All Issue

2014 Vol.32, Issue 1 Preview Page
The Effect of Several Paper Bags on Fruit Skin Coloration of Red Skin European Pear ‘Kalle’

봉지종류가 적색과피 서양배 ‘Kalle’의 과피색 발현에 미치는 영향

Kim Yoon-Kyeong1*
,
Kang Sam-Seok1
,
Choi Jang-Jeon1
,
Park Kyoung-Sub2
,
Won Kyeong-Ho1
,
Lee Han-Chan1
,
Tae-Ho Han Tae-Ho 3
김 윤경1*
,
강 삼석1
,
최 장전1
,
박 경섭2
,
원 경호1
,
이 한찬1
,
한 태호3
1Pear Research Station, National Institute of Horticultural & Herbal Science, Rural Development Administration
2Protected Horticulture Research Station, National Institute of Horticultural & Herbal Science, Rural Development Administration
3Department of Horticulture, Chonnam National University
1국립원예특작과학원 배시험장
2국립원예특작과학원 시설원예시험장
3전남대학교 원예학과
*교신저자. *Corresponding Author. 
28 February 2014. pp. 10-17
PDF XML Citation
Abstract

This study was conducted to elucidate the relationship between light and coloring and to obtain basic results for promoting redness expression in ‘Kalle’ (Pyrus communis L.) pear skin. It was investigated in location of anthocyanin layer by microscopic observation and differences in skin color expression of ‘Kalle’ bagged with paper bag which has different light transmittance rate and inside temperature. However, there was no anthocyanin layer in the brown skin and golden yellow color, anthocyanin layer was distributed in epidermins or hyperdermis of red skin pear and apple. Dark red colored ‘Kalle’ had more anthocyanin content, 29.8 mg・100 g-1 FW than light red colored apple ‘Hongro’. Light transmittance rate of physical characteristics used paper bags was the highest in white paper bag, 42.2% and it also had more light quantity, 8.9 μmol than any other tested paper bags in specific wave length 650-655 nm. The maximum temperature of inner bag was higher about 3°C in yellow paper bag. The red coloration and anthocyanin contents in no bagged fruits were higher than in any other bagged fruit. However, red color expression among the bagged fruits was higher in white paper bag than in double layered black paper bag and yellow paper bag. Also, chromaticity value seemd to be a good index to explain variation of fruit skin color, because anthocyanin content and chromaticity value were higher. Based on these results, it is desirable to cultivate ‘Kalle’ without bag for stable redness expression but bagging is essential for decreasing damage by insect in Korea. Further examination to find suitable time of removing paperbag for redness expression and decreasing insect damage. In addition, it is required to develop paperbag whose transmittance rate is high in specific light wavelength or temperature of inner bags is low.

Keywords
anthocyanin
bagging
chromaticity value
light transmittance
Pyrus communis L.

본 연구는 적색과피 서양배 ‘Kalle’(Pyrus communis L.) 품종 과피의 해부학적 관찰을 통해, 안토시아닌의 분포위치를 확인하고, 투광량이 다른 봉지를 이용하여 성숙기 과실의 과피색 변화를 구명함으로써 봉지 물성에 따른 착색발현 양상을 밝혀, 보다 안정적인 적색배 생산을 위한 기초자료를 확보하고자 수행하였다. 적색과피 배와 사과에서는 안토시아닌 층이 표피나 아표피에서 관찰되었으나 황갈색이나 선황색 배에서는 안토시아닌 층이 확인되지 않았다. 암적색으로 전면이 착색된 ‘Kalle’ 의 과피 내 안토시아닌 함량은 29.8mg・100g-1FW으로 밝은 적색을 보인 사과 ‘홍로’보다 많은 경향을 보였다. 사용 봉지의 물리적 특성 중 투광률은 백색봉지에서 42.2%로 사용한 봉지 중 가장 높았고, 봉지 내로 투과되는 650-655nm 파장의 광량도 8.9μmol로 가장 많았다. 봉지 내부의 최고온도는 황색봉지에서 자연조건이나 다른 봉지에 비해 3°C 가량 높게 나타났다. 봉지를 씌운 과실의 과피색과 안토시아닌 함량을 조사한 결과, 봉지를 씌우지 않고 재배한 경우, 적색 발현이 가장 좋았고, 안토시아닌 함량도 가장 높았다. 봉지를 씌운 처리에서는 봉지를 씌우지 않은 처리에 비해 적색 발현이 유의하게 낮아졌는데 봉지 종류간에는 백색봉지가 가장 적색이 많았으며, 이중착색봉지와 황색봉지에서는 적색 발현이 매우 낮은 수준을 보였다. 특히, chromaticity value는 안토시아닌 함량이 높을수록 높은 값을 보여 안토시아닌 발현에 따른 과피색 변화를 비교적 잘 표현할 수 있는 것으로 판단되었다. 이상의 결과로는 ‘Kalle’의 안정적인 적색 발현을 위해서는 봉지를 씌우지 않는 것이 가장 이상적이나 한국에서는 해충방제를 위해 봉지재배를 하고 있으므로 적색과피 배 재배를 위해서는 과실의 피해는 줄이면서 적색이 균일하게 발현될 수 있도록 봉지제거 시기의 구명 또는 안토시아닌 합성에 유효한 특정 파장의 광 투과율이 높거나 온도가 과도하게 상승하지 않는 등 과피착색에 유리한 전용봉지의 개발을 위한 물리성 개선도 고려해볼 수 있을 것으로 생각된다.

