Decoding the fruit microbiome:A climate smart strategy to manage postharvest decays

There is an urgent necessity to shift our diets toward those rich in fruits and vegetables and at reduce postharvest losses of perishables.Approximately 20%-50%of fruits and vegetables are lost due to poor postharvest handling and pathogen infections in developing countries while it was estimated as 5%-35%in developed countries. Fresh fruits have evolved with a plethora of microorganisms having important roles in maintaining fruit health. However, little information is available on the dynamics, structure, and functional capacities of underpinning fruit microbiomes. The present review discussed environmental conditions favoring fruit-harbored antagonists and their different modes of action for suppressing postharvest pathogens in fruits. It also provides information on omics technologies such as next-generation sequencing (NGS),metaproteomics, metatranscriptomic, and metabolomics studies to characterize fruit microbiomes. With the advent of NGS and meta-omics technologies, microbiome research could bring remarkable development and understanding in succeeding biological treatments. In addition, they may provide us with a fundamental understanding of microclimate requirements for fruit microbiome establishment and microbiome shifts during post-harvest storage, which would be advantageous in developing composite biocontrol treatments for post-harvest decay management.

Alternative splicing of the PECTINESTERASE gene encoding a cell wall-degrading enzyme affects postharvest softening in grape

The firmness of table grape berries is a crucial quality parameter. Despite extensive research on postharvest fruit softening, its precise molecular mechanisms remain elusive. To enhance our comprehension of the underlying molecular factors, we initially identified differentially expressed genes(DEGs) by comparing the transcriptomes of folic acid(FA)-treated and water-treated(CK) berries at different time points. We then analyzed the sequences to detect alternatively spliced(AS) genes associated with postharvest softening. A total of 2,559 DEGs were identified and categorized into four subclusters based on their expression patterns, with subcluster-4 genes exhibiting higher expression in the CK group compared with the FA treatment group. There were 1,045 AS-associated genes specific to FA-treated berries and 1,042 in the CK-treated berries, respectively. Gene Ontology(GO) annotation indicated that the AS-associated genes in CK-treated berries were predominantly enriched in cell wall metabolic processes,particularly cell wall degradation processes. Through a comparison between treatment-associated AS genes and subcluster-4 DEGs, we identified eight genes, including Pectinesterase 2(VvPE2, Vitvi15g00704), which encodes a cell wall-degrading enzyme and was predicted to undergo an A3SS event. The reverse transcription polymerase chain reaction further confirmed the presence of a truncated transcript variant of VvPE2 in the FA-treated berries.Our study provides a comprehensive analysis of AS events in postharvest grape berries using transcriptome sequencing and underscores the pivotal role of VvPE2 during the postharvest storage of grape berries.

Modified Atmospheric Packaging and Its Effect on Postharvest Cannabis Quality

Cannabis sativa L. is used as fiber, food, and medicine in several countries. Though it is illegal for recreational use in most of the world, there are some countries that have legalized production and sale. There is a lot of research on production of cannabis, but less so on storage technologies. Cannabis contains several high value compounds, such as cannabinoids and terpenoids, that are susceptible to degradation via light, temperature, and oxygen. Several studies have explored temperature and light, and industry has adjusted accordingly. However, less is known about oxygen-induced degradation. Biochemical studies have demonstrated oxidative degradation of high value compounds, and many producers use some form of modified atmospheric packaging (MAP) for storage. However, the efficacy of MAP is unclear. The objective of this paper is to review our current understanding of MAP in postharvest cannabis storage and identify avenues where additional research is needed.

Variation in Yellow Root Cassava (Manihot esculentus Crantz) Genotypes and Phenotypic Relationship for Selected Postharvest and Morphological Traits

This study evaluated the variation in yellow root cassava (Manihot esculentus Crantz) genotypes and phenotypic relationship for selected postharvest and morphological traits. The trial was established at the Njala Agricultural Research Centre experimental site, Njala, during 2017/2018 cropping season in a randomized complete block design with three replications. Findings showed that the higher the total carotene content (TCC) in yellow flesh cassava genotypes, the longer the rate of postharvest physiological deterioration (PPD). Genotypes TR-0051-TCC/17 and TR-0012-TCC/17 recorded higher TCC (18.9 µg/g and 13.6 µg/g) and longer rate of PPD (4.29 and 3.14), respectively. Genotypes TR-0051-TCC/17, TR-0016-TCC/17, TR-0028-TCC/17, TR-0012-TCC/17 and TR-0020-TCC/17 had the highest TCC values of 18.9 µg/g, 16.09 µg/g, 14.72 µg/g, 13.6 µg/g and 11.23 µg/g with corresponding higher color chart values of 6, 6, 6, 5, and 6, respectively. This suggests the direct dependence of TCC on the root parenchyma color intensity in yellow flesh cassava genotypes. Findings also show a direct relationship between morphological and postharvest traits in yellow flesh cassava genotypes that could be exploited for the genetic improvement of cassava for increased shelf life, nutrition and related quality traits, as well as conservation and utilization of the crop.

