References
- Azad, 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.) seedling with supplemental LED light in glass house. J. Bio-Environ. Con. 20:182-188.
- Britz, S.J. and J.C. Sager. 1990. Photomorphogenesis and photoassimilation in soybean and sorghum grown under broad spectrum or blue-deficient light sources. Plant Physiol. 94:448-454. https://doi.org/10.1104/pp.94.2.448
- Carvalho, R.F., M. Takaki, and R.A. Azevedo. 2011. Plant pigments: The many faces of light perception. Acta Physiol. Plant 33:241-248. https://doi.org/10.1007/s11738-010-0533-7
- Choi, Y.H., C.K. Ahn, J.S. Kang, B.G. Son, I.S. Choi, Y.C. Kim, Y.G. Lee, K.K. Kim, and K.W. Son. 2003. Growth, photomorphogenesis, and photosynthesis of perilla grown under red, blue light emitting diodes and light intensities. J. Kor. Soc. Hort. Sci. 44:281-286 (in Korean).
- Heo, J.W., C.W. Lee, D. Chakrabarty, and K.Y. Paek. 2002. Growth responses of marigold and salvia bedding plants as affected by monochromic or mixture radiation provided by a Light-Emitting Diode(LED). Plant Growth Regul. 38:225-230. https://doi.org/10.1023/A:1021523832488
- Hirai, T., W. Amaki, and H. Watanabe. 2006. Action of blue or red monochromatic light on stem internodal growth depends on plant species. Acta Hort. 711:345-350.
- Hoenecke, M.E., R.J. Bula, and T.W. Tibbitts. 1992. Importance of blue photon levels for lettuce seedlings grown under red-light-emitting diodes. HortScience 27:427-430.
- Hogewoning, S.W., G. Trouwborst, G.J. Engbers, J. Harbinson, W. van Ieperen, J. Ruijsch, and O. van Kooten. 2007. Plants physiological acclimation to irradiation by light-emitting diodes(LEDs). Acta Hort. 761:183-191.
- Hogewoning, S.W., G. Trouwborst, H. Maljaars, H. Poorter, W. van Ieperen, and J. Harbinson. 2010. Blue light doseresponses of leaf photosynthesis, morphology, and chemical composition of Cucumis sativus grown under different combinations of red and blue light. J. Expt. Bot. 61:3107-3117. https://doi.org/10.1093/jxb/erq132
- Jang, Y.A., B.H. Mun, T.C. Seo, J.G. Lee, S.S. Oh, and C.H. Chun. 2013. Effects of light quality and intensity on the carbon dioxide exchange rate, growth, and morphogenesis of grafted pepper transplants during healing and acclimatization. Kor. J. Hort. Sci. Technol. 31:14-23.
- Jang, Y.A., H.J. Lee, C.S. Choi, Y.C. Um, and S.G. Lee. 2014. Growth characteristics of cucumber scion and pumpkin rootstock under different levels of light intensity and plug cell size under an artificial lighting condition. J. Bio-Environ. Con. 23:383-390 (in Korean). https://doi.org/10.12791/KSBEC.2014.23.4.383
- Jeong, S.W., S.W. Hogewoning, and W. van Ieperen. 2014. Responses of supplemental blue light on flowering and stem extension growth of cut chrysanthemum. Scientia Horticulturae 165:69-74. https://doi.org/10.1016/j.scienta.2013.11.006
- Johkan, M., K. Shoji, F. Goto, S. Hashida, and T. Yoshihara. 2010. Blue light-emitting diode light irradiation of seedlings improves seedling quality and growth after transplanting in red leaf lettuce. HortScience 45:1809-1814.
- Kim, I.S., C. Zhang, H.M. Kang, and B. Mackay. 2008. Control of stretching of cucumber and tomato plug seedlings using supplemental light. Hort. Environ. Bio. 49:287-292.
- Kim, S.H., Y.H. Heo, H.C. Rhee, and J.S. Kang. 2013. Effect of LED light quality and supplemental time on the growth and flowering of impatiens. J. Bio-Environ. Con. 22:214-219 (in Korean). https://doi.org/10.12791/KSBEC.2013.22.3.214
- Kim, Y.H. and H.S. Park. 2001. Graft-taking characteristics of watermelon grafted seedlings as affected by blue, red and far-red light-emitting diodes. J. of the Korean Society for Agricultural Machinery 28:151-156 (in Korean).