키워드
안토시아닌
봉지재배
색도값
투광률
Pyrus communis L.
References
1
Arakawa, O. 1988. Charasteristics of color development in some apple cultivars: Changes in anthocyanin synthesis during maturation as affected by brgging and light quality. J. Jpn. Soc. Hort. Sci. 57:373-380.
2
Bae, R.N., K.W. Kim, T.C. Kim, and S.K. Lee. 2006. Anatomical observation of anthocyanin rich cells in apple skins. HortScience 41:733-736.
3
Brewer, L.R., and J.W. Palmer. 2011. Global pear breeding pro-grammes: Goals, trends and progress for new cultivars and new rootstocks. Acta Hort. 909:105-119.
4
Cepoiu, N., L. Ungureanu, and T.A. Tudor. 1991. Studies on pomological and morphological characteristics of the apple varieties Wijick anf Mclntosh. Scientia Hort. 34:39-47.
5
Dayton, D.F. 1966. The pattern and inheritance of anthocyanins distribution in red pears. Proc. Soc. Hort. Sci. 89:110-116.
6
Dussi, M.C., D. Sugar, and R.E. Wrolstad. 1995. Characterizing and quantifying anthocynins in red pears. J. Amer. Soc. Hort. Sci. 120:785-789.
7
Faragher, J.D. 1984. Anthocyanin accumulation in apple skin during ripening: Regulation by ethylene and phenyalanine ammonialyase. Scientia Hort. 22:89-96.
8
Ferreyra, R.M., S.Z. Vina, A. Mugridge, and A.R. Chaves. 2007. Growth and ripening season effects on antioxidant capacity of strawberry cultivar Selva. Scientia Hort. 112:27-32.
9
Francis, F.J. 1970. Anthocyanins in pears. HortScience 5:1-42.
10
Hong, K.H., J.K. Kim, H.I. Jang, J.H. Choi, J.H. Han and K.Y. Kim. 1999. Effect of paper sources for bagging on the appearance of fruit skin in oriental pears (Pyrus pyrifolia Nakai cvs. Gamcheonbae and Yeongsanbae). J. Kor. Hort. Sci. 40:554-558.
11
Jakson, J.E. 1980. Light interception and utilization by orchard systems V, In: J. Janick. (ed.). Horticultural reviews. Vol. 2. AVI Publ. Co., Westport, Conn.
12
Kim, Y.K., S.S. Kang, K.S. Cho, and S.B. Jeong. 2010. Effects of bagging with different pear paper bags on the color of fruit skin and qualities in ‘Manpungbae’. Kor. J. Hort. Sci. Technol. 28:36-40.
13
Laleh, G.H., H. Frydoonfar, R. Heidary, R. Jameei, and S. Zare. 2006. The effect of light, temperature, pH and species on stability of anthocyanin pigments in four berberis species. Pakistan J. Nutr. 5:90-92.
14
Lee, H.C. 1999. Physiological and ecological factors affecting fruit coloration and color enhancement in Malus domestica Borkh. cv. Fuji. Ph.D. Thesis, Seoul National University, Seoul, Korea.
15
National Clonal Germplasm Repository (NCGR). 1981. PI 541312. www.ars-grin.gov/cgi-bin/npgs/acc/search.pl?accid=%20PI+541312.
16
Saure, M.C. 1990. External control of anthocyanin formation in apple. Sci. Hort. 42:181-218.
17
Steyn, W.J. 2003. Red colour development and loss in pear fruit. Ph.D. thesis, University of Stellenbosch, Stellenbosch, South Africa.
18
Steyn, W.J., D.M. Holcroft, S.J.E. Wand, and G. Jacobs. 2004. Anthocyanin degradation in detached pome fruit with reference to preharvest red color loss and pigmentation patterns of blushed and fully red pears. J. Amer. Soc. Hort. Sci. 129:13-19.
19
Steyn, W.J., S.J.E. Wand, D.M. Holcroft, and G. Jacobs. 2007. Red colour development and loss in pear. Acta Hort. 671:79-85.
20
Zhang, S.L., Z.J. Chen, and F.Z. Zhang. 2002. Ecological efficiency of pear fruit bagged to main pests and diseases. Chinese J. Eco-Agri.10:37-40.
Information
  • Publisher :KOREAN SOCIETY FOR HORTICULTURAL SCIENCE
  • Publisher(Ko) :한국원예학회
  • Journal Title :Horticultural Science and Technology
  • Journal Title(Ko) :원예과학기술지
  • Volume : 32
  • No :1
  • Pages :10-17
  • Received Date : 2013-03-18
  • Revised Date : 2013-09-24
  • Accepted Date : 2013-11-07
  • DOI :https://doi.org/10.7235/hort.2014.13030
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