The effect of the siliceous composites of rice husk and green tea on growth and development of Fragaria × ananassa Duch. regenerants during the adaptation to ex vitro conditions

  • E. V. Ambros Central Siberian Botanical Garden, Siberian Branch of Russian Academy of Sciences, Novosibirsk, Russia Email: ambros_ev@mail.ru
  • S. Y. Toluzakova National Research Tomsk State University, Tomsk, Russia; Tomsk Agricultural Institute - branch of Novosibirsk State Agricultural University, Tomsk, Russia Email: sana74@mail.ru
  • R. A. Gorodova Tomsk Agricultural Institute - branch of Novosibirsk State Agricultural University, Tomsk, Russia Email: r.gorodova@mail.ru
  • E. G. Shapolova Institute of Solid State Chemistry and Mechanochemistry Siberian Branch of Russian Academy of Science, Novosibirsk, Russia Email: shapolova@solid.nsc.ru
  • T. I. Novikova Central Siberian Botanical Garden, Siberian Branch of Russian Academy of Sciences, Novosibirsk, Russia Email: ambros_ev@mail.ru

Abstract

The effect of the composites of rice husk and green tea derived by mechanochemical method on growth and development of 6 cultivars of F. × ananassa Duch. during the adaptation to ex vitro conditions has been studied for the first time. The stimulating action of composite on both increment of the above-ground mass, and formation of the root system was revealed. The height of the rosette relative to the control was reliably increased by 1.3–4.1 times, the length of the root system – 1.1–2.0 times, the number of roots – 1.3–1.8 depending on the genotype.

DOI: 10.14258/turczaninowia.18.3.5

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References

Adams F. Interaction of phosphorus with other elements in soil and in plants // Proc. Symp. The Role of Phosphorus in Agriculture. Am. Soc. Agron. – Madison, WI, 1980. – P. 655.

Butenko R. G. Tissue culture and physiology of morphogenesis of plants. – Moscow: Nauka, 1964. – 272 p. [In Russian]. (Бутенко Р. Г. Культура изолированных тканей и физиология морфогенеза растений. – М.: Наука, 1964. – 272 с.).

Currie H. A. , Perry C. C. Silica in Plants: Biological, Biochemical and Chemical Studies // Ann. Bot., 2007. – Vol. 100, No. 7. – P. 1383–1389.

Dogadina M. A., Mitrenko D. A. The effect of the Mival-Agro of bioorganic siliceous plant growth promoter on crops productivity // Bulletin of the Orel State University [Vestnik Orlovskogo gosudarstvennogo universiteta], 2008. – No. 3. – P. 24–28 [In Russian]. (Догадина М. А., Митренко Д. А. Влияние биокремнийорганического стимулятора роста растений Мивал-Агро на продуктивность зерновых культур // Вестник ОрелГАУ, 2008. – № 3. – С. 24–28).

Epstein E. Silicon: its manifold roles in plants // Ann. Appl. Biol. – 2009. – Vol. 155, No. 2. – P. 155–160.

Gamborg O. L., Eveleigh D. E. Culture methods and detection of glucanases in suspension cultures of wheat and barley // Can. J. Biochem., 1968. – Vol. 46, No. 5. – P. 417–421.

GOST R 53135-2008. Planting material of fruit, berry, subtropical, nuts, citrus cultures and tea. Technical condi-tions. – Mosсow: Standartinform, 2009. – 41 p. [In Russian]. (ГОСТ Р 53135-2008. Посадочный материал плодовых, ягодных, субтропических, орехоплодных, цитрусовых культур и чая. Технические условия. – М.: Стандартинформ, 2009. – 41 с.).

Hazarika B. N. Acclimatization of tissue-cultured plants // Current Science, 2003. – Vol. 85, No. 12. – P. 1704– 1712.

Kalinin D. F., Sarnackaja V. V., Polishhuk V. E. Methods of tissue culture in physiology and biochemistry of plants. – Kiev: Nauk. Dumka, 1980. – 488 p. [In Russian]. (Калинин Д. Ф., Сарнацкая В. В., Полищук В. Е. Методы культуры тканей в физиологии и биохимии растений. – Киев: Наук. Думка, 1980. – 488 с.).

Kolesnikov M. P. Silicon forms in plants // Advances in Biological Chemistry [Uspehi biologicheskoj himii], 2001. – Vol. 41. – P. 301–332 [In Russian]. (Колесников М. П. Формы кремния в растениях // Успехи биологической химии, 2001. – Т. 41. – С. 301–332).

Kudinova L. I. The effect of silicon on growth, size of leaf area and adsorptive surface of plant roots // Agrochemistry [Agrohimija]. 1975. – No. 10. – P. 117–120 [In Russian]. (Кудинова Л. И. Влияние кремния на рост, величину площади листьев и адсорбционную поверхность корней растений // Агрохимия, 1975. – № 10. – С. 117–120).