Structures and Functions of Cuticular Wax in Postharvest Fruit and Its Regulation:A Comprehensive Review with Future Perspectives

Cuticular wax plays a major role in the growth and storage of plant fruits.The cuticular wax coating,which covers the outermost layer of a fruit’s epidermal cells,is insoluble in water.Cuticular wax is mainly composed of very long-chain fatty acids(VLCFAs);their derivatives,including esters,primary alcohols,secondary alcohols,aldehydes,and ketones;and triterpenoids.This complex mixture of lipids is probably biosynthesized in the epidermal cells of most plants and exuded onto the surface.Cuticular wax not only makes the fruit less susceptible to microbial infection but also reduces mechanical damage to the fruit,thereby maintaining the fruit’s commodity value.To date,research has mostly focused on the changes,function,and regulation of fruit wax before harvest,while ignoring the changes and functions of wax in fruit storage.This paper reviews on the composition,structure,and metabolic regulation of cuticular wax in fruits.It also focuses on postharvest factors affecting wax composition,such as storage temperature,relative humidity(RH),gas atmosphere,and as exogenous hormones;and the effects of wax on fruit postharvest quality,including water dispersion,fruit softening,physiological disorders,and disease resistance.These summaries may be of assistance in better understanding the changes in cuticular wax in postharvest fruit and the resulting effects on fruit quality.

果实采后软化机制研究进展

采后果实在经过储藏运输等一系列过程后会发生软化现象,而软化现象产生的原因有很多,例如由于细胞壁代谢相关酶活性的作用,使得细胞壁的物质成分、结构等发生改变;也可能是由于果实成熟后相关物质的变化以及受到植物激素的调控,进而促进果实成熟软化。本文综述了采后果实软化产生的原因,包括植物激素合成以及与受体结合进而促进果实软化、相关转录因子对果实软化的调控和果实软化相关的细胞壁代谢与碳水化合物代谢等途径,以期为探究采后果实软化机制提供参考。

桃采后品质劣变生物学及调控技术研究进展

桃常温放置易腐烂变质,长期的低温冷藏易导致果肉褐变、风味丧失、抗病性降低、有害物质积累等,是桃产业链的关键性采后问题。前人研究表明,采后品质劣变症状及相关代谢酶、蛋白、基因对果实衰老和调控技术表现出应答差异性,为了解研究概况,笔者对采后品质劣变生物学、调控技术、技术和产品的产业化应用等方面的研究进展进行归纳和分析。目前,采后品质劣变生物学主要局限于质地、内在品质和冷害及相关基因的挖掘和验证,调控技术虽然被广泛研究,但仍未解决长期冷藏导致的果实抗病性降低、风味丧失和货架期缩短的问题。建议后续基于多组学技术,从超微结构、糖和能量、挥发性物质、内源激素、采后冷害和病害及基因甲基化等方面进行机制解析,重点从冷链物流体系和抗病防御系统的建立、保鲜剂的研发及配套技术、终端货架和外源激素破休眠技术等方面开展研究。

拮抗酵母控制樱桃番茄采后病害及其机制研究

通过体外和体内试验,从实验室保存的酵母菌中筛选对樱桃番茄采后黑斑病具有控制作用的拮抗酵母,考察所筛选的拮抗酵母对樱桃番茄自然腐烂的防治效果及对果实品质的影响。通过拮抗酵母对黑斑病病原菌链格孢孢子萌发、芽管伸长和菌丝结构的影响,在樱桃番茄伤口处和表面的生长动态,探讨其对病原菌的直接和间接抑制作用。采用RT-qPCR技术测定拮抗酵母对樱桃番茄抗性相关基因表达水平的影响,分析其对樱桃番茄果实抗病性的影响。结果表明,试验菌株中,卡利比克毕赤酵母对樱桃番茄采后黑斑病的控制效果最好,该处理组果实发病率仅为16.25%,显著低于对照组(68.76%),并且该拮抗酵母还可显著降低樱桃番茄采后自然腐烂,缓减果实品质劣变。卡利比克毕赤酵母通过抑制链格孢孢子萌发、菌丝伸长以及寄生于菌丝上直接抑制病原菌生长,还在樱桃番茄伤口处和表面与链格孢竞争营养和空间而间接抑制病原菌生长。卡利比克毕赤酵母还能诱导樱桃番茄抗氧化基因(SOD,CAT和APX)以及病程相关基因(PR基因)(GLU和CHI)的表达。卡利比克毕赤酵母可以显著控制樱桃番茄采后黑斑病和自然腐烂,对果实品质无显著不良影响。该拮抗酵母可以通过抑制病原菌生长和提高樱桃番茄抗性基因的表达控制果实采后病害。

