乙烯和1-MCP处理对'金奉'猕猴桃采后品质和保鲜的影响OA
Effects of ethylene and 1-MCP treatment on postharvest quality and preservation of'Jinfeng'kiwifruit
[目的]旨在系统分析乙烯和1-甲基环丙烯(1-MCP)处理对'金奉'猕猴桃采后品质的影响,并评估其保鲜效果,从而为完善该品种的采后贮藏保鲜技术体系提供科学依据和技术支撑.[方法]以'金奉'猕猴桃为试材,在常温(20±1)℃贮藏条件下,根据果实硬度动态变化(8~10,6~8,4~6,3~4,<3 kgf/m2 5个阶段),分别采用25 μL/L乙烯和不同浓度1-MCP(0.25,0.5,0.75,1.0 μL/L)进行处理,观测比较不同处理组合对果实采后品质的影响.[结果]试验结果表明,不同硬度阶段的'金奉'猕猴桃经1-MCP处理均能有效延缓猕猴桃果实硬度下降.具体表现为:在第一阶段(8~10 kgf/m2),CK组的硬度从第8天开始均低于E0.5M和E0.25M处理组;其中E0.25M处理组的可溶性固形物含量在第12天达到17.5%,且在软熟期间可溶性糖含量高达13.27%,可滴定酸含量为0.48%,维生素C含量最高达到193.48 mg/100g,感官评价优于其他处理组.在第二阶段(6~8 kgf/m2),从第8天起CK组的硬度低于E0.25M和E1.0M处理组,其中E0.25M处理组效果最佳;该处理组可溶性固形物含量在第 8天即达到 16.59%,高于其他处理组;软熟期间,其可溶性糖(14.52%)、可滴定酸(0.48%)和维生素 C(175.72 mg/100g)含量均优于其他处理组,且在滋味方面表现最佳.在第三阶段(4~6 kgf/m2),E0.5M处理组在第10天达到可食状态[(2±0.5)kgf/m2],较CK组延长了4 d;同时,该处理组的可溶性固形物含量上升至17.35%;而在软熟期间,0.25M处理组的可溶性糖(9.67%)、可滴定酸(0.56%)和维生素C(169.53 mg/100g)含量均为各处理组最高.在第四阶段(3~4 kgf/m2),CK 组的果实硬度始终低于各 1-MCP 处理组;其中E0.5M处理组在第6~10天的硬度下降较缓,且可溶性固形物含量保持上升趋势,口感评价最佳.在第五阶段(<3 kgf/m2),CK组和E0.25M处理组的可食用窗口期较短(4 d),而E0.5M处理组较CK组延长了4 d,同时保持了较高的可溶性糖、可滴定酸和维生素C含量.综合各阶段结果可知,在8~10 kgf/m2和6~8 kgf/m2硬度范围内,E0.25M处理组效果最佳;而在4~6 kgf/m2、3~4 kgf/m2 及<3 kgf/m2 阶段,则以E0.5M处理效果最佳.[结论]在常温贮藏条件下,外源乙烯处理可显著促进'金奉'猕猴桃果实软化进程.乙烯处理组果实在处理后4~6 d内即达到可食用状态,较CK组提前2~4 d.在果实呼吸高峰前进行1-MCP处理,不仅能够有效延缓'金奉'猕猴桃的后熟软化进程,还可延长果实货架期并保持其优良品质.这些研究结果为开发'金奉'猕猴桃采后保鲜新技术提供了重要理论支撑和实践指导.
