Low oxygen pre-storage treatment is effective in reducing chilling injuries of deciduous fruit

Q4 Agricultural and Biological Sciences

International Journal of Postharvest Technology and Innovation Pub Date : 2014-08-06 DOI:10.1504/IJPTI.2014.064139

E. Pesis, O. Feygenberg, Revital Sabban-Amin, S. Ebeler, E. Mitcham, R. Ben-arie

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引用次数: 9

Abstract

Apple and pear fruits stored at low temperatures may suffer from chilling injury symptoms, caused by oxidative stress. Application of a low-oxygen (LO2) atmosphere (0.5%) for 10 d at 20°C or 500 ppb 1-methylcyclopropene (1-MCP) at 20°C for 24 h, prior to cold storage at 0°C, were equally effective in reducing superficial scald on ‘Granny Smith’ apples, after six months of cold storage at 0°C plus seven days at 20°C. Compared to untreated control fruit, the LO2 and 1-MCP-treated fruit produced less ethylene, a-farnesene and its oxidation product, 6-methyl-5-hepten-2-one (MHO), as determined by SPME/GC-MS technique. In addition, LO2 pretreatment applied to Californian ‘Bartlett’ or Israeli ‘Spadona’ pears, was effective in reducing superficial scald, senescent scald and internal breakdown, after 4–4.5 months of cold storage at –1°C or 0°C, respectively, plus five to seven days at 20°C. We assume that LO2 and 1-MCP pretreated fruit remained free of physiological disorders, due to the reduced production of ethylene and the oxidation product MHO during cold storage.

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低氧预贮藏处理能有效减少落叶果实的冷害

低温储存的苹果和梨可能会出现由氧化应激引起的冷伤症状。在0°C冷藏前，在20°C下使用低氧(LO2)气氛(0.5%)10天或在20°C下使用500 ppb的1-甲基环丙烯(1-MCP) 24小时，在0°C冷藏6个月后加上20°C冷藏7天，对减少“Granny Smith”苹果的表面烫伤同样有效。SPME/GC-MS测定结果显示，与未处理对照果实相比，LO2和1- mcp处理的果实产生的乙烯、a-法尼烯及其氧化产物6-甲基-5-庚烯-2-one (MHO)较少。此外，将LO2预处理应用于加利福尼亚的“Bartlett”或以色列的“Spadona”梨，分别在-1°C或0°C冷藏4-4.5个月后，加上20°C冷藏5 - 7天，可有效减少表面烫伤、衰老烫伤和内部破裂。我们认为，经过LO2和1-MCP预处理的水果在冷藏过程中，由于乙烯和氧化产物MHO的产生减少，因此没有出现生理紊乱。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Postharvest Technology and Innovation Agricultural and Biological Sciences-Food Science

CiteScore

1.00

自引率

0.00%

发文量

期刊介绍： Technology is an increasingly crucial input in the industrialisation and development of nations and communities, particularly in the current era of globalisation, trade liberalisation and emphasis on competitiveness. The shared technologies and innovations of today are giving birth to the radically different agrifood industries and communities of tomorrow. There is mounting evidence that investments in postharvest research and infrastructure yield high rates of return that are comparable and often higher than investments in on-farm production alone.