贮藏温度对火棘鲜果采后生理及功效活性成分的影响

以重庆彭水野生火棘鲜果为试材,研究贮藏温度对火棘功效活性成分原花青素、黄酮、总酚和VC含量的影响,分析相关抗性酶超氧化物歧化酶(superoxide dismutase,SOD)、苯丙氨酸解氨酶(shenylalanine ammonia lyase,PAL)活性和次生代谢产物丙二醛(malondialdehyde,MDA)含量及腐损率变化趋势。结果表明:-5、-3、-1、1、3、5℃贮藏60 d原花青素保持率分别是初始含量的72.97%、65.43%、48.12%、29.76%、21.33%和19.22%;黄酮保持率分别为77.25%、76.27%、72.01%、60.39%、56.96%和35.19%;总酚保持率分别为83.66%、82.61%、62.80%、55.69%、48.51%和43.11%;VC保持率分别为87.17%、86.43%、75.46%、54.83%、36.06%和24.35%;SOD活性保持率分别为81.56%、79.78%、66.32%、27.86%、15.83%和11.25%;PAL活性保持率分别为57.43%、50.05%、42.00%、19.69%、15.62%和14.12%;MDA累积程度与初始含量相比,分别为2.19、2.59、4.51、6.52、7.52倍和8.54倍;腐损率与5℃贮藏60 d相比,分别低88.10%、87.94%、81.09%、54.25%和12.53%。-5、-3℃贮藏与5、3、1、-1℃贮藏相比均可有效保持原有功效成分、降低腐损率、减少MDA累积程度、保持较高SOD和PAL活性,但-5℃和-3℃贮藏差异不显著,-3℃可作为优选贮藏温度。

世界果品贮运现状、发展趋势与我国采后科技发展建议

果业是乡村振兴的重要产业,水果是我国居民膳食结构的重要组成,水果贮藏与高质量供应是我国食物安全的重要压舱石。通过分析目前我国水果消费市场面临的新问题和新挑战,结合欧美发达国家及果业强国水果采后产业发展现状及未来发展趋势,剖析了目前我国水果采后贮运在科技创新、技术研发与装备制造等领域存在的主要问题和短板,在此基础上,梳理了“十五五”我国水果采后科技创新和技术研发重点方向,提出了重点任务清单。

不同采后处理对恭城月柿褐变、活性氧代谢及糖类的影响

本文分析了有氧、真空和真空+1-MCP三种采后处理方式对脱涩后柿子贮藏过程中果实褐变、活性氧代谢和糖类的影响,并对褐变与各指标的相关性进行分析。真空和真空+1-MCP组柿子贮藏过程中的褐变指数BI低于有氧组,其中真空+1-MCP组褐变程度最低;三种采后处理柿子贮藏过程中SOD、APX活性分别呈下降和上升的趋势,真空组柿子SOD活性最低,真空和真空+1-MCP条件下柿子APX活性高于有氧组;真空和真空+1-MCP抑制柿子CAT活性的增加,减少H2O2积累,同时抑制羟自由基的能力和抗坏血酸含量较低。真空和真空+1-MCP组柿子还原糖含量低于有氧组,其中真空+1-MCP组增加最慢,从贮藏开始时的14.10%增加至12 d时的14.87%;真空+1-MCP组柿子果胶含量下降缓慢。相关性分析可知,不同采后处理柿子贮藏过程中柿子褐变与各指标的相关性并不相同,但柿子褐变指数BI均与果胶呈负相关,与还原糖呈正相关。综合可知真空和真空+1-MCP条件更有利于抑制脱涩后月柿的褐变。

食用菌采后侵染性病害生物防治研究进展

我国作为世界第一的食用菌生产、消费和出口大国,近年来食用菌产业发展迅速。食用菌子实体组织鲜嫩,采摘后其品质会持续下降,并极易受到机械伤的损害和微生物的侵染。采后贮藏过程中的病害问题极大地损害了食用菌的经济效益,而目前的食用菌采后保鲜技术及研究相对滞后,常用的化