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NTIS 바로가기생물환경조절학회지 = Journal of bio-environment control, v.30 no.1, 2021년, pp.85 - 93
복권정 (충남대학교 농업생명과학대학 원예학과 대학원) , 노승원 (충남대학교 농업생명과학대학 원예학과 대학원) , 김영국 (충남대학교 공과대학 컴퓨터융합학부) , 남창수 (충남대학교 농업생명과학대학 원예학과) , 진채린 (충남대학교 농업생명과학대학 원예학과) , 박종석 (충남대학교 농업생명과학대학 원예학과)
In hydroponic cultivation, in order to investigate the change of lettuce growth and physiologically active substances through CO2 tablet treatment in nutrient solution, we used a solid carbonated tablets commercially available in the Netherlands. The experiment consisted of 0.5-fold, 1-fold, and 2-f...
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Ainsworth E.A. and A. Rogers. 2007. The response of photosynthesis and stomatal conductance to rising [CO 2 ]: mechanisms and environmental interactions. Plant, Cell & Environment 30:258-270.
Akula R. and G.A. Ravishankar. 2011. Influence of abiotic stress signals on secondary metabolites in plants. Plant Signaling&Behavior 6:1720-1731.
Alexandrov G. and T. Oikawa. 2002. TsuBiMo: a biosphere model of the CO 2 -fertilization effect. Climate Research 19:265-270.
Becker C. and H.P. Klaring. 2016. CO 2 enrichment can produce high red leaf lettuce yield while increasing most flavonoid glycoside and some caffeic acid derivative concentrations. Food chemistry 199:736-745.
Bidart-Bouzat M.G. and A. Imeh-Nathaniel. 2008. Global change effects on plant chemical defenses against insect herbivores. Journal of Integrative Plant Biology 50:1339-1354.
Choi K.Y., E.Y. Yang, D.K. Park, Y.C. Kim, T.C. Seo, H.K. Yun, and H.D. Seo. 2005. Development of nutrient solution for hydroponics of Cruciferae leaf vegetables based on nutrient-water absorption rate and the cation ratio. J. BioEnviron. Con. 14:289-297 (in Korean).
Huang J.G., Y. Bergeron, B. Denneler, F. Berninger, and J. Tardif. 2007. Response of ferest trees to increased atmospheric CO 2 . Critical Reviews in Plant Sciences 26:265-283.
Jang S.W., E.H. Lee, and W.B. Kim. 2007. Analysis of research and development papers on lettuce in Korea. Korean Journal of Horticultural Science and Technology 25:295-303 (in Korean).
Kang H.M. and J.S. Kim. 2007. Effect of nutrient solution composition modification on the internal quality of some leaf vegetables in hydroponics. J. Bio-Environ. Con. 16:248-351 (in Korean).
Kang Y.I., S.Y. Lee, H.J. Kim, S.H. Yum, and H. Chun. 2007. Effects of CO 2 enrichment concentration and duration on growth of bell pepper (Capsicum annuum L.). Journal of Bio-Environment Control 16:352-357 (in Korean).
Kim J.Y., C.R. Lee, K.H. Cho, J.H. Lee, and K.T. Lee. 2009. Antioxidative and Lp-PLA 2 inhibitory activities in 29 fruits and vegetables. Korean Journal of Food Preservation 16:512-517 (in Korean).
Kimball B.A. 1983. Carbon dioxide and agricultural yield: An assemblage and analysis of 430 prior observations 1. Agronomy Journal 75:779-788.
Korea Statistical Information Service (KOSIS). Crop production survey. 2019. https://kosis.kr/statHtml/statHtml.do?orgId101&tblIdDT_1ET0028&conn_pathI2 (Last accessed 2020-12-13).
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. J. Bio-Environ. Con. 19:351-359 (in Korean).
Lee S.R. and M.M. Oh. 2020. Electric stimulation promotes growth, mineral uptake, and antioxidant accumulation in Kale (Brassica oleracea var. acephala). Bioelectrochemistry 138:107727.
Lichtenthaler H.K. 1996. Vegetation stress: an introduction to the stress concept in plants. Journal of Plant Physiology 148:4-14.