[Objective]This study aims to systematically analyze the effects of ethylene and 1-methylcyclopropene(1-MCP)treatments on the postharvest quality of'Jinfeng'kiwifruit and evaluate their preservation effects,thereby providing a scientific basis and technical support for improving the postharvest storage and preservation technology system of this cultivar.[Method]'Jinfeng'kiwifruit was used as test materials.Under ambient temperature(20±1)℃storage conditions,and based on dynamic changes in fruit firmness(five stages:8-10,6-8,4-6,3-4,and<3 kgf/m²),25 μL/L ethylene and different concentrations of 1-MCP(0.25,0.5,0.75,and 1.0 μL/L)were applied respectively,and the effects of different treatment combinations on postharvest fruit quality were observed and compared.[Result]The results show that 1-MCP treatment can effectively delay the decline in fruit firmness of'Jinfeng'kiwifruit at different firmness stages:in Stage 1(8-10 kgf/m²),the firmness of the CK group was lower than that of the E0.5M and E0.25M treatments from the 8th day onward,with the E0.25M treatment group showing the highest soluble solids content(17.5%)on the 12th day,soluble sugar content reaching 13.27%,titratable acid content at 0.48%,vitamin C content peaking at 193.48 mg/100g during the soft-ripe period,and sensory evaluation superior to other groups;in Stage 2(6-8 kgf/m²),from the 8th day,the firmness of the CK group was lower than that of the E0.25M and E1.0M treatments,with E0.25M showing the best effect,as this group had a soluble solids content of 16.59%on the 8th day(higher than other groups),and during soft-ripening,its soluble sugar(14.52%),titratable acid(0.48%),and vitamin C(175.72 mg/100g)contents were superior,with the best taste;in Stage 3(4-6 kgf/m²),the E0.5M treatment group reached the edible state[(2±0.5)kgf/m²]on the 10th day,4 days longer than the CK group,with soluble solids content increasing to 17.35%,while during soft-ripening,the E0.25M group had the highest soluble sugar(9.67%),titratable acid(0.56%),and vitamin C(169.53 mg/100g)contents among all treatments;in Stage 4(3-4 kgf/m²),the firmness of the CK group was consistently lower than that of all 1-MCP treatments,with the E0.5M group showing a slower firmness decline from the 6th to 10th day,soluble solids content maintaining an upward trend,and the best taste evaluation;in Stage 5(<3 kgf/m²),the CK and E0.25M groups had a short edible window(4 days),while the E0.5M group extended this window by 4 days compared to the CK group and maintained high soluble sugar,titratable acid,and vitamin C contents;overall,the E0.25M treatment was optimal for firmness ranges of 8-10 kgf/m² and 6-8 kgf/m²,while the E0.5M treatment was most effective for stages of 4-6 kgf/m²,3-4 kgf/m²,and<3 kgf/m².[Conclusion]Under ambient storage conditions,exogenous ethylene treatment significantly promotes the fruit softening process of'Jinfeng'kiwifruit,with ethylene-treated fruits reaching the edible state within 4-6 days after treatment,2-4 days earlier than the CK group;applying 1-MCP before the fruit respiratory climacteric not only effectively delays the post-ripening softening process of'Jinfeng'kiwifruit but also extends fruit shelf life and maintains its excellent quality,and these findings provide important theoretical support and practical guidance for developing new postharvest preservation technologies for'Jinfeng'kiwifruit.
涂慧;吴勉;余泽涛;陈艳燕;师冀康;石茂松;陶俊杰;黄春辉
江西农业大学 农学院,江西 南昌 330045江西农业大学 农学院,江西 南昌 330045江西农业大学 农学院,江西 南昌 330045江西农业大学 农学院,江西 南昌 330045江西农业大学 农学院,江西 南昌 330045江西新西蓝生态农业科技有限责任公司,江西 宜春 330700江西农业大学 农学院,江西 南昌 330045江西农业大学 农学院,江西 南昌 330045
农业科技
'金奉'猕猴桃采后乙烯1-MCP果实品质
'Jinfeng'kiwifruitpost harvestethylene1-MCP
《江西农业大学学报》 2026 (2)
387-398,12
江西省重点研发计划项目(20232BBF60004)Project supported by the Key Research and Development Program Projects of Jiangxi Province(20232BBF60004)
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