Liang Y., Sun W., Zhu Y-G., Christie P. Mechanisms of silicon-mediated alleviation of abiotic stresses in higher plants: a review // Environmental Pollution. 2007. – Vol. 147. – P. 422–428.

Lomovsky I. O. Mechanochemical reaction of plant phenolic compounds and their technological application: Abstracts of the thesis for the scientific degree of candidate of chemical sciences [Avtoref. dis. … kand. him. nauk]. – Novosibirsk, 2013. – 26 p. [In Russian]. (Ломовский И. О. Механохимические реакции фенольных соединений растительного происхождения и их технологическое применение: Автореф. дис. … канд. хим. наук. – Новосибирск, 2013. – 26 с.).

Ma J. F. Role of silicon in enhancing the resistance of plants to biotic and abiotic stresses // Soil Sci. Plant Nutr., 2004. – Vol. 50. – P. 11–18.

Matychenkov V. V. The role of mobile compounds of silicon in plants and soil-plant system: Abstracts of the thesis for the scientific degree of doctor of biological sciences [Avtoref. dis. ... dokt. biol. nauk]. – Pushhino, 2008. – 34 p. [In Russian]. (Матыченков В. В. Роль подвижных соединений кремния в растениях и системе почва-растение: Автореф. дис. ... д-ра биол. наук. – Пущино, 2008. – 34 с.).

Matychenkov I. V. Cumulative influence of silicon, phosphorus and nitrogen fertilizers in the soil-plant system: Abstracts of the thesis for the scientific degree of candidate of biological sciences [Avtoref. dis. ... kand. biol. nauk]. – Moskow, 2014. – 31 p. [In Russian]. (Матыченков И. В. Взаимное влияние кремниевых, фосфорных и азотных удобрений в системе почва-растение: Автореф. дис. ... канд. биол. наук. – М., 2014. – 31 с.).

Murashige T., Skoog F. A revised medium for rapid growth and bioassays with tobacco tissue cultures // Physiol. Plant., 1962. – Vol. 15, No. 3. – P. 473–497.

Savant N. K., Snyder G. H., Datnoff L. E. Silicon management and sustainable rice production // Adv. Agron., 1997. – Vol. 58. – P. 158–199.

Shapolova E. G., Lomovsky O. I. Fodder meal of rice husks and green tea for agricultural and non-productive animals and the method of its preparation // Patent of Russian Federation [patent Rossijskoj Federacii]. – No. RU 2438344 C1 ot 13.09.2010 [In Russian]. (Шаполова Е. Г., Ломовский О. И. Кормовая мука из рисовой лузги и зеленого чая для сельскохозяйственных и непродуктивных животных и способ ее получения // Пат. РФ. № RU 22438344C1 от. 13.09.2010).

Shapolova E. G., Bychkov A. L., Lomovsky O. I. Mechanochemical processing of agricultural wastes into com-plex feed additives for animals // Journal of International Scientific Publications: Ecology and Safety., 2012. – Vol. 6, No. 3. – P. 65–77.

Shapolova E. G., Lomovsky O. I. Mechanochemical solubilization of silicon dioxide with polyphenol compounds of plant origin // Russian Journal of Bioorganic Chemistry, 2013. – Vol. 39, No. 7. – P. 765–770.

Sharynhan D. G. Synthetic and natural biostimulators of Mongolia: Abstracts of the thesis for the scientific degree of doctor of chemical sciences [Avtoref. … dokt. him. nauk]. – Irkutsk, 2005. – 49 p. [In Russian]. (Шарынхан Д. Г. Синтетические и природные биостимуляторы Монголии: Автореф. дисс… докт. хим. наук. – Иркутск, 2005. – 49 с.).

Takahashi E., Ma J. F. The possibility of silicon as an essential element for higher plants // Agricultural and Food Chemistry, 1991. – Vol. 2, No. 3. – P. 188–194.

Wang S. Y., Galletta G. J. Foliar application of potassium silicate induces metabolic changes in strawberry plants // Journal of Plant Nutrition, 1998. – Vol. 21, No. 1. – P. 157–167.

Zemnukhova L. A., Panasenko A. E., Tsoi E. A., Fedorishcheva G. A., Shapkin N. P., Artem’yanov A. P., Maiorov V. Y. Composition and structure of amorphous silica produced from rice husk and straw // Inorganic Materials, 2014. – Vol. 50, No. 1. – P. 75–81.

Published
2015-10-01
How to Cite
Ambros E. V., Toluzakova S. Y., Gorodova R. A., Shapolova E. G., Novikova T. I. The effect of the siliceous composites of rice husk and green tea on growth and development of Fragaria × ananassa Duch. regenerants during the adaptation to ex vitro conditions // Turczaninowia, 2015. Vol. 18, № 3. P. 96–102. URL: http://turczaninowia.asu.ru/article/view/863.
Issue
Vol 18 No 3 (2015)
Section
Science articles

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