All Issue

2018 Vol.36, Issue 3 Preview Page

Research Article

Effects of Pre-Drying, Delayed Cooling, and Carbon Dioxide on Skin Blackening Disorder in Asian pear (Pyrus pyrifolia Nakai) ‘Chuhwangbae’
Ug-Yong Lee1
,
Mao-Hua Wang2
,
Tae-Min Bae2
,
Sung-Joo Kim2
,
Jin-Ho Choi1
,
Young-Jik Ahn3
,
Jong-Pil Chun2*
1Pear Research Institute, National Institute of Horticultural and Herbal Science
2Department of Horticultural Science, Chungnam National University
3Department of Horticulture & Forestry, PaiChai University
*교신저자. *Corresponding Author. 
June 2018. pp. 370-379
PDF XML Citation
Abstract

We examined the effects of pre-drying rates, delayed cooling, and carbon dioxide (CO2) treatment on skin blackening, a major physiological disorder during cold storage in Asian pear (Pyrus pyrifolia Nakai) ‘Chuhwangbae’. Total skin blackening incidence was calculated as the percent disorder index (PDI). PDI significantly decreased with increasing pre-drying rate: the highest PDI was 37.3 for the 1% pre-drying treatment and the lowest PDI was 5.1 for the 4% treatment. Meanwhile, the 5% pre-drying treatment did not show a statistically significant difference from the 4% treatment. A 48-h cooling delay at 20°C was the most effective treatment for preventing skin blackening. PDI after cold storage at 1°C was 6.2, 9.2, and 19.1 for 48-h delay, 24-h delay, and no delay, respectively. In the CO2 treatment, 2% CO2-treated fruit showed rapid disorder symptoms from eight days after cold storage at 1°C, and the PDI increased to 19.6 at 12 days and to 63.2 at 20, which was three times higher than the untreated fruits. A decrease in total phenolic content appeared more pronounced in the tissues treated with 2% CO2, while polyphenol oxidase (PPO) activity in untreated fruits increased with increasing skin blackening incidence. However, there was no increase in PPO activity with the 2% CO2 treatment, skin blackening appeared to be a CO2 injury rather than enzymatic oxidation.