Nederhoff E.M., A.A. Rijsdijk, and R. de Graaf. 1992. Leaf conductance and rate of crop transpiration of greenhouse grown sweet pepper (Capsicum annuum L.) as affected by carbon dioxide. Scientia Horticulturae 52:283-301.
Nicolle C., A. Carnat, D. Fraisse, J.L. Lamaison, E. Rock, H. Michel, P. Amouroux, and C. Remesy. 2004. Characterisation and variation of antioxidant micronutrients in lettuce (Lactuca sativa folium). Journal of the Science of Food and Agriculture 84:2061-2069.
Oh M.M., E.E. Carey, and C.B. Rajashekar. 2009. Environmental stresses induce health-promoting phytochemicals in lettuce. Plant Physiology and Biochemistry 47:578-583.
Paek Y., S.W. Kang, J.K. Jang, and J.K. Kwon. 2020. Veriations of carbon dioxide concentration in a strawberry greenhouse using dry ice. Journal of the Korea Academia-Industrial cooperation Society 21:182-188 (in Korean).
Park J.S. and K. Kenji. 2009. Application of microbubbles to hydroponics solution promotes lettuce growth. HortTechnology 19:212-215.
Park M.H., M.Y. Shim, and Y.B. Lee. 1999. Effects of pH level and electrical conductivity on growth, nutrient absorption, transpiration and CO 2 assimilation of leaf lettuce in hydroponics. J. Bio-Envron. Con 8:115-124 (in Korean).
Park W.S., H.J. Kim, H.J. Chung, M.S. Chun, S.T. Kim, S.Y. Seo, S.H. Lim, Y.H. Jeong, J.W. Chun, S.K. An, and M.J. Ahn. 2015. Changes in carotenoid and anthocyanin contents, as well as antioxidant activity during storage of lettuce. Journal of the Korean Society of Food Science and Nutrition 44:1325-1332 (in Korean).
Patil R.H. 2012. Impacts of carbon dioxide gas leaks from geological storage sites on soil ecology and above-ground vegetation. chap. 2 in DIVERSITY OF ECOSYSTEMS, M Ali 27-50. InTech.
Perez-Lopez U., J. Miranda-Apodaca, A. Munoz-Rueda, and A. Mena-Petite. 2013. Lettuce production and antioxidant capacity are differentially modified by salt stress and light intensity under ambient and elevated CO 2 . Journal of plant physiology 170:1517-1525.
Proteggente A.R., A.S. Pannala, G. Paganga, L. Buren, E. Wagner, S. Wiseman, F. Put, C. Dacombe, and C.A. Rice-Evans. 2002. The antioxidant activity of regularly consumed fruit and vegetables reflects their phenolic and vitamin C composition. Free radical research 36:217-233.
Ryoo J.W. 2009. Effects of compost leachate on growth and yield of leaf lettuce in hydroponic culture. Journal of Animal Environmental Science 15:51-58 (in Korean).
Samuoliene G., R. Sirtautas, A. Brazaityte, A. Virsile, and P. Duchovskis. 2012. Supplementary red-LED lighting and the changes in phytochemical content of two baby leaf lettuce varieties during three seasons. Journal of Food, Agriculture & Environment 10:701-706.
Sgherri C., U. Perez-Lopez, F. Micaelli, J. Miranda-Apodaca, A. Mena-Petite, A. Munoz-Rueda, and M.F. Quartacci. 2017. Elevated CO 2 and salinity are responsible for phenolicsenrichment in two differently pigmented lettuces. Plant Physiology and Biochemistry 115:269-278.
Taylor G., R. Ceulemans, R. Ferris, S.D.L. Gardner, and B.Y. Shao. 2001. Increased leaf area expansion of hybrid poplar in elevated CO 2 . From controlled environments to open-top chambers and to FACE. Environmental Pollution 115:463-472.
Um Y.C., S.S. Oh, J.G. Lee, S.Y. Kim, and Y.A. Jang. 2010. The development of container-type plant factory and growth of leafy vegetables as affected by different light sources. J. Bio-Environ. Con. 19:333-342 (in Korean).
Wu Y., X. Ma, Y.E. Li, and Y.F. Wan. 2014. The impacts of introduced CO 2 flux on maize/alfalfa and soil. International Journal of Greenhouse Gas Control 23:86-97.
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