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International Journal of Food Science and Agriculture

ISSN Online: 2578-3475 ISSN Print: 2578-3467 CODEN: IJFSJ3
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ArticleOpen Access http://dx.doi.org/10.26855/ijfsa.2020.12.013

Effect of Benzyl Adenin on the Growth of Black Orchid ( Coelogyne pandurata lindl.) Planlets in in vitro Culture

Lucky Prayoga *, Rochmatino, Kamsinah

Faculty of Biology, Universitas Jenderal Soedirman, Jl. Dr. Soeprano No. 63, Karangwangkal Purwokertro, Central Java, Indonesia.

*Corresponding author: Lucky Prayoga

Published: December 10,2020

Abstract

Conservation of black orchids (Coelogyne pandurata Lindl.) is a high priority because the natural population is decreasing significantly. A typical method for orchid conservation is farming. The aims of this research were to examine the effects of adding benzyladenine (BA) to medium on the total number of buds, shoot initiation, and the number and length of roots. Our research method was based on a completely randomized design, in which various concentrations of BA (0, 0.5, 1, 1.5 and 2 ppm) were added to Vacin and Went medium. The BA concentration significantly affected the growth of black orchid plantlets. The most prominent effect was seen at 0.5 and 1 ppm/L BA; however, increasing the concentration over 1 ppm/L inhibited bud growth and the number and length of roots. Our data suggest that optimization of the BA concentration added to medium leads to accelerated growth of black orchid plantlets. In vitro propagation with the addition of BA to Vacin and Went media can be applied for black orchid conservation.

Keywords

Benzyladenine, Black Orchid, Concentration, Conservation, Plantlets

References

[1] Hartati, S., R. B. Arniputri, L. A. Soliah, and O. Cahyono. (2017). Effects of organic additives and naphthalene acetid acid (NAA) application on the in vitro growth of Black orchid hybrid (Coelogyne pandurata Lindley). Bulg. J. Agric. Sci., 23(6): 951-957. 

[2] Barman, D. and Devadas, R. (2013). Climate change on orchid population and conservation strategies: A review. Journal of Crops and Weeds, 9(2): 1-12. 

[3] Lestari, N. K. D. (2015). Determining accurate harvesting times of Coelogyne asperata lindl. Seed capsules for propagation using tissue culture technique. Acta Horticultura, March 2015. DOI:10.17660/ActaHortic.2015.1078.5. 

[4] Semiarti, E. (2018). Orchid Biotechnology for Indonesian Orchids Conservation and Industry. Cite as: AIP Conference Pro-ceedings 2002, 020022 (2018); https://doi.org/10.1063/1.5050118.

[5] Hartati, S., Nandariyah, Yunus A., Djoar, Dj. (2017). Cytological studies on black orchid hybrid (Coelogyne pandurata Lindley). Biodiversitas, 18(2): 555-559. 

[6] Cardoso, J. C., Zanello, C. A., Chen, J. T. (2020). An Overview of Orchid Protocorm-Like Bodies: Mass Propagation, Bio-technology, Molecular Aspects, and Breeding. International Journal of molecular science, 21, 985.

[7] Kosina, R. and Szkudlarek, M. (2015). Floral variability in selected species of the genus coelogyne lindl., orchidaceae. Modern Phytomorphology, 8: 27-xxx.

[8] Van Staden, J., Zazimalova, E., George, E. F. (2008). Plant growth regulators II: cytokinins, their analogues and antagonists. [In:] Plant propagation by tissue culture. George (ed.), Springer, pp. 205-226.

[9] Bantawa, P., Roy, O. S., Mondal, T. K. (2009). Effect of bavistin and adenine sulphate on in vitro shoot multiplication of Pi-crorhiza scrophulariiflora Pennell.: An endangered medicinal plant of Indo-China Himalayan regions. Plant Tissue Culture and Biotechnology, 19(2): 237-245.

[10] Mathur, A., Mathur, A. J., Verma, P., Yadav, P., Gupta, M. L., and Darokar, M. P. (2008). Biological hardening and genetic fidelity testing of micro-cloned progeny of Chlorophytum borivilianum Sant. et Fernand. African Journal of Biotechnology, 7(8): 1046-1053, 17 April, 2008.

[11] El-Ghamery, A. A. and Mousa, M. (n.d.). Investigation on the effect of benzyladenine on the germination, radicle growth and meristematic cells of Nigella sativa L. and Allium cepa L. Annals of Agricultural Science, 62: 11-21.

[12] Janowska, B. (2014). Effect of Benzyladenine on Flower and Leaf Yield of Calla Lily (Zantedeschia SpRENg.). Bulgarian Journal of Agricultural Science, 20 (3): 633-637. 

[13] Siddique, I., Abdullah, N., Bukhari, W., Perveen, K., and Siddiqui, I. (2015). Influence of Plant Growth Regulators on In Vitro Shoot Multiplication and Plantlet Formation in Cassia angustifolia Vahl. Braz. Arch. Biol. Technol., 58(5): 686-691, Sept/Oct 2015.

[14] Mat Yasin, Z. A., Mahmood, M., Shaharuddin, N. A. (2015). Effects of benzyladenine purine and its interaction with polyamines on growth of Spathoglottis plicata PLBs. Turkish Journal of Botany, 39: 245-252. doi:10.3906/bot-1405-95.

[15] Hartati, S., Muliawati, E. S., Pardono, P., Cahyono, O., Yuliyanto, P. (2019). Morphological characterization of Coelogyne spp for germplasm conservation of orchids. Rev. Ceres, Viçosa, 66(4): 265-270, jul/aug, 2019.

[16] Romanov, G. A. (2009). How Do Cytokinins Affect the Cell? Russian Journal of Plant Physiology, 56(2): 268-290.

[17] Wróblewska, K. (2012). The Influence of Adenine and Benzyladenine on Rooting and Development of Fuchsia hybrida CUTTINGS. ACTA AGROBOTANICA, 65(4): 101-108.

[18] Elaleem, K. G. A., Modawi, R. S., and Khalafalla, M. M. (2009). Effect of plant growth regulators on callus induction and plant regeneration in tuber segment culture of potato (Solanum tuberosum L.) cultivar Diamant. African Journal of Biotechnology, 8(11), 2529-2534, 3 June, 2009. Available online at http://www.academicjournals.org/AJB.

[19] Sardoei, A. S. (2014). Gibberellic acid and benzyl adenine foliar sprays increase offsets in Aloe barbadensis. European Journal of Experimental Biology, 4(1): 646-650.    

[20] Naderi, D., Askari-Khorasgani, Mahmoudi, E. (2014). Cefotaxime and Benzyladenine Improve Melon Regeneration. Iran J Biotech., 14(1): e1077. DOI: 10.15171/ijb.1077. 

[21] Quadri, R. R., Teixeira da Silva, J. A., Kamili, A. N., Shah, A. M. (2019). Effect of 6-Benzyladenine, Kinetin and Thidiazuron on in Vitro Shoot Proliferation of Hyoscyamus niger L. Medicinal and Aromatic Plant Science and Biotechnology, 6(1): 81-83.

How to cite this paper

Effect of Benzyl Adenin on the Growth of Black Orchid (Coelogyne pandurata lindl.) Planlets in in vitro Culture

How to cite this paper: Lucky Prayoga, Rochmatino, Kamsinah. (2020) Effect of Benzyl Adenin on the Growth of Black Orchid (Coelogyne pandurata lindl.) Planlets in in vitro Culture. International Journal of the Science of Food and Agriculture, 4(4), 454-457.

DOI: http://dx.doi.org/10.26855/ijfsa.2020.12.013

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