Lee, Jong-Nam
(Highland Agriculture Research Center, National Institute of Crop Science, Rural Development Administration)
Kim, Hye-Jin (Highland Agriculture Research Center, National Institute of Crop Science, Rural Development Administration) Kim, Ki-Deog (Highland Agriculture Research Center, National Institute of Crop Science, Rural Development Administration) Im, Ju-Sung (Highland Agriculture Research Center, National Institute of Crop Science, Rural Development Administration) Lim, Hak-Tae (Department of Bio-Health Technology, Kangwon National University) Yeoung, Young-Rok (Department of Plant Science, Gangneung-Wonju National University) |
1 | Skirvin, R.M. and S. Sriskandarajah. 1993. The use of fogging and phototron units to acclimatize in vitro-derived apple shoots. HortTechnology 3:208-210. |
2 | Slavtcheva, T. and V. Dimitrova. 1997. Gas exchange with in vitro cultured vine plants during their acclimatization. Riv. Vitic. Enol. 2:3-9. |
3 | Sutter, E. and R.W. Langhans. 1982. Formation of epicuticular wax and its effect on water loss in cabbage plants regenerated from shoot-tip culture. Can. J. Bot. 60:2896-2902. DOI |
4 | Thomas, P. 1998. Humid incubation period and plantlet age influence acclimatization and establishment of micropropagated grapes. In Vitro Cell. Dev. Biol. Plant. 34:52-56. DOI ScienceOn |
5 | Wetzestein, H.Y. and H.E. Sommer. 1982. Leaf anatomy of tissue -cultured Liquidambar styraciflua (Hammelidaceae) during acclimatization. Amer. J. Bot. 69:1579-1586. DOI ScienceOn |
6 | Zhu, L.N., S.P. Wang, T.Y. Yang, C.X. Zhang, and W.P. Xu. 2006. Vine growth and nitrogen metabolism of 'Fujiminori' grapevine in response to root restriction. Sci. Hort. 107:143-149. DOI |
7 | Carmi, A. 1995. Growth, water transport and transpiration in root -restricted plants of bean, and their relation to abscisic acid accumulation. Plant Sci. 107:69-76. DOI |
8 | Grout, B.W.W. and M.J. Aston. 1977. Transplanting cauliflower plants regenerated from meristem culture. I. Water loss and water transfer related to changes in leaf wax to xylem regeneration. Hort. Res. 17:1-7. |
9 | Hess, L. and H. De Kroon. 2007. Effects of rooting volume and nutrient availability as an alternative explanation for root self/ non-self discrimination. J. Ecol. 95:241-251. DOI |
10 | Kim, H.J., J.N. Lee, K.D. Kim, J.S. Im, H.T. Lim, and Y.R. Yeoung. 2011. Suitable hormone-free medium for in vitro mass propagation via bioreactor culture of Ever-bearing strawberry. J. Plant Biotechnol. 38:221-227. DOI |
11 | Lee, J.N., H.Y. Kim, K.D. Kim, Y.S. Kwon, H.T. Lim, and Y.R. Yeoung. 2010a. In vitro mass propagation and economic effects of bioreactor culture in Ever-bearing strawberry 'Goha'. Kor. J. Hort. Sci. Technol. 28:845-849. |
12 | Ronchi, C.P., F.M. DaMatta, K.D. Batista, G. Moraes, M.E. Loureiro, and C. Ducatti. 2006. Growth and photosynthetic down-regulation in Coffee arabica in response to restricted root volume. Functional Plant Biol. 33:1013-1023. DOI |
13 | Lee, J.N., H.Y. Kim, K.D. Kim, Y.S. Kwon, J.S. Im, Y.R. Yeoung, and H.T. Lim. 2010b. Appropriate in vitro culture conditions of growing medium for new ever-bearing strawberry 'Goha'. Kor. J. Hort. Sci. Technol. 28:1051-1056. |
14 | Ray, J.D. and T.R. Sinclair. 1998. The effect of pot size on growth and transpiration of maize and soybean during water deficit stress. J. Exp. Bot. 49:1381-1386. DOI |
15 | Rita, I. and E.I.S. Floh. 1995. Tissue culture and micropropagation of Cuphea ericoides, a potential source of medium-chain fatty acids. Plant Cell, Tiss. Org. Cult. 40:187-195. DOI ScienceOn |
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