- Kim, Y.H. and S.H. Lee. 2006. Variation of plant temperature at joining parts of grafted watermelon seedlings graft-taken under different light quality. Biosystems Engineering 31:449-453. https://doi.org/10.5307/JBE.2006.31.5.449
- Kozai, T., C. Kubota, C. Chun, K. Ohyama, and F. Afreen. 2000. Necessity and concept of the closed transplant production system, in: Kubota, C. and Chun, C. (eds.), Transplant production in the 21st century. Kluwer Academic publisher, Dordrecht, pp. 3-19.
- Lee, J.E., Y.S. Shin, H.W. Do, H.R. Sohn, J.D. Cheung, S.H. Oh, and M.K. Kim. 2016. Manual of hight quality seedling production for korean melon. Seongju Korean Melon Fruit Vegetable Research Institute Press. pp. 94 (in Korean).
- Lee, J.S., H.I. Lee, and Y.H. Kim. 2012. Seedling quality and early yield after transplanting of papricka nursed under light-emitting diodes, fluorescent lamps and natural light. J. Bio-Environ. Con. 21:220-227 (in Korean).
- Markovic, V., M. Djurovka, Z. Ilin, and B. Lazic. 2000. Effect of seedling quality on yield characters of plant and fruits of sweet pepper. Acta Hort. 533:113-120.
- Okamoto, K., T. Yanagi, S. Takita, M. Tanaka, T. Higuchi, Y. Ushida, and H. Watanabe. 1996. Development of plant growth apparatus using blue and red LED as artificial light source. Acta Hort. 440:111-116.
- Park, H.Y., K.C. Son, E.G. Gu, K.B. Lim, and B.H. Kim. 1996. Effect of different day and night temperature regimes on the growth of hot pepper plug seedlings. J. Kor. Soc. Hort. Sci. 37:617-621.
- Rural Development Administration(RDA), Republic of Korea. 2012. Research analysis criteria of agricultural science and technology. Fifth edition. RDA Press. pp. 508 (in Korean).
- Senger, H. 1982. The effect of blue light on plants and microorganisms. Photochemistry and Photobiology. 35:911-920. https://doi.org/10.1111/j.1751-1097.1982.tb02668.x
- Son, K.H., J.H. Park, D.I. Kim, and M.M. Oh. 2012. Leaf shape index, growth, and phytochemicals in two leaf lettuce cultivars grown under monochromatic light-emitting diodes. Kor. J. Hort. Sci. Technol. 30:664-672.
- Tibbitts, T.W., D.C. Morgan, and J.J. Warrington. 1983. Growth of lettuce, spinach, mustard and wheat plants under four combinations of high pressure sodium, metal halide and tungsten halogen lamps at equal PPFD. J. Amer. Soc. Hort. Sci. 108:622-630.
- Um, Y.C., Y.A. Jang, J.G. Lee, S.Y. Kim, S.R. Cheong, S.S. Oh, S.H. Cha, and S.C. Hong. 2009. Effects of selective light sources on seedling quality of tomato and cucumber in closed nursery system. J. Bio-Environ. Con. 18:370-376.
-
Wang, H., M. Gu, J.X. Cui, K. Shi, Y.H. Zhou, and J.Q. Yu. 2009. Effects of light quality on
$CO_2$ assimilation, chlorophyll-fluorescence quenching, expression of calvin cycle genes and carbohydrate accumulation in Cucumis sativus. J. Photochemistry and photobiology B:Biology 96:30-37. https://doi.org/10.1016/j.jphotobiol.2009.03.010 - Wongnok, A., C. Piluek, T. Techasipitak, and S. Tantivivat. 2008. Effects of light emitting diodes on micropropagation of Phalaenopsis orchids. Acta Hort. 788:149-156.
- Yeh, N. and J.P. Chung. 2009. High-brightness LEDs-energy efficient lighting sources and their potential in indoor plant cultivation. Renewable and Sustainable Energy Rev. 13:2175-2180. https://doi.org/10.1016/j.rser.2009.01.027
- Zhang, C.H., I.J. Chun, Y.C. Park, and I.S. Kim. 2003. Effect of timings and light intensities of supplemental red light on the growth characteristics of cucumber and tomato plug seedlings. J. Bio-Environ. Con. 12:173-179 (in Korean).