Effects of LED Light Illumination on Germination, Growth and Anthocyanin Content of Dandelion (Taraxacum officinale) |
Ryu, Jai Hyunk
(Department of Bioresources Science, Sunchon National University)
Seo, Kyoung Sun (Jangheung-county Mushroom Research Institute) Choi, Gab Lim (Korea Institute of Ecology and Environment (KIEE)) Rha, Eui Shik (Department of Bioresources Science, Sunchon National University) Lee, Sheong Chun (Department of Bioresources Science, Sunchon National University) Choi, Seong Kyu (Department of Development in Oriental Medicine Resource, Sunchon National University) Kang, Si-Yong (Advanced Radiation Technology Institute, Korea Atomic Energy Research Institute) Bae, Chang-Hyu (Department of Bioresources Science, Sunchon National University) |
1 | Akashi, T., T. Furuno, T. Takahashi and S.I. Ayabe. 1994. Biosynthesis of triterpenoids in cultured cells, and regenerated and wild plant organs of Taraxacum officinale. Phytochemistry 36:303-308. DOI ScienceOn |
2 | Akoyunoglou, G. and H. Anni. 1984. Blue light on chloroplast development in higher plants. In Senger, H. (ed.), Blue Light in Biological Systems. Springer-Verlag, Berlin, West Germany. pp. 397-406. |
3 | Alokam, S., C.C. Chinnappa and D.M. Reid. 2002. Red/far-red light mediated stem elongation and anthocyanin accumulation in Stellaria longipes: Differential response of alpine and prairie ecotypes. Can. J. Bot. 80:72-81. DOI |
4 | Azad, M.O.K., I.J. Chun, J.H. Jeong, S.T. Kwon and J.M. Hwang. 2011. Response of the growth characteristics and phytochemical contents of pepper (Capsicum annuum L.) seedlings with supplemental LED light in glass house. Bio-Environment Cont. 20(3):182-188. |
5 | Cho, J.Y., D.M. Son, J.M. Kim, B.S Seo, S.Y. Yang, B.W. Kim and B.G. Heo. 2011. Effects of various LEDs on the seed germination, growth and physiological activities of rape (Brassica napus) sprout vegetable. Plant Res. 21(4): 304-309 (in Korean). 과학기술학회마을 |
6 | Chory, J., R.K. Cook, T. Elich, C. Fankhauser, J. Li, P. Nagpal, M. Neff, A. Pepper, D. Poole, J. Reed and V. Vitart. 1996. From seed germination to flowering, light controls plant development via the pigment phytochrome. Proc. Natl. Acad. Sci. 93:12066-12071. DOI ScienceOn |
7 | Coombe, B.R. 1973. The hormone content of ripening berries and the effects of growth substance treatments. Plant Physiol. 51:629-634. DOI |
8 | Doi, M., A.T.E. Shigenaka, T. Kinoshita and K. Shimazaki. 2004. A transgene encoding a blue-light receptor, phot1, restores blue-light responses in the Arabidopsis phot1 phot2 double mutant. J. Exp. Bot. 55:517-523. DOI |
9 | Giliberto, L., G. Perrotta, P. Pallara, J.L. Weller, P.D. Fraser, P.M. Bramley, A. Fiore, M. Tavazza and G. Giuliano. 2005. Manipulation of the blue light photoreceptor cryptochrome 2 in tomato affects vegetative development, flowering time, and fruit antioxidant content. Plant Physiol. 137: 199-208. DOI |
10 | Giusti, M.M. and R.E. Wrolstad. 2005. Characterization and measurement of anthocyanins by UV-visible spectroscopy. In Wrolstad, R.E., T.E. Acree, E.A. Decker, M.H. Penner, D.S. Reid, S.J. Schwartz, C.F. Shoemaker, D. Smith and P. Sporns (eds.), Handbook of Food Analytical Chemistry: pigments, colorants, flavors, texture, and bioactive food components. John Wiley & Sons, Hoboken, N.J., USA. pp. 19-31. |
11 | Jeon, S.H., D. Son, Y.S. Ryu, S.H. Kim, J.I. Chung, M.C. Kim and S.I. Shim. 2010. Effect of presowing seed treatments on germination and seedling emergence in Taraxacum platycarpum. Medicinal Crop Sci. 18(1):9-14 (in Korean). 과학기술학회마을 |
