Original Articles
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 anuum L.) seedlings with supplemental LED light in glass house. J Bio-Env Con 20:182-188.
Bae J.H., S.Y. Park, and M.M. Oh 2017, Supplemental irradiation with far-red light-emitting diodes improves growth and phenolic contents in Crepidiastrum denticulatum in a plant factory with artificial lighting. Hortic Environ Biotechnol 58:357-366. doi:10.1007/s13580-017-0331-x
10.1007/s13580-017-0331-xCha M.K., J.H. Cho, and Y.Y. Cho 2013, Growth of leaf as affected by light quality of LED in closed-type plant factory system. Protected Hort Plant Fac 22:291-297. (in Korean) doi:10.12791/KSBEC.2013.22.4.291
10.12791/KSBEC.2013.22.4.291Choi H.E., S.Y. Hwang, J.H. Yun, J. Yu, J.H. Hwang, E.W. Park, J.K. Koo, H.S. Hwang, and S.J. Hwang 2023, Growth and seedling quality of grafted cucumber seedlings by different cultivars and supplemental light sources of low radiation period and early yield of cucumber after transplanting. J Bio-Env Con 32:319-327. (in Korean) doi:10.12971/KSBEC.2023.32.4.319
10.12791/KSBEC.2023.32.4.319Choi Y.W. 2003, Effect of red, blue and far-red LEDs for night break on growth flowering, and photosynthetic rate in Perilla ocymoides. J Kor Soc Hort Sci 44:442-446. (in Korean)
Dung N.T.P., Huyen T.T.T., Jang D.C., Kim I.S., and Thach N.Q. 2020, Effects of supplemental green LEDs to red and blue light on the growth, yield and quality of hydroponic cultivated spinach (Spinacia oleracea L.) in plant factory. Protected Hort Plant Fac 29:171-180. doi:10.12791/KSBEC.2020.29.2.171
10.12791/KSBEC.2020.29.2.171Fan X.X., Z.G. Xu, X.Y. Liu, C.M. Tang, L.W. Wang, and X.L. Han 2013, Effects of light intensity on the growth and leaf development of young tomato plants grown under a combination of red and blue light. Sci Hortic 153:50-55. doi:10.1016/j.scienta.2013.01.017
10.1016/j.scienta.2013.01.017Hwang H.S. and C.H. Chun 2022, Application of white light emitting diodes to produce uniform scions and rootstocks for grafted fruit vegetable transplants J Bio-Env Con 31:14-21. (in Korean) doi:10.12971/KSBEC.2022.31.1.014
10.12791/KSBEC.2022.31.1.014Jankowska-Blaszczuk M. and M.I. Daws 2007, Impact of red : far red rations on germination of temperate forest herbs in relations to shade tolerance, seed mass and persistence in the soil. Functional Ecol 21:1055-1062. doi:10.1111/j.1365-2435.2007.01328.x
10.1111/j.1365-2435.2007.01328.xKang W.H., J.W. Kim, and J.E. Son 2019, Growth and photomorphogenesis of cucumber plants under artificial solar and high pressure sodium lamp with additional far-red light. Protected Hort Plant Fac 28:86-93. (in Korean) doi:10.12791/KSBEC.2019.28.1.86
10.12791/KSBEC.2019.28.1.86Kim H,G., Y.H. Choi, and Y.H. Kim 2019, Graft-taking and growth characteristics of grafted cucumber (Cucumis sativus L.) seedlings as affected by light quality and blink cycle of LED modules. Protected Hort Plant Fac 28:143-149. (in Korean) doi:10.12791/KSBEC.2019.28.2.143
10.12791/KSBEC.2019.28.2.143Kim H.R. and Y.H. You 2013, Effects of red, white, and far-red LED source on growth responses of Wasabia japonica seedlings in plant factory. Kor J Hort Sci 31:415-422. (in Korean) doi:10.7235/hort.2013.13011
10.7235/hort.2013.13011Kim S.E., M.H. Lee, B.J. Ahn, and Y.S. Kim 2013, Efficient light treatment for graft-take and early growth of grafted tomato seedlings. Protected Hort Plant Fac 22:322-327. (in Korean) doi:10.12791/KSBEC.2013.22.4.322
10.12791/KSBEC.2013.22.4.322Lee G.H. 2001, Development of light-treatment technology for producing tomato transplantsof high quality - Effects of end-of-day light treatment affecting on the quality of tomato transplants. J Bio-Env Con 10:55-60. (in Korean)
Lee H.K., M.H. Lee, G.S. Park, N.M. Lee, N.B. Jeon, S.D. Seo, P.H. Cho, Y.S. Kim, S.E. Kim, and S.K. Cho 2015, Effect of seedling type and early transplanting of summer grown seedling on the growth and yield of tomato. Korean J Organic Agri 23:59-66. doi:10.11625/KJOA.2015.23.1.59
10.11625/KJOA.2015.23.1.59Lee S.H., B. Ko, J.H. Bae, Y.G. Ku, and H.C. Kim 2022, Growth characteristics of paprika seedlings affected by different LED light qualities rasing seedlings using rockwool cube. J Bio-Env Con 31:60-66. (in Korean) doi:10.12791/KSBEC.2022.31.1.060
10.12791/KSBEC.2022.31.1.060Lim K.B., K.C. Son, and J.D. Chung 1997, Influence of DIF on growth and development of plug seedlings of Lycopersicon esculentum before and after transplanting. J Bio Fac Env 6:34-42. (in Korean)
