Kullanım Kılavuzu
Neden sadece 3 sonuç görüntüleyebiliyorum?
Sadece üye olan kurumların ağından bağlandığınız da tüm sonuçları görüntüleyebilirsiniz. Üye olmayan kurumlar için kurum yetkililerinin başvurması durumunda 1 aylık ücretsiz deneme sürümü açmaktayız.
Benim olmayan çok sonuç geliyor?
Birçok kaynakça da atıflar "Soyad, İ" olarak gösterildiği için özellikle Soyad ve isminin baş harfi aynı olan akademisyenlerin atıfları zaman zaman karışabilmektedir. Bu sorun tüm dünyadaki atıf dizinlerinin sıkça karşılaştığı bir sorundur.
Sadece ilgili makaleme yapılan atıfları nasıl görebilirim?
Makalenizin ismini arattıktan sonra detaylar kısmına bastığınız anda seçtiğiniz makaleye yapılan atıfları görebilirsiniz.
 Görüntüleme 16
Optimization of clonal micropropagation of Chrysanthemum
2019
Dergi:  
Ukrainian Journal of Ecology
Yazar:  
Özet:

Micropropagation of Chrysanthemum is an alternative to the traditional method of reproduction. Thanks to this method, the Chrysanthemum reproduction time is reduced to 3-4 months. For clonal micropropagation, sterile microshoots of Chrysanthemums of the varieties Snow White, Stranger, and Baltica White were used. At the stage of the micropropagation, the Murashige-Skoog (MS) medium with the full and half composition of mineral salts and growth regulators (kinetin, 6-benzylaminopurine, β-indolylacetic acid) were used. A universal culture medium for clonal micropropagation of all varieties of Chrysanthemum and optimal mediums, taking into account variety-specificity were established. It was noted that under in vitro conditions, high proliferative activity was observed in Neznakomka variety. Key words: Clonal micropropagation; Chrysanthemum; Reproduction; Microshoots References Datta S. K. (2012). Success story of induced mutagenesis for development of new ornamental varieties. In: M. I. Kozgar and S. Khan (eds), Induced Mutagenesis in Grop Plants. Biorem. Biodiv. Bioavail. 6 (Special Issue 1), 15–26. Datta S. K. (2013). Chrysanthemum morifolium Ramat. – a unique genetic material for breeding. Sci. Culture, 7–8, 307–313. Deein W., Thepsithar G., Thongpukdee A. (2013a). In vitro culture medium sterilization by chemicals and essential oils without autoclaving and growth of Chrysanthemum nodes. World Acad. Sci., Engir. Technol., 78, 1038–1041. Deein W., Thepsithar C., Thongpukdee A. (2013b). Growth of Chrysanthemum explants on MS medium sterilized by disinfectants and essential oils. Int. J. Biosci., Biochem. Bioinformatics, 3(6), 609–613. Getu M. (2009). Ethiopia floriculture and its impact on the environment. Regulationg, Supervision and Compliance. Mizan Law Rev, 3(2), 242. Granda Hamillo R.K. (2009). Mikroklonal'noe razmnozhenie hrizantem. Izvestiya TSKHA, 1, 145–148 (in Russian). Kolomiets T.M., Malyarovskaya V.I. (2013). Usovershenstvovanie biotekhnologicheskih priemov polucheniya vysokokachestvennogo posadochnogo materiala hrizantemy. Subtropicheskoe i dekorativnoe sadovodstvo, 48, 115–122 (in Russian). Kulus D., Mikula A., Zalewska M. (2013). Cryopreservation: an efficient tool to combat genetic erosion phenomenon in agriculture and horticulture. IVth International Scientific Symposium for PhD Students and Students of Agricultural Colleges – Innovative researches for the future of agriculture and rural areas development, Bydgoszcz, 61. Kuritskaya E.V., Nedoluzhko A.I., Vrzhosek E.V., Boltenkov E.V. (2016). Klonal'noe mikrorazmnozhenie Chrysanthemum leiophyllum (Asteraceae). Turczaninowia, 19(2), 99–104 (in Russian). Lim K-B., Kwon S. J., Lee S. I., Hwang J-Y., Naing A. H. (2012). Influence of genotype, explant source, and gelling agent on in vitro shoot regeneration of chtysanthemum. Hort. Environ. Biotechnol., 53(4), 329–335. Murashige, T., Skoog, F. (1962). A revised medium for rapid growth and bioassays with tobacco tissues cultures. Physiologia Plantarium, 15(13), 473-497. Shinoyama H., Anderson N., Furuta H., Mochizuki A., Nomura Y., Singh R. P. et al. (2006). Chrysanthemum biotechnology. In: Floriculture, Ornamental and Plant Biotechnology: Advanced and Topical Issues. Global Science Books, Ltd., Isleworth, UK, 140–163. Teixeira da Silva J. A., Shinojama H., Aida R., Matsushita Y., Raj S. K., Chen F. D. (2013). Chrysanthemum biotechnology: Quo vadis? Critical Reviews in Plant Sci., 32(1), 21–52. Teixeira da Silva J. A., Kulus D. (2014). Chrysanthemum biotechnology: discoveries from the recent literature. Folia Horticulturae, 26(2), 67–77. Timofeeva O. A., Nevmerzhitskaya Yu. Yu. (2012). Klonal'noe mikrorazmnozhenie rastenij. Kazan. Publishing house of Kazan University (in Russian). Tymoszuk A., Zalewska M. (2014). In vitro adventitious shoot regeneration from ligulate florets in the aspect of application in Chrysanthemum breeding. Acta Sci. Pol., Hortorum Cultus, 13(2), 45–58. Zhou Y., Wang Y. Y., Song Y. R., Gao Z. Y., Liu Y. M., Fan L. J., et al. (2014). Stem apex detoxification culture mark edly improved several physiological characters of Chrysanthemum “YUTAI”. Plant Cell Tissue Organ Cult., 119, 369–381.

Anahtar Kelimeler:

Atıf Yapanlar
Bilgi: Bu yayına herhangi bir atıf yapılmamıştır.
Benzer Makaleler












Ukrainian Journal of Ecology

Alan :   Fen Bilimleri ve Matematik

Dergi Türü :   Uluslararası

Metrikler
Makale : 1.237
Atıf : 1.903
Ukrainian Journal of Ecology