Acknowledgement
본 결과물은 농림축산식품부 및 과학기술정보통신부, 농촌진흥청의 재원으로 농림식품기술기획평가원과 재단법인 스마트팜연구개발사업단의 스마트팜다부처패키지혁신기술개발사업의 지원을 받아 연구되었음(421041-03).
References
- Bae H.J. 2018, Sweet pepper fruit growth analysis according to fruit set season. MS Thesis. Chonnam University, Gwangju, Korea. (in Korean)
- Barrero-Gil J., R. Huertas, J.L. Rambla, A. Granell, and J. Salinas 2016, Tomato plants increase their tolerance to low temperature in a chilling acclimation process entailing comprehensive transcriptional and metabolic adjustments. Plant Cell Environ 39:2303-2318. doi:10.1111/pce.12799
- Cho I.H., W.M. Lee, K.B. Kwan, Y.H. Woo, and K.H. Lee 2009, Stable production technique of paprika (Capsicum annuum L.) by hydrogen peroxide treatment at summer. J Bio-Env Con 18:297-301. (in Korean)
- Choi K.Y., J.Y. Ko, H.J. Yoo, E.Y. Choi, H.C. Rhee, and Y.B. Lee 2014, Effect of cooling timing in the root zone on substrate temperature and physiological response of sweet pepper in summer cultivation. Hortic Sci Technol 32:53-59. (in Korean) doi:10.7235/hort.2014.13123
- Dalton F.N., A. Maggio, and G. Piccinni 1997, Effect of root temperature on plant response functions for tomato: comparison of static and dynamic salinity stress indices. Plant Soil 192:307-319. doi:10.1023/a:1004263505595
- De Koning A.N.M. 1990, Long-term temperature integration of tomato. Growth and development under alternating temperature regimes. Sci Hortic 45:117-127. doi:10.1016/0304-4238(90)90074-O
- Huh M-R., Y-S. Kim, Y-G. Seo, Y-G. Shon, and J-C. Park 2001, Effect of root zone temperature on the growth, mineral contents, and activities of antioxidative enzymes of tomato plug seedlings. Hortic Environ Biotechnol 42:147-150. (in Korean)
- Jeong H-K., J-H. Sung, and H-J. Lee 2020, Analysis of social demand for countermeasures in response to extreme weather events in Korean agricultural sector. J Clim Chang Res 11:235-246. (in Korean) doi:10.15531/ksccr.2020.11.4.235
- Ji S-T., J-G. Jeong, C-H. Lim, and C-H. Rhew 2019, A case study of innovation in the agricultural sector of Chinese IT companies: Focusing on Jing-dong (京東). Chin Stud 78: 291-318. (in Korean)
- Kawasaki Y., and Y. Yoneda 2019, Local temperature control in greenhouse vegetable production. Hortic J 88:305-314. doi:10.2503/hortj.UTD-R004
- Kawasaki Y., S. Matsuo, Y. Kanayama, and K. Kanahama 2014, Effect of root-zone heating on root growth and activity, nutrient uptake, and fruit yield of tomato at low air temperatures. J Jpn Soc Hortic Sci 83:295-301. doi:10.2503/jjshs1.MI-001
- Kim D.H., J.H. Yang, H.J. Kim, J.H. Rhee, J.Y. Lee, and S.H. Lim 2020, Recent advances in genetic regulation of chlorophyll metabolism in plants. Korean J Breed Sci 52:281-297. (in Korean) doi:10.9787/KJBS.2020.52.4.281
- Kim S., G. Bok, and J. Park 2018, Analysis of antioxidant content and growth of Agastache rugosa as affected by LED light qualities. J Bio-Env Con 3:260-268. (in Korean) doi: 10.12791/KSBEC.2018.27.3.260
- Kim S-E., S-Y. Sim, S-D. Lee, and Y-S. Kim 2010, Appropriate root-zone temperature control in perlite bag culture of tomato during winter season. Hortic Sci Technol 28:783-789. (in Korean)
- KREI 2022, Agricultural outlook 2022 Korea. Korea Rural Economic Institute, Naju, Korea, pp 539-551.
