All Issue

2017 Vol.35, Issue 1 Preview Page
Growth and Yield of Tomato and Cucumber Plants in Polycarbonate or Glass Greenhouses
Joon Kook Kwon1*
,
Bekhzod Khoshimkhujaev1
,
Jae Han Lee1
,
In Ho Yu1
,
Kyoung Sub Park1
,
Hyo Gil Choi1,2
1Protected Horticulture Research Institute, National Institute of Horticultural and Herbal Science
Department of Horticultural Science, Kongju Nat'l University
*교신저자. *Corresponding Author. 
28 February 2017. pp. 79-87
PDF XML Citation
Abstract

We examined the effect of two greenhouse covering materials (glass or solid polycarbonate sheets) on the light environment and growth of tomato and cucumber plants. Spectral analysis showed that polycarbonate sheets entirely blocked radiation in both the UV - B (300 - 320 nm) and UV - A (320 - 400 nm) ranges, whereas glass transmitted UV - A and was only opaque to UV - B. The transmittance of photosynthetically active radiation (400 - 700 nm) and near infrared radiation (700 - 1100 nm) was higher in polycarbonate than glass. Air and soil temperatures were not significantly different between greenhouses covered with either material. The growth of cucumber plants was slightly affected by covering materials, whereas no significant changes in growth parameters were observed for tomato plants. The color parameters of tomato fruits were affected by the cover material, whereas cucumber fruits showed similar coloration in both glass and polycarbonate greenhouses.

Keywords
covering
fruit color
photosynthetically active radiation
transmittance
ultraviolet radiation

References
1
Giacomelli GA, Roberts WJ (1993) Greenhouse covering systems. HortTechnology 3:50-580 Jarquín-Enríquez L, Mercado-Silva EM, Maldonado JL, Lopez-Baltazar J (2013) Lycopene content and color index of tomatoes are affected by the greenhouse cover. Sci Hortic 155:43-48
2
Kittas C, Tchamitchian M, Katsoulas N, Karaiskou P, Papaioannou Ch (2006) Effect of two UV-absorbing greenhouse-covering films on growth and yield of an eggplant soilless crop. Sci Hortic 110:30-37
3
Krizek DT, Mirecki RM, Britz SJ (1997) Inhibitory effects of ambient levels of solar UV-A and UV-B radiation on growth of cucumber.Physiol Plant 100:886-893
4
Lamnatou Chr, Chemisana D (2013) Solar radiation manipulations and their role in greenhouse claddings: Fresnel lenses, NIR- and UVblocking materials. Renew Sustain Energy Rev 18:271-287
5
Laski JJ, Chipalkatti MH (1995) Discoloration of polycarbonate and other transparent polymers under combined thermal and ultraviolet conditions: a phenomenological study. In: ANTEC ’95 pp 3260-3264
6
Licor (1989) LI-1800 Portable spectroradiometer. Instruction Manual Pub No 8210-0030
7
López Camelo AM, Gómez PA (2004) Comparison of color indexes for tomato ripening. Hort Bras 22:537-537
8
Max JFJ, Schurr U, Tantau H-J, Mutwiwa UN, Hofmann T, Ulbrich A (2012) Greenhouse cover technology. In : J Janick, ed, Horticultural Reviews, Vol 40. John Wiley & Sons, Hoboken, NJ, USA, pp 259-396
9
Mendiburu F (2014) Agricolae: Statistical procedures for agricultural research. R package version 1.2-1. Available via http://CRAN.Rproject.org/package=agricolae Accessed 2 February 2016
10
Mitani-Sano M, Tezuka T (2013) Near-UV radiation acts as beneficial factor for physiological responses in cucumber plants. J Photochem Photobiol B: Biology 128:64-96
11
Ordidge M, García-Macías P, Battey NH, Gordon MH, Hadley P, John P, Lovegrove JA, Vysini E, Wagstaffe A (2010) Phenolic contents of lettuce, strawberry, raspberry, and blueberry crops cultivated under plastic films varying in ultraviolet transparency. Food Chem 119:1224-1227
12
Papadakis G, Briassoulis D, Scarascia Mugnozza G, Vox G, Feuilloley P, Stoffers JA (2000) Radiometric and thermal properties of, and testing methods for, greenhouse covering materials. J Agric Eng Res 77:7-38
13
Papaioannou Ch, Katsoulas N, Maletsika P, Siomos A, Kittas C (2012) Effect of a UV-absorbing greenhouse covering film on tomato yield and quality. Span J Agric Res 10: 959-966 RDA (2014) Tomato cultivation technology guide book. p 369
14
Saltveit ME (2005) Fruit ripening and fruit quality. In : E Heuvelink, ed, Tomatoes. CABI Publishing, Wallingford, Oxfordshire, UK, pp145-170
15
Salunkhe DK, Jadhav SJ, Yu MH (1974) Quality and nutritional composition of tomato fruit as influenced by certain biochemical and physiological changes. Qual Plant 24:85-113
16
Serini V (2001) Polycarbonates. In : ES Wilks, ed, Industrial Polymers Handbook. Wiley-VCH, Weinheim, Germany , pp 291-304
17
Shioshita R, Enoca J, Aiona DK, Wall M (2007) Coloration and growth of red lettuce grown under UV-radiation transmitting and nontransmitting covers. Acta Hort 761:221-225
Information
  • Publisher :KOREAN SOCIETY FOR HORTICULTURAL SCIENCE
  • Publisher(Ko) :한국원예학회
  • Journal Title :Horticultural Science and Technology
  • Journal Title(Ko) :원예과학기술지
  • Volume : 35
  • No :1
  • Pages :79-87
  • Received Date : 2016-03-31
  • Revised Date : 2016-09-20
  • Accepted Date : 2016-09-20
  • DOI :https://doi.org/10.12972/kjhst.20170009
Journal Informaiton Horticultural Science and Technology Horticultural Science and Technology
Online Submission
  • scopus
  • NRF
  • KOFST
  • crossref crossmark
  • crossref cited-by
  • crosscheck
  • orcid
  • open access
  • ccl
Journal Informaiton Journal Informaiton - close