All Issue

2018 Vol.27, Issue 2 Preview Page
Effect of Supplementary or Heating Lamps on the Yield, Vase Life, and Leaf Color of Cut Rose

보광등과 난방등이 절화장미 수확량, 절화수명, 엽색에 미치는 영향

Kyeong Jin Jeong1
,
Jae Gill Yun1
,
Young Shin Chon1
,
Hyun Suk Shin1
,
Sang Woo Lee1*
정 경진1
,
윤 재길1
,
천 영신1
,
신 현석1
,
이 상우1*
1Department of Horticulture Science, Gyeongnam National University of Science and Technology, Jinju 660-758, Korea
1경남과학기술대학교 원예과학과
*Corresponding author: lswmelon@gntech.ac.kr
30 April 2018. pp. 158-165
PDF XML Citation
Abstract

The effects of different kinds of supplementary lighting or heating lamps on the yield, cut flower life, and leaf color of cut rose were compared and analyzed. For this purpose, light emitting diode lamp (LED), metal halide lamps (MH), and high-pressure sodium lamps (HPS) as the supplementary lamps, and carbon fiber infrared lamp (NCFI) were installed on hydroponic cultivation bed in a cut rose farm. The yield of cut flower rose and the number of marketable flowers were greatly increased in spring and autumn by HPS treatment, but not in winter. The length of flower stalk was longer than that of control in the spring but decreased in winter. It seemed likely that the shorter flower stalk in winter was due to the shortened period of vegetative growth compared to the control because flowering was promoted by supplementary lighting. Vase life was not different among treatments in the autumn when the lighting time was short, but in winter, it was prolonged to 3 more days by only HPS, compared with the control. Leaf color was significantly affected by light treatment in winter rather than autumn. Leaf color was darkened in all supplementary lamps (LED, MH, HPS) treatment, whereas NCFI was similar to the control in leaf color. In conclusion, HPS is considered to be a very good supplementary lamp because it increases the length of flower stalk and the yield and prolongs vase life in cut roses. Even though NCFI could function as a heating lamp radiating a lot of heat, it was considered that the role as a supplementary light is unsatisfactory because the number of marketable flowers decreases and the quality index of cut rose deteriorates by NCFI.

Keywords
days to flowering
high-pressure sodium lamp
light source
nano-carbon fiber infrared lamp
Rosa hybrida ‘Feel Lip’

종류가 다른 보광등과 난방등으로 보광을 해 주었을 때, 절화 장미의 수확량, 절화수명, 엽색에 미치는 영향 을 비교 분석하였다. 이를 위하여 보광등으로 LED등 (Light emitting diode lamp, LED), 메탈할라이드등 (Metal halide lamp, MH), 고압나트륨등 (High-pressure sodium lamp, HPS)과 난방등으로 나노탄소섬유 적외선 등 (Nano-carbon fiber infrared lamp, NCFI)을 절화장미 를 재배하고 있는 농가의 수경재배 베드 위에 설치하였 다. 절화 장미 수확량과 판매 가능한 절화수는 HPS 처 리에 의해 봄과 가을에 크게 증가하였다. 품질의 주요 기준이 되는 절화장은 봄철에는 전등처리에 의해 대조구 보다 길어졌으나, 겨울에는 오히려 감소하였다. 겨울에는 전등처리로 인해 개화가 촉진되어 영양생장기간이 상대 적으로 짧아졌기 때문으로 생각된다. 절화수명은 전등 처리시간이 짧은 가을에는 처리간 차이가 보이지 않았으 나, 겨울에는 HPS에서만 대조구에 비해 3일 정도 길어 졌다. 엽색은 가을철 보다는 겨울철에 전등처리의 영향 을 크게 받았으며, 모든 보광등(LED, MH, HPS)처리에 서 엽색이 짙어진 반면, 난방등으로 이용되고 있는 NCFI에서는 대조구와 비슷한 밝기였다. 결론적으로, HPS는 절화장과 절화수명을 길게하며, 수확량도 증가시 키므로 매우 좋은 보광등이라고 판단되었다. NCFI는 발 열양이 많기 때문에 난방등으로의 기능은 충분할지라도 판매 가능한 절화수가 감소하고 품질지수가 저하되기 때 문에 보광등으로서의 역할은 미약할 것으로 판단되었다..