12 | Korea Food and Drug Administration. 2011. The Korea Herbal Pharmacopoeia. Taraxaci Herba. Korea Food and Drug Administration Announcement no. 2011-26. p. 376. |
13 | Keppler, K. and H.U. Humpf. 2005. Metabolism of anthocyanins and their phenolic degradation products by the intestinal microflora. Bioorganic & Medicinal Chem. 13: 5195-5205. DOI |
14 | Kim, Y.H. 1999. Stabilities of anthocyanin pigments obtained from crab apple (Malus prunifolia Wild. Borkh. "Red Fruit") by ethanol extraction. Food Nutr. 12(1): 85-90 (in Korean). |
15 | Kopsell, D.A. and D.E. Kopsell. 2008. Genetic and environmental factors affecting plant lutein/zeaxanthin. Agro. Food Ind. Hi-Tech. 19:44-46. |
16 | Lee, J.G., S.S. Oh, S.H. Cha, Y.A. Jang, S.Y. Kim, Y.C. Um and S.R. Cheong. 2010. Effects of red/blue light ratio and short-term light quality conversion on growth and anthocyanin contents of baby leaf lettuce. Bio-Environment Cont. 19(4): 351-359 (in Korean). 과학기술학회마을 |
17 | Masson, J., N. Trembley and A. Gosselin. 1991. Nitrogen fertilization and HPS supplementary lighting influence vegetable transplant production. I. Transplant growth. J. Amer. Soc. Hort. Sci. 116:594-598. |
18 | Meng, X.C., T. Xing and X.J. Wang. 2004. The role of light in the regulation of anthocyanin accumulation in Gerbera hybrida. J. Plant Growth Regul. 44:243- 250. DOI |
19 | Ohashi-Kaneko, K., M. Takase, N. Kon, K. Fujiwara and K. Kurata. 2007. Effect of light quality on growth and vegetable quality in leaf lettuce, spinach and komat suna. Environ. Control Biol. 45:189-198. DOI |
20 | Ribereau-Gayon, P. and G. Ribereau-Gayon. 1958. Influence of climateric factors on the formation and evolution of anthocyanins in fruits of grapes. Bull. Physiol. Veg. 4(1): 51-52. |
21 | Senger, H. 1982. The effect of blue light on plants and microorganisms. Photochemistry and Photobiol. 35:911-920. DOI |
22 | Ryu, J.H. 2012. Growth and development characteristics and genetic diversity analysis of genus Taraxacum accessions collected in Korea. Sunchon National University. Ph.D. Thesis. pp. 57-61. |
23 | Ryu, J.H., K.S. Seo, Y.I. Kuk, J.H. Moon, S.K. Choi, E.S. Rha, S.C. Lee and C.H. Bae. 2012. Effects of LED (Light-Emitting Diode) treatment on antioxidant activities and functional components in Taraxacum officinale. J. Medicinal Crop Sci. 165-170. 과학기술학회마을 DOI ScienceOn |
24 | Saebo, A., T. Krekling and M. Appelgren. 1995. Light quality affects photosynthesis and leaf anatomy of birch plantlets in vitro. Plant Cell Tissue Organ Cult. 41:177-185. DOI ScienceOn |
25 | Smith, H. 2000. Phytochromes and light signal perception by plants - An emerging synthesis. Nature 407:585-591. DOI |
26 | Taiz, L. and E. Zeiger. 2002. Plant Physiology. Third edition. Sinauer Associates, Sunderland MA., USA. 18:375-421. |
27 | Tanaka, M., T. Takamura, H. Weatanabe, M. Endo, T. Yanagi and K. Okamoto. 1998. In vitro growth of cymbidium plantlets cultured under superbright red and blue light-emitting diodes (LEDs). Hot. Sci. & Biotech. 73:39-44. |
28 | Zeiger, E. 1984. Blue light and stomatal function. In Senger, H. (ed.), Blue Light in Biological Systems. Springer-Verlag, Berlin, West Germany. pp. 484-494. |
29 | Zhou, Y. and B.R. Singh. 2002. Red light stimulates flowering and anthocyanin biosynthesis in American cranberry. Plant Growth Regul. 38:165-171. DOI |