potential of an antioxidant molecule by different antioxidant assays (Kalaivani et al., 2010b). Variations in antioxidant capacity of different extracts may be due to differences in their phytochemical profile such as phenolics, flavonoids, phytosterols, saponins and carotenoid (Kalaivani & Mathew, 2009). CONCLUSION In the present study, three important plants namely Allium stracheyi, Acacia nilotica and Naravelia zeylanica endemic to Himalaya, Eastern and Western Ghats respectively were chosen. As per traditional ethnobotanical knowledge of Malayali, Bhotiya and Muthuvan tribes, these plants possess multiple medicinal applications. In vitro propagation studies reveal that MS media supplemented with IAA & BAP plant growth regulators induce callogenesis and NAA & BAP induce somatic embryogenesis. The germplasm of these species can be conserved for future use. Phytochemical screening revealed the presence of various phytochemical constituents besides antioxidants. The results indicated that these unexplored plant species have been used by traditional communities for ages. This study reveals the basic knowledge, biological potentials about these plant species to the scientific, global community and the usage of appropriate tools to scale up our requirements in a sustainable manner. ACKNOWLEDGEMENTS The authors are thankful to the VIT University for providing infrastructure, constant support and encouragement. REFERENCES Bhadula SK and P u r o h i t AN ( 1 9 9 4 ) . Adaptational strategies of plants at high altitudes and future prospects for the conservation of biodiversity. Adv. Plant Sci. Res. 1: 1-24. Bhatia P, Bhatia NP and Ashwath N (2002). In vitro propagation of Stackhousiatryonii Bailey (Stackhousiaceae): a rare and serpentine-endemic species of central Queensland, Australia. Biodivers Conserv 11: 1469-1477. Gireesha J and Raju NS (2013). Ethno botanical study of medicinal plants in BRTTR region of Western Ghats, Karnataka. Asian J. Plant Science Research, 3: 36-40. Harborne JB (1998). Phytochemical Methods-A Guide to Modern Techniques of Plant Analysis. Chapman and Hall, London. Iankova E, Cantos M, Linan J, Robeva P and Troncoso A (2001). In vitro propagation of Angelica pancicii Vauds., an endangered plant species in Bulgaria. Seed Sci Technol 29: 477-482. Kal a i v a n i T a n d Mat h ew L ( 2 0 0 9 ) . Phytochemistry and Free radical scavenging activities of Oroxylum indicum. Envi ronmen t & We an International Journal of Science & Technology, 4, 45-52. Kalaivani T, Rajasekaran C and Mathew L (2010a). In vitro free radical scavenging potential of Picrorhiza kurroa, Journal of Pharmacy Research, 3, 849-854. Kalaivani T and Mathew L (2010b). Free radical scavenging activity from leaves of Acacia nilotica (L) Wild. ex. Delile, an Indian medicinal tree. Food and Chemical Toxicology, 8, 298-305. Kalla AK and Joshi PC (2004). Tribal health and medicines. Pp. 355. Concept Pub. Co. New Delhi Kamboj VP (2000). Herbal medicine. Current Science 78 (1): 35-39. Kujala TS, Loponen JM, Klika KD and Pihlaja K (2000). Phenolic and betacyanins in red beetroot (Beta vulgaris) root: distribution and effects of cold storage on the content of total phenolics and 114 Proceedings of the International Conference on Climate Change, Biodiversity and Ecosystem Services for the Sustainable Development Goals (SDGs): Policy and Practice 27-29 June 2016, Cha-am, Phetchaburi, Thailand
Proceedings of International Conference on Climate Change, Biodiversity and Ecosystem Services for the Sustainable Development Goals : Policy and Practice 27-29 June 2016 at the Sirindhorn International Environmental Park, Cha-am, Phetchaburi, Thailand
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