Acknowledgement
본 연구는 2022년 농촌진흥청 국립원예특작과학원 공동 연구사업(과제번호: PJ015014022022)의 지원에 의해 이루어진 것임.
References
- Cheong D.C., C.H. Choi, H.C. Lim, Y.J. Song, J.M. Kim, and J.J. Lee 2012, Cut flower productivity of new bred spray rose cultivars as affected by environmental control of cultivation facilities in Korea. Flower Res J 20:187-192. (in Korean) doi:10.11623/frj.2012.20.4.187
- Chon Y.S., S.H. Ha, K.J. Jeong, K.O. Choi, and J.G. Yun 2013, Effect of mist treatment on the growth and quality of cut rose 'Hanmaum' during Summer. Hortic Sci Technol 31:538-543. (in Korean) doi:10.7235/hort.2013.13049
- Dayan E., M. Fuchs, Z. Plaut, E. Presnov, A. Grava, E. Matan, A. Solphoy, U. Mugira, and N. Pines 2000, Cooling of roses in greenhouses. Acta Hortic 534:351-360. doi:10.17660/ActaHortic.2000.534.41
- Dayan E., Z. Plaut, E. Presnov, and A. Grava 2005, Long term production of rose flowers in the greenhouse under different cooling methods: I. Energy balance, flower yield and quality. Eur J Hort Sci 70:257-264.
- Devries D.P. 1976, Juvenility in hybrid tea-roses. Euphytica 25:321-328. https://doi.org/10.1007/BF00041563
- Foucher F., M. Chevalier, C. Corre, V. Soufflet-Freslon, F. Legeai, and L.H-S. Oyant 2008, New resources for studying the rose flowering process. Genome 51:827-837. doi:10.1139/G08-067
- Kim H.K., S.I. Oh, and A.K. Lee 2020, Quality of cut spray roses grown in a seasonal cultivation environment of a smart farm in Honam, Korea. Flower Res J 28:285-293. (in Korean) doi:10.11623/frj.2020.28.4.07
- Kim M.K., G.S. Kim, and S.W. Nam 2001, Efficient application of greenhouse cooling systems. Ministry for Food, Agriculture, Forestry and Fisheries, Gwacheon, Korea, pp 28-118. (in Korean)
- Korea Meterorological Administration (KMA) database 2022, KMA. https://data.kma.go.kr/cmmn/main.do. Accessed 7 August 2022
- Lee H.J., Y.B. Lee, and J.H.Bae 2004, Effects of root zone temperature on the growth and quality of single-stemmed rose in cutted rose production factory. J Bio-Env Con 13:266-270. (in
- Lee H.W., and Y.S. Kim 2011, Application of low pressure fogging system for commercial tomato greenhouse cooling. J Bio-Env Con 20:1-7. (in
- Lee J.H., J.W. Yoon, S.I. Oh, and A.K. Lee 2020, Relationship between cultivation environment and postharvest quality of cut rose 'Lovely Lydia'. Hortic Sci Technol 38:263-270. (in Korean) doi:10.7235/HORT.20200025
- Lee J.S., Y.H. Kim, B.Y. Ryu, and H.S. Noh 2000, Growth and flowering of flower crops as affected by temperature dropping methods used in the experimental plastic house for summer culture. J Korean Soc Hortic Sci 41:301-304. (in
- Ministry of Agriculture, Food and Rural Affairs (MARFA) 2021, Statistics for floricultural industry in 2020. MAFRA, Sejong, Korea. (in Korean)
- Mortensen L.M., and T. Fjeld 1998, Effects of air humidity, lighting period and lamp type on growth and vase life of roses. Sci Hortic 73:229-237. doi:10.1016/S0304-4238(98)00075-2
- Nam S.W., K.S. Kim, and G.A. Giacomelli 2005, Improvement of cooling efficiency in greenhouse fog system using the dehumidifier. J Bio-Env Con 14:29-37. (in
- 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
- Plaut Z., Dayan E., Grava A., Presnov E., Matan E., and F. Liu 2006, Long term production of rose flowers in the greenhouse under different cooling methods: II. Responses of the flower bud. Eur J Hortic Sci 71:7-14.
- Rural Development Administration (RDA) 2003, Manual for agricultural investigation. RDA, Suwon, Korea. (in Korean)
- Rural Development Administration (RDA) 2018, Rose. RDA, Jeonju, Korea. (in Korean)
- Rural Development Administration (RDA) 2019, Survey report on climate change in agriculture. RDA, Jeonju, Korea. (in Korean)
- Ryan M.G. 1991, Effects of climate change on plant respiration. Ecol Appl 1:157-167. https://doi.org/10.2307/1941808
- Seo J.H. 2014, Analysis on color change by seasonal in greenhouse cut rose. J Korean Soc Color Stud 25:126-131.
- Sethi V.P., and S.K. Sharma 2007, Survey of cooling technologies for worldwide agricultural greenhouse applications. Sol Energy 81:1447-1459. doi:10.1016/j.solener.2007.03.004
- Yeo K.H., S.H. Park, I.H. Yu, H.J. Lee, S.H. Wi, M.C. Cho, W.M. Lee, and Y.C. Huh 2021, Cultivation demonstration of paprika (Capsicum annuum L.) cultivars using the large single-span plastic greenhouse to overcome high temperature in South Korea. J Bio-Env Con 30:429-440. (in Korean) doi:10.12791/KSBEC.2021.30.4.429
- Yun J.W., D.S. Lee, and S.S. Kim 2020, Analysis on productivity and efficiency of greenhouse rose farming. J Kor Acad-Ind Coop Soc 21:532-542. (in Korean) doi:10.5762/KAIS.2020.21.11.532