키워드
개화소요일수
고압나트륨등
광원
나노탄 소섬유적외선등
Rosa hybrida
References
1
S. Avijit, V.K. Srivastava, J.K. Singh, R.K. Singgh and S. Kumar, Am. J. Plant Sci., Leaf colour chart vis-a-vis nitrogen management in different rice genotypes., 2(2); 223-236 (2011)
10.4236/ajps.2011.22024
2
T.J. Blom and F.J. Ingratta, Acta Hortic., The use of low intensity infrared for greenhouse heating in southern Ontario.; 205-216 (1980)
3
N. Bredmose, Sci. Hortic. (Amsterdam), Effects of year-round supplementary lighting on shoot development, flowering and quality of two glasshouse rose cultivars., 54(1); 69-85 (1993)
10.1016/0304-4238(93)90084-4
4
D.L. Bubenheim, R. Sargis and D. Wilson, HortScience, Spectral changes in metal halide and high-pressure sodium lamps equipped with electronic dimming., 30(5); 1086-1089 (1995)
5
M.K. Cha, J.H. Cho and Y.Y. Cho, Protected Horticulture and Plant Factory, Growth of leaf lettuce as affected by light quality of LED in closed-type plant factory system., 22(4); 291-297, [in Korean]. (2013)
10.12791/KSBEC.2013.22.4.291
6
Y.S. Chang, Kor. J. Hort. Sci. Technol., Technology development for reducing greenhouse heating load., 23; 20, [in Korean]. (2005)
7
Y.H. Choi, J.K. Kwon, G.L. Choi, N.J. Kang, G.H. Chun, M.W. Cho, T.C. Son, M.Y. Rho, S.C. Lee and J.H. Lee, Cont., Effect of supplemental lighting of sub-compensation intensities on growth of Rosa hybrida L. ?~Vital ?(tm). J. Bio-Env., 17; 132-137, [in Korean]. (2008)
8
J.W. Heo, Y.B. Lee, D.E. Kim, Y.S. Chang and C.H. Chun, Kor. J. Hort. Sci. Technol., Effects of supplementary LED lighting on growth and biochemical parameters in Dieffecnbachia amoena ?~Camella ?(tm) and Ficus elastica ?~Melany ?(tm)., 28(1); 51-58 (2010)
9
B.R. Jeong and Y.B. Kim, Principle and effect of a nano-carbon fiber infrared heating system.; 89-91, Agriculture and Horticulture. March. (2009)
10
S.B. Kang, S.D. Yun, W.S. Lee and K.Y. Yu, Kor. J. Hort. Sci. Technol., Comparison of sensory evaluation and instrumental analysis for the determining intensity of green color in leaf., 24(4); 515-519, [in Korean]. (2006)
11
O.H. Kwon, W.H. Kim, S.Y. Lee, H.J. Lee, K.S. Chon and W.S. Kim, Flower Res. J., Effect of supplemental lighting on temperature and humidity in greenhouse and the growth of cut roses., 22(3); 167-171, [in Korean]. (2014)
10.11623/frj.2014.22.3.12
12
J.W. Lee, J. of Biosystems Eng., Determination of leaf coor and health state of lettuce using machine vision., 32(4); 256-262 (2007)
10.5307/JBE.2007.32.4.256
13
H.J. Lee, J.S. Oh and Y.B. Lee, Kor. J. Hort. Sci. Technol., Effects of artificial light source and light intensity on the growth and quality of single- stemmed rose in winter., 21; 89, [Abstr]. (2003)
14
S.J. Lee and W.S. Kim, Flower Res. J., Shoot growth and flower quality of cut rose ‘Pink Bell’ as affected by supplemental lighting intensity., 23(3); 131-135 (2015)
10.11623/frj.2015.23.3.22
15
M.Y. Lim, C.H. Ko, S.B. Lee, H.K. Kim, Y.H. Bae, Y.B. Kim, Y.C. Yoon and B.R. Jeong, Flower Res. J., Analysis of heating effect of an infrared heating system in a small venlo-type glasshouse., 18(3); 186-192, [in Korean]. (2010)
16
M.Y. Lim, C.H. Ko, M.S. Son, G.J. Kim, B.S. Kim, Y.B. Kim and B.R. Jeong, J. Bio-Env. Cont, Effect of heating by nano-carbon fiber infrared lamps on growth and vase life of cut roses and heating cost., 18; 1-8, [in Korean]. (2009)
17
G.D. Massa, H.H. Kim, R.M. Wheeler and C.A. Mitchell, HortScience, Plant productivity in response to LED lighting., 43(7); 1951-1956 (2008)
18
T.S. Na, J.G. Kim, K.J. Choi, G.Y. Gi and Y.K. Yoo, J. Bio-Env. Cont., Effect of supplemental lighting on the growth and flowering fof Rosa hybrida 'Nobles' in winter., 16(2); 130-134, [in Korean]. (2007)
19
H.H. Nam, M.K. Kwon, J.J. Seong and J.H. Lim, Flower Res. J., Effect of supplemental lighting on the photoysnthesis and yield of Gebera hybrida ‘Sunny Lemon’., 20(4); 172-178, [in Korean]. (2012)
10.11623/frj.2012.20.4.172
20
G.L. Roberts, J.J. Tsujita and B. Dansereau, HortScience, Supplemental light quality affects budbreak, yield, and vase life of cut roses. 1993., 28(6); 621-622 (1993)
21
S. Varinderpal, S. Yadvinder, S. Bijay, H.S. Thind, A. Kumar and M. Vashistha, Field Crops Res., Calibrating the leaf colour chart for need based fertilizer nitrogen management in different maize (Zea mays L.) genotypes., 120(2); 276-282 (2011)
10.1016/j.fcr.2010.10.014
22
S. Varinderpal, S. Bijay, S. Yadvinder, H.S. Thind, S. Gobinder, K. Satwinderjit, A. Kumar and M. Vashistha, Field Crops Res., Establishment of threshold leaf colour greenness for need-based fertilizer nitrogen management in irrigated wheat (Triticum aestivum L.) using leaf colour chart., 130; 109-119 (2012)
10.1016/j.fcr.2012.02.005
23
X. Yang, J. Zhang, D. Guo, X. Xiong, L. Chang, Q. Niu and D. Huang, IFAC-PapersOn-Line, Measuring and evaluating anthocyanin in lettuce leaf based on color information.; 49-16 (2016)
Information
  • Publisher :The Korean Society for Bio-Environment Control
  • Publisher(Ko) :(사)한국생물환경조절학회
  • Journal Title :Protected Horticulture and Plant Factory
  • Journal Title(Ko) :시설원예ㆍ식물공장
  • Volume : 27
  • No :2
  • Pages :158-165
  • Received Date : 2018-02-12
  • Revised Date : 2018-02-27
  • Accepted Date : 2018-04-26
  • DOI :https://doi.org/10.12791/KSBEC.2018.27.2.158
Journal Informaiton Journal of Bio-Environment Control Journal of Bio-Environment Control
Online Submission
  • NRF
  • KOFST
  • crossref crossmark
  • crossref cited-by
  • crossref funder-registry
  • crosscheck
  • orcid
  • open access
  • ccl
Journal Informaiton Journal Informaiton - close