Open Access
Subscription Access
Effective Use of Synthetic Seed Technology in the Regeneration of Cymbidium aloifolium using Protocorm-Like Bodies
Synthetic seed technology offers tremendous potential in micropropagation. It deals with in vitro conservation and storage of rare and endangered plant species along with their easy handling and transportation. This technology is becoming prevelant due to its wide applications in germplasm conservation and for exchanges between countries in floricultural trade. The present study examines the regeneration and conversion capabilities of Cymbidium aloifolium using protocorm-like bodies when stored at different temperatures. The propagules showed high proliferative potential by multiplication and complete plantlets were obtained in 58 days on basal M medium supplemented with 1 mg l–1 of indole-3-acetic acid.
Keywords
Cymbidium aloifolium, Protocorm-Like Bodies, Regeneration, Synthetic Seeds.
User
Font Size
Information
- Hail, Z. R., Kareem, F., El-Mahrouk, M. E. and Fuller, M. P., Artificial seeds (principle, aspects and applications). Agronomy, 2017, 7, 71; doi:10.3390/agronomy7040071.
- Vij, S. P., Regeneration response of orchid ischolar_mains: a study in vitro. J. Orchid Soc. India, 1993, 7, 61–72.
- Vij, S. P., Kher, A. and Gupta, A., Orchid micropropagation. In Biotechnology in Horticultural and Plantation Crops (eds Chadha, K. L., Ravindran, P. N. and Sahijram, L.), Malhotra Publishing House, New Delhi, 2000, pp. 598–641.
- Lambardi, M., Benelli, C., Ozudogru, E. A. and Ozden-Tokatli, Y., Synthetic seed technology in ornamental plants. In Floricul-ture, Ornamental and Plant Biotechnology, Vol. II (ed. Teixeira da Silva, J. A.), Global Science Books, UK, 2006, pp. 347–354.
- Sharma, S., Shahzad, A. and Teixeira da Silva, J. A., Synseed technology – a complete synthesis. Biotechnol. Adv., 2013, 31(2), 186–207.
- Bektas, E., Cuce, M. and Sokmen, A., In vitro germination, proto-corm formation, and plantlet development of Orchis coriophora (Orchidaceae), a naturally growing orchid species in Turkey. Turk. J. Bot., 2013, 37, 336–342.
- Gantait, S. and Mitra, M., Applications of synthetic seed techno-logy for propagation, storage, and conservation of orchid germplasms. In Synthetic Seeds, Springer, Cham, 2019, pp. 301–321.
- Kaur, S. and Pathak, P., Synthetic seeds and in vitro propagation of Cymbidium aloifolium (Linn.) Sw. J. Orchid Soc. India, 2014, 28, 103–108.
- Mohanty, P., Das, M. C., Kumaria, S. and Tandon, P., High-efficiency cryopreservation of the medicinal orchid Dendrobium nobile Lindl. Plant Cell Tiss. Organ Cult., 2013, 109, 297–305.
- Pehwal, A., Vij, S. P., Pathak, P. and Attri, L. K., Augmented shelf-life and regeneration competence of activated charcoal (AC) supplemented synthetic seeds in Cymbidium pendulum (Roxb.) Sw. Curr. Bot., 2012, 3(5), 30–34.
- Pradhan, S., Tiruwa, B. L., Subedee, B. R. and Pant, B., Micro-propagation of Cymbidium aloifolium (L.) Sw., a medicinal orchid by artificial seeds technology. J. Nat. Hist. Mus., 2014, 28, 42–48.
- Saxena, A., Shukla, M. and Saxena, P., Synthetic seeds: relevance to endangered germplasm conservation in vitro. Synthetic Seeds, Springer, Cham, 2019, pp. 21–60.
- Siew, W. L., Kwok, M. Y., Ong, Y. M., Liew, H. P. and Yew, B. K., Effective use of synthetic seed technology in the regeneration of Dendrobium white fairy orchid. J. Ornament. Plants, 2014, 4(1), 1–7.
- Teixeira da Silva, J. A., Production of synseed for hybrid Cym-bidium using protocorm-like bodies. J. Fruit Ornament. Plant Res., 2012, 20(2), 135–146.
- Lawler, J., Ethnobotany of the orchidaceae – a manual In Orchid Biology, Reviews and Perspectives, Vol. III (ed. Arditti, J.), Cornell University Press, Ithaca, New York, USA, 1984, pp. 27–149.
- CITES, Convention on International Trade in Endangered Species of Wild Fauna and Flora. Appendices I, II and III, 2014.
- Mitra, G. C., Prasad, R. N. and Roychowdhary, A., Inorganic salts and differentiation of protocorms in seed callus of an orchid and correlated changes in its free amino acid content. Indian J. Exp. Biol., 1976, 14, 350–351.
- Vij, S. P. and Aggarwal, S., Regeneration competence of foliar explants: Vanda coerulea Griff. J. Orchid Soc. India, 2003, 17(1–2), 73–78.
- Sarmah, D. K., Borthakur, M. and Borua, P. K., Artificial seed production from encapsulated PLBs regenerated from leaf base of Vanda coerulea Griff. ex Lindl. an endangered orchid. Curr. Sci., 2010, 98, 686–690.
- Sakamoto, Y., Onishi, N. and Hirosawa, T., Delivery system for tissue culture by encapsulation. In Automation and Environmental Control in Plant Tissue Culture (eds Aitken-Christie, J., Kozai, T. and Lila Smith, M.), Kluwer Academic Press, The Netherlands, 1995, pp. 215–243.
- Devi, J., Ray, B. K., Chetia, S. and Deka, P. C., Regeneration of low temperature stored encapsulated protocorms of orchids. J. Or-chid Soc. India, 1998, 12(1–2), 39–41.
- Pathak, P., Vij, S. P. and Gautam, N., Effects of alternate gelling agents on in vitro asymbiotic germination and seedling develop-ment in Aerides multiflora Roxb.: An attempt towards developing a cost effective protocol. In Proceedings of the 18th World Orchid Conference Dijon, France Actes Proceedings, France – Orchidees, France, 2005.
- Vij, S. P., Kaur, P. and Gupta, A., Synthetic seeds and their utility in orchids: Dendrobium densiflorum Lindl. Phytomorphology, 2001, 51, 159–165.
Abstract Views: 227
PDF Views: 68