Moon Y.H., U.J. Woo, H.S. Sim, T.Y. Lee, H.R. Shin, S.W. An, S.K. Kim, and J.S. Jo 2023, Establishment of proper irrigation method for scion and rootstock production of Solanaceous vegetables accoring to water use efficiency in a plnat factory with artificial lighgting. Hort Sci Tech 41:686-694. (in Korean) doi.10.7235/HORT.20230059
10.7235/HORT.20230059Oh W. and E.S. Runkle 2015, Flowering and morphological responses of petunia and pansy as influenced by lamp type and lighting period to provide long days. Korean J Hortic Sci Technol 34:207-219. (in Korean) doi:10.12972/kjhst.20160021
10.12972/kjhst.20160021Park H.Y., K.C. Son, E.G. Gu, K.B. Lim, and H.B. Kim 1996. Effect of different day and night temperature regimes on the growth of hot pepper plug seedlings. J Kor Hort Sci 37:617-621. (in Korean)
Park I.S., C.Y. Shim, and J.M. Choi 2017, Influence of post-planting fertilizer supplied through sub-irrigation in winter season cultivation of tomato on the seedling growth and changes in the chemical properties of root media. Protected Hort Plant Fac 26:35-42. (in Korean) doi:10.12791/KSBEC.2017.26.1.35
10.12791/KSBEC.2017.26.1.35Park J.E., Y.G. Park, B.B. Jeong, and S.J. Hwang 2013, Growth of lettuce in closed-type plant production system as affected by light intensity and photoperiod under influence of white LED light. Protected Hort Plant Fac 22:228-233. (in Korean) doi:10.12791/KSBEC.2013.22.3.228
10.12791/KSBEC.2013.22.3.228Park S.W., S.W. An, and Y. Kwack 2020, Changes in transpiration rates and growth of cucumber and tomato scions and rootstocks grown under different light intensity conditions in a closed transplant production system. Protected Hort Plant Fac 29:399-405. (in Korean) doi:10.12791/KSBEC.2020.29.4.399
10.12791/KSBEC.2020.29.4.399Park Y.J. and E.S. Runkle 2017, Far-red radiation promotes growth of seedlings by increasing leaf expansion and whole-plant net assimilation. Environ Exp Bot 136:41-49. doi: 10.1016/j.envexpbot.2016.12.013
10.1016/j.envexpbot.2016.12.013Runkle E.S. and R.D. Heins 2001, Specific functions of red, far-red, and blue light in flowering and stem extension of long-day plants. J Amer Soc Hort Sci 126:275-282. doi:10.21273/JASHS.126.3.275
10.21273/JASHS.126.3.275Seo T.C., S.W. An, H.W. Jang, C.W. Nam, H. Chun, Y.C. Kim, T.K. Kang, and S. H. Lee 2018, An approach to determine the good seedling quality of grafted tomatoes (Solanum Lycopersicum) growth in cylindrical paper pot through the relation analysis between DQI and short-term relative growth rate. Protected Hort Plant Fac 27:302-311. (in Korean) doi.10.12791/KSBEC.2018.27.4.302
10.12791/KSBEC.2018.27.4.302Song W.J., H.W. Goo, G.W. Lee, H.M. Kim, and K.S. Park 2024, Comparision with growth characteristics of Korean melon (Cucumis melo var. makuwa) grafted seedlings in a container type farm with LED light and a greenhouse under high temperature conditions. J Bio-Env Con 33:229-29. (in Korean) doi:10.12791/KSBEC.2024.33.1.022
10.12791/KSBEC.2024.33.1.022Statistics Korea 2023. 2022 Status of vegetable greenhouse and vegetable production. Available via https://www.mafra.go.kr/sn3hcv_v2023/skin/doc.html?fn=D51EEF3E-8F11-5CFA-3663-67C3DA5CABFE.pdf&rs=/sn3hcv_v2023/atchmnfl/bbs/202408/
Yongran J., T. Ouzounis, S. Courbier, E. Kaiser, P.T. Nguyen, H.J. Schouten, R.G.F. Visser, R. Pierik, L.F.M. Marcelis, and E. Heuvelink 2019, Far-red radiation increase dry mass partitioning to fruits but reduces Botrytis cinerea resistance in tomato. Environ Exp Bot 168:1-9. doi:10.1016/j.envexpbot.2019.103889
10.1016/j.envexpbot.2019.103889Yun H.K., T.C. Seo, J.W. Won, and E.Y. Yang 2007, Effect of triazole growth regulator treatment on the growth of plug seedling and yield of tomato. J Bio-Env Con 16:205-209. (in Korean)
Yun J.H., H.W. Jeong, S.Y. Hwang, J. Yu, H.S. Hwang, and S.J. Hwang 2023, Growth of cucumber and tomato seedlings by different light intensities and CO2 concentrations in closed-type plant production system. J Bio-Env Con 32:257-266. (in Korean) doi:10.12791/KSBEC.2023.32.4.257
10.12791/KSBEC.2023.32.4.257- Publisher :The Korean Society for Bio-Environment Control
- Publisher(Ko) :(사)한국생물환경조절학회
- Journal Title :Journal of Bio-Environment Control
- Journal Title(Ko) :생물환경조절학회지
- Volume : 33
- No :4
- Pages :445-452
- Received Date : 2024-08-20
- Revised Date : 2024-09-27
- Accepted Date : 2024-10-27
- DOI :https://doi.org/10.12791/KSBEC.2024.33.4.445