- Kwack Y., D.S. Kim, and C. Chun 2014, Root-zone cooling affects growth and development of paprika transplants grown in rockwool cubes. Hortic Environ Biotechnol 55:14-18. doi:10.1007/s13580-014-0117-3
- Lee J.B., S.C. Koh, B.Y. Moon, I.H. Park, H.B. Park, and H.S. Chun 2016, Plant physiology (Korean edition). Lifescience, Seoul, Korea, pp 126. (in Korean)
- Lee J.H., J.K. Kwon, O.K. Kwon, Y.H. Choi, and D.K. Park 2002, Cooling efficiency and growth of tomato as affected by root zone cooling methods in summer season. J Bio-Env Con 11:81-87. (in Korean)
- Lee J.H., Y.B. Lee, J.K. Kwon, N.J. Kang, H.J. Kim, Y.H. Choi, J.M. Park, and H.C. Rhee 2006, Effect of greenhouse cooling and transplant quality using geothermal heat pump system. J Bio-Env Con 15:211-216. (in Korean)
- Lee S.H., I.H. Heo, K.M. Lee, S.Y. Kim, Y.S. Lee, and W.T. Kwon 2008, Impacts of climate change on phenology and growth of crops: In the case of Naju. J Korean Geogr Soc 43:20-35. (in Korean)
- Li Y., X. Wen, L. Li, and M. Song 2015, The effect of root-zone temperature on temperature difference between leaf and air in tomato plants. Acta Hortic 1107:251-256. doi:10.17660/ActaHortic.2015.1107.34
- Mizuno S., Y. Muramatsu, A. Tateishi, K. Watanabe, F. Shinmachi, M. Koshioka, and S. Kubota 2022, Effects of root-zone cooling with short-day treatment in pot-grown strawberry (Fragaria ×ananassa Duch.) nurseries on flowering and fruit production. Hortic J 91:1-7. doi:10.2503/hortj.UTD-290
- NIMS 2020, Korean climate change prospect report 2020. National Institute of Meteorological Sciences, Korea, pp 14-15.
- Noh M.Y. 1997, Management of root-zone temperature in substrate culture of tomato. Kor Res Soc Protected Hort 10:97-105.
- Park G.E., E.J. Kim, J.S. Kim, B. Lee, and H. Na 2021, Effect of root zone temperature on germination and growth of paprika seedlings. J Kor Soc Int Agric 33:376-380. doi:10.12719/ksia.2021.33.4.376
- Park K-W., Y-B. Lee, N-H. Choi, and J-C. Jeong 1990, Effects of culture media and nutrient solutions on the yield and quality of cucumber (Cucumis sativus L.) and tomato (Lyocpersicon esculentum Mill.). Korean J Environ Agric 9:143-151. (in Korean)
- Park S.H., J.P. Moon, J.K. Kim, and S.H. Kim 2020, Development of fog cooling control system and cooling effect in greenhouse. Protected Hort Plant Fac 29:265-276. (in Korean) doi:10.12791/ksbec.2020.29.3.265
- Pascual C.S., I.C. Agulto, A.N. Espino, and V.U. Malamug 2019, Effect of ground heat exchanger for root-zone cooling on the growth and yield of aeroponically-grown strawberry plant under tropical greenhouse condition. IOP Conference Series: Earth and Environmental Science. doi:301:10.1088/1755-1315/301/1/012006
- Peet M.M., D.H. Willits, and R. Gardner 1997, Response of ovule development and post-pollen production processes in male-sterile tomatoes to chronic, sub-acute high temperature stress. J Exp Bot 48:101-111. doi:10.1093/jxb/48.1.101
- RDA 2020, Tomato. Rural Development Administration, Jeonju, Korea, p 68.
- Seo S-M., J-C. Park, and E-K. Rhee 2011, An analysis of thermal loads depending on korea building insulation standard and the optimum insulation standard. J Korean Sol Energy Soc 31:146-155. (in Korean) doi:10.7836/kses.2011.31.5.146
- Stanciu C., D. Stanciu, and A. Dobrovicescu 2016, Effect of greenhouse orientation with respect to e-w axis on its required heating and cooling loads. Energy Procedia 85:498-504. doi:10.1016/j.egypro.2015.12.234
- Suh W-M., Y-H. Bae, H-J. Heo, C-S. Kwak, S-G. Lee, J-W. Lee, and Y-C. Yoon 2009, Analyses of heating and cooling load in greenhouse of protected horticulture complex in Taean. J Korean Soc Agric Eng 51:45-52. (in Korean) doi:10.5389/ksae.2009.51.6.045
- Tindall J.A., H.A. Mills, and D.E. Radcliffe 1990, The effect of root zone temperature on nutrient uptake of tomato. J Plant Nutr 13:939-956. doi:10.1080/01904169009364127
- Van de Dijk S.J., and J.A. Maris 1985, Differences between tomato genotypes in net photosynthesis and dark respiration under low light intensity and low night temperatures. Euphytica 34:709-716. doi:10.1007/BF00035408
- Venema J.H., F. Posthumus, and P.R. Van Hasselt 1999a, Impact of suboptimal temperature on growth, photosynthesis, leaf pigments and carbohydrates of domestic and high-altitude wild Lycopersicon species. J Plant Physiol 155:711-718. doi:10.1016/S0176-1617(99)80087-X
- Venema J.H., F. Posthumus, M. De Vries, and P.R. Van Hasselt 1999b, Differential response of domestic and wild Lycopersicon species to chilling under low light: Growth, carbohydrate content, photosynthesis and the xanthophyll cycle. Physiol Plant 105:81-88. doi:10.1034/j.1399-3054.1999.105113.
- Wahid A., S. Gelani, M. Ashraf, and M.R. Foolad 2007, Heat tolerance in plants: An overview. Environ Exp Bot 61:199-223. doi:10.1016/j.envexpbot.2007.05.011
- Woo S-Y., S.H. Lee, and D-S. Lee 2004, Air pollution effects on the photosynthesis and chlorophyll contents of street trees in Seoul. Korean J Agric For Meteorol 6:24-29. (in Korean)