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乙烯抑制时机对‘嘎啦’苹果长期低氧贮藏期间内部褐变及品质的影响

Timing of Ethylene Inhibition Affects Internal Browning and Quality of 'Gala' Apples in Long-Term Low Oxygen Storage.

作者信息

DeEll Jennifer R, Lum Geoffrey B, Mostofi Younes, Lesage Sky K

机构信息

Ontario Ministry of Agriculture, Food and Rural Affairs, Simcoe, ON, Canada.

出版信息

Front Plant Sci. 2022 May 30;13:914441. doi: 10.3389/fpls.2022.914441. eCollection 2022.

DOI:10.3389/fpls.2022.914441
PMID:35707616
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9190988/
Abstract

The objective of this study was to evaluate the timing of ethylene inhibition with preharvest and postharvest 1-methylcyclopropene (1-MCP) treatments on internal browning and quality of 'Gala' apples in long-term low O storage. 'Gala' apples were obtained from the same commercial orchard during their harvesting period for 2 years of study. Preharvest 1-MCP orchard spray (3.8% a.i) was applied at the label rate of 60 g 1-MCP per acre in the first year. Postharvest 1-MCP (1 μl L) treatments were made for 24 h at 0.5°C either at harvest time (1 day after harvest) or after storage in controlled atmosphere (CA) in both years. Apples were stored in 1.5 kPa O + 0.5 kPa CO or 0.6 kPa O + <0.5 kPa CO for 9 months in the first year and 1.5, 1.0, or 0.5 kPa O + 0.5 kPa CO for 8 months in the second year. Storage regimes with O concentrations less than 1 kPa were based on fruit respiration using SafePod™ technology. After removal from storage, all apples were then evaluated for internal browning and other quality attributes after 1, 7, and 14 days at room temperature (RT, 21-22°C). Internal browning developed in 'Gala' apples during both years of study, with up to 16% incidence across treatments in the first year and up to 84% in the second year. Apples stored in 0.5-0.6 kPa O had significantly less internal browning during both years of study, compared to apples stored in higher O. The effect of 1-MCP on internal browning was negligible in 0.5-0.6 kPa O storage. 'Gala' stored in 1.5 kPa O and treated with postharvest 1-MCP after storage had significantly less internal browning with preharvest 1-MCP than those without preharvest treatment. Apples treated with postharvest 1-MCP at harvest time, instead of after storage, did not exhibit this same effect. Preharvest 1-MCP-treated fruit maintained greater firmness retention than those without preharvest 1-MCP, and this effect was further enhanced when 1-MCP was applied after storage. Postharvest 1-MCP had no effect on firmness retention in fruit without preharvest 1-MCP, but lower O maintained greater firmness in those apples. Preharvest 1-MCP had no significant effect on internal ethylene concentration, whereas it was reduced by postharvest 1-MCP at harvest time in the first year of study, regardless of storage regimes. However, internal ethylene was only affected by storage regime in the second year, with lower concentration in fruit from 0.5 kPa O than in those from higher O. Greasiness developed only in the second year and postharvest 1-MCP consistently reduced it, regardless of treatment timing and storage regime. There was no greasiness in apples treated with postharvest 1-MCP at harvest and then held in 0.5 kPa O for 8 months plus 14 days at room temperature. Soluble solids concentration and malic acid content were slightly higher in 'Gala' apples with preharvest 1-MCP compared to those without, whereas there was little and inconsistent effect of postharvest 1-MCP on these attributes. Overall, storage regimes with less than 1 kPa O provided the least amount of internal browning and best quality attributes. Ethylene inhibition provided further benefits, but this was dependent on the timing of 1-MCP treatment.

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9ce7/9190988/5fffda051457/fpls-13-914441-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9ce7/9190988/ecbf09cb74bf/fpls-13-914441-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9ce7/9190988/5fffda051457/fpls-13-914441-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9ce7/9190988/ecbf09cb74bf/fpls-13-914441-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9ce7/9190988/5fffda051457/fpls-13-914441-g002.jpg
摘要

本研究的目的是评估在长期低氧贮藏中,采前和采后使用1-甲基环丙烯(1-MCP)处理抑制乙烯对‘嘎啦’苹果内部褐变和品质的影响。在为期2年的研究期间,‘嘎啦’苹果均采自同一商业果园的收获期。第一年,采前1-MCP果园喷雾(有效成分3.8%)以每英亩60克1-MCP的标签剂量施用。两年中,采后1-MCP(1微升/升)处理均在0.5°C下进行24小时,处理时间分别为收获时(收获后1天)或在气调贮藏(CA)之后。第一年,苹果在1.5千帕氧气 + 0.5千帕二氧化碳或0.6千帕氧气 + 低于0.5千帕二氧化碳条件下贮藏9个月;第二年,在1.5千帕、1.0千帕或0.5千帕氧气 + 0.5千帕二氧化碳条件下贮藏8个月。氧气浓度低于1千帕的贮藏方案是基于使用SafePod™技术的果实呼吸作用制定的。贮藏结束后,所有苹果在室温(21 - 22°C)下放置1天、7天和14天后,对其内部褐变和其他品质属性进行评估。在两年的研究中,‘嘎啦’苹果均出现了内部褐变,第一年各处理的发生率最高达16%,第二年最高达84%。与贮藏在较高氧气浓度环境中的苹果相比,贮藏在0.5 - 0.6千帕氧气环境中的苹果在两年研究期间内部褐变均显著减少。在0.5 - 0.6千帕氧气贮藏条件下,1-MCP对内部褐变的影响可忽略不计。贮藏在1.5千帕氧气环境中且贮藏后进行采后1-MCP处理的‘嘎啦’苹果,与未进行采前处理的相比,采前使用1-MCP的内部褐变更少。在收获时而非贮藏后进行采后1-MCP处理的苹果未表现出同样的效果。采前经过1-MCP处理的果实比未处理的果实保持了更高的硬度,并且当在贮藏后施用1-MCP时,这种效果进一步增强。采后1-MCP对未进行采前1-MCP处理的果实的硬度保持没有影响,但较低的氧气浓度使这些苹果保持了更高的硬度。采前1-MCP对内部乙烯浓度没有显著影响,而在研究的第一年,无论贮藏方案如何,采后1-MCP在收获时都会降低内部乙烯浓度。然而,在第二年,内部乙烯仅受贮藏方案影响,贮藏在0.5千帕氧气环境中的果实乙烯浓度低于贮藏在较高氧气浓度环境中的果实。油浸现象仅在第二年出现,采后1-MCP始终能降低油浸现象,无论处理时间和贮藏方案如何。在收获时进行采后1-MCP处理并在0.5千帕氧气环境中贮藏8个月再在室温下放置14天的苹果没有出现油浸现象。与未进行采前1-MCP处理的‘嘎啦’苹果相比,采前经过1-MCP处理的苹果可溶性固形物浓度和苹果酸含量略高,而采后1-MCP对这些属性的影响很小且不一致。总体而言,氧气浓度低于1千帕的贮藏方案内部褐变最少且品质属性最佳。乙烯抑制提供了进一步的益处,但这取决于1-MCP处理的时间。

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'Scarlett Spur Red Delicious' apple volatile production accompanying physiological disorder development during low pO2 controlled atmosphere storage.‘斯嘉丽斯普 spur 红美味’苹果挥发性物质的产生伴随着低氧受控气氛贮藏过程中生理失调的发展。
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