Keywords
CO2 injury
peroxidase
polyphenol oxidase
pre-conditioning
storage

References
1
Amiot MJ, Tacchini M, Aubert SY, Oleszek W (1995) Influence of cultivar, maturity stage, and storage conditions on phenolic composition and enzymatic browning in pear fruits. J Agric Food Chem 43:1132–1137. doi:10.1021/jf00053a004
2
Choi SJ, Hong YP, Kim YB (1995) Prestorage treatments to prevent fruit skin blackening during cold storage of Japanese pear ‘Shingo’ (‘Niitaka’). J Kor Soc Hortic Sci 36:218-223
3
Choi JH, Yim SH, Kim SJ, Kwon YH, Kim YK, Lee HC (2014) Effect of harvest time and pear paper bag humidity on skin browning disorder in ‘Chuhwangbae’ pear. Korean J Hortic Sci Technol 32:138-139 (Suppl. II)
4
Costeng MY, Lee CY (1987) Changes in apple polyphenol oxidase and polyphenol concentrations in relation to degree of browning. J Food Sci 52:985-989 doi:10.1111/j.1365-2621.1987.tb14257.x
5
Cui T, Nakamura K, Ma L, Li JZ, Kayahara H (2005) Analyses of arbutin and chlorogenic acid, the major phenolic constituents in Oriental pear. J Agric Food Chem 53:3882-7. doi:10.1021/jf047878k
6
de Castro E, Biasi B, Mitcham E, Tustin S, Tanner D, Jobling J (2007) Carbon dioxide-induced flesh browning in pink lady apples. J Am Soc Hortic Sci 132:713–719
7
Doerge DR, Divi RL, Churchwell MI (1997) Identification of the colored guaiacol oxidation product produced by peroxidases. Anal Biochem 250:10-17. doi:10.1006/abio.1997.2191
8
Fernández-Trujillo JP, Nock JF, Watkins CB (2001) Superficial scald, carbon dioxide injury, and changes of fermentation products and organic acids in ‘Cortland’ and ‘Law Rome’ apples after high carbon dioxide stress treatment. J Am Soc Hortic Sci 126:235–241
9
Iram S, Rasool A, Ahmad I (2014) Comparison of incidence, prevalence and severity of post-harvest fungal diseases in Pakistan improved integrated management orchards and conventional practices blocks. Int J Sci Eng Res 5:1274-1284
10
Jiang YM, Li YB (2003) Effects of low-temperature acclimation on browning of litchi fruit in relation to shelf life. J Hortic Sci Biotech 78:437-440. doi:10.1080/14620316.2003.11511645
11
Kollias N, Sayre RM, Zeise L, Chedekel MR (1991) Photoprotection by melanin. J Photochem Photobiol B 9:135-160. doi:10.1016/1011- 1344(91)80147-A
12
Kuo CT, Yiu JC (2006) Studies on skin blackening disorder in harvested fruits of Japanese pear ‘Shinsetsu’ (Pyrus pyrifolia Nak. var. Shinsetsu) grown in Taiwan. 27th IHC Exhibit., pp 289-290
13
Lee SP, Chen PM, Chen THH, Varge DM, Mielke EA (1990) Differences of biochemical components between the skin tissues of normal and black-speckled ‘d’ Anjou’ pears after prolonged low oxygen storage. J Am Soc Hortic Sci 115:784-788. doi:org/10.1111/j. 1745-4514.1999.tb00034.x
14
Lee UY, Oh KY, Shim HK, Lee HJ, Hwang YS, Chun JP (2010) Comparison of fruit quality among fruits set on various position within cluster in ‘Niitaka’ pears. J Agric Sci 37:13-18
15
Li XY, Wang GX, Liang LS (2012) Effect of cold acclimation treatment and exogenous ethylene treatment on wooliness related enzymes on ‘Okubo’ peach fruits during low temperature storage. Acta Hortic 934:1103-1109. doi:10.17660/ActaHortic.2012.934.148
16
Lin LZ, Harnly JM (2008) Phenolic compounds and chromatographic profiles of pear skin (Pyrus spp.). J Agric Food Chem 56:9094- 9101. doi:10.1021/jf8013487
17
Neves LC, De Campos AJ, De Souza Prill MA, Roberto SR (2013) Woolliness and leatheriness in late peach cultivars submitted to both delayed storage and to cold storage. Acta Scientia 35:363-369
18
Nicolas JJ, Richard-Forget FC, Goupy PM, Aubert SY (1994) Ezymatic browning reactions in apple and apple products. Critic Rev Food Sci Nutri 34:109. doi:10.1080/10408399409527653
19
Park YM, Kwon KY (1999) Prevention of the incidence of skin blackening by postharvest curing procedures and related anatomical changes in ‘Niitaka’ pears. Hortic Environ Biotechnol 40:65-69
20
Pesis E, Feygenberg O, Sabban-Amin R, Ebeler SE, Mitcham EJ, Ben-Arie R (2014) Low oxygen pre-storage treatment is effective in reducing chilling injuries of deciduous fruit. Int J Postharvest Technol Innov 4:23-32. doi:10.1504/IJPTI.2014.064139
21
Richard-Forget FC, Gauillard FA (1997) Oxidation of chlorogenic acid, catechins, and 4-methylcatechol in model solutions by combinations of pear (Pyrus communis cv. Williams) polyphenol oxidase and peroxidase: A possible involvement of peroxidase in enzymatic browning. J Agric Food Chem 45:2472-2476. doi:10.1021/jf970042f
22
Seo JH, Hwang YS, Chun JP, Lee JC (2001) Changes of phenolic compounds and occurrence of skin browning, and characterization of partially purified polyphenol oxidases in Oriental pear fruits. J Kor Soc Hortic Sci 42:184-188
23
Smith PK, Krohn RI, Hermanson GT, Mallia AK, Gartner FH, Provenzano MD, Fujimoto EK, Goeke NM, Olson BJ, et al (1985) Measurement of protein using bicinchoninic acid. Anal Biochem 150:76-85. doi:10.1016/0003-2697(85)90442-7
24
Subramanian N, Venkatesh P, Ganguli S, Sinkar VP (1999) Role of polyphenol oxidase and peroxidase in the generation of black tea theaflavins. J Agric Food Chem 47:2571-2578 doi:10.1021/jf981042y
25
Watkins CB, Bramlage WJ, Cregoe BA (1995) Superficial scald of ‘Granny Smith’ apples is expressed as a typical chilling injury. J Am Soc Hortic Sci 120:88–94
26
Wong TC, Luh BS, Whitaker JR (1971) Isolation and characterization of polyphenol oxidase isozymes of clingstone peach. Plant Physiol 48:19-23. doi:10.1104/pp.48.1.19
Information
  • Publisher :KOREAN SOCIETY FOR HORTICULTURAL SCIENCE
  • Publisher(Ko) :한국원예학회
  • Journal Title :Horticultural Science and Technology
  • Journal Title(Ko) :원예과학기술지
  • Volume : 36
  • No :3
  • Pages :370-379
  • Received Date : 2017-10-31
  • Revised Date : 2017-12-29
  • Accepted Date : 2017-12-31
  • DOI :https://doi.org/10.12972/kjhst.20180036
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