had the highest significant Plant height (80.13, 128.77 and 239 cm), number of leaves/plant (18.0, 34.67 and 44.3) and stem diameter (1.07, 1.5 and 2.03 cm), fruit weight (122.0 and 136 g), Flower Clusters number in the plant (4.64, 13.33 and 16.33) and Fruits Number (61.67, 62.0 and 67) Over the three years of study. The results were analyzed using one-way analysis of variance (ANOVA) followed by Tukey’s HSD test with а = 0.05 with the help of MINITAB (v. 19.0) program.

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Tomato, indol-3-butric acid, chloromequate chloride, plant growth regulators

Короткий адрес: https://readera.ru/140248047

IDR: 140248047   |   DOI: 10.18619/2072-9146-2020-1-50-53

Список литературы Effect of indol-3-butric acid and chloromequate chloride on the vegetable and fruit growth of tomato plants

  • AOAC 1990. Official methods of analysis the 15th edition. Association of Official Analytical Chemists, Washington DC
  • Chin J Anal Chem, Determination of Plant Growth Regulators in Vegetable by High-Performance Liquid Chromatography-Tandem Mass Spectrometry Coupled with Isotop-coded Derivatization, 2015;43(3):419-423.
  • Debjit Bhowmik K. P., Sampath K., Shravan P., Shweta S. Tomato-A Natural Medicine and Its Health Benefits. Journal of Pharmacognosy and Phytochemistry. 2012;1(1):33.
  • FAO 2017 http://www.fao.org/faostat/en/#data/QC 14/07/2017, 22:31.
  • Gabal G.M., Oben G., Garcell R. Effect of GA on morph physiological characters and yield of kidney beans (Phaseiolus valgaris). J. Agron. Sci. 1999;160(2):91-101.
  • Gupta, P.K. and Gupta, A.K. Efficacy of plant growth regulators (IAA and NAA) and micronutrient mixtures on growth, flowering, fruiting and shelf life of tomato (Lycopersicon esculentum, Mill.). Bioved Research Society Bioved. 2000;11:1/2,25-29.
  • Horwitz, W. (Ed). 2006. Official Methods of Analysis. 18th E
  • Ibrahim K., Amans A., Abubakar I.U. Growth indices and yield of Tomato (Lycopesicon esculentum karest) varieties as influenced by crop spacing at samaru. Proceedings of the 18th HORTSON Conference. 2000;1:40-47.
  • Kader A.A. Flavor quality of fruits and vegetables. Journal of the Science of Food and Agriculture. 2008;88:1863-1868.
  • Kaloo, G. Tomato (lycopresicon esculentum). Allied publishers Pvt. ltd., New Delhi, 1986. P.203-220.
  • Ministry of Agriculture of the Russian Federation. Handbook of pesticides and agrochemicals, allowed for application in the territory of the Russian federation, Moscow, 2015. 1-735 (translated from Russian).
  • Nielsen S. Food analysis (3rd ed.). New York: Kluwer Academic. 2003.
  • Rahman M., Nahar M.A., Sahariar M.S., Karim M.R. Plant growth regulators promote growth and yield of summer tomato. Progressive Agriculture. 2015;26:32-37.
  • Santner, A., Calderon-Villalobos, L.I.A., Estelle, M. Plant hormones are versatile chemical regulators of plant growth. Nat. Chem. Biol. 2009;5(5):301-307.
  • Sandeep Kumar Singh, Nidhika Thakur and Yamini Sharma. Plant growth regulators in fruit and vegetable crops. International Journal of Agricultural Sciences. 2013;9(1):433-437.
  • Steffy Kamboj, Karampal Singh, Snehdeep Singh, Navdeep Gandhi. Department of Agriculture, D.A.V. College, Abohar (India). Effect of Indole Butyric Acid on Rooting and Vegetative Parameters of Pomegranate (Punica granatum L.) Cuttings. International journal of advance research in science. 2017;06(01).
  • Taylor J.H. 1987. Text of lectures delivered at the national workshop on fruit and vegetable seedlings production held at NIHORT 9-13.
  • Valdrighi M.M., Pera A., Agnolucci M., Frassinetti S. Effects of compost-derived humic acids on vegetable biomass production and microbial growth within a plant (Cichorium intybus) soil system: a comparative study. Agric. Eco. and Envir. 1996;58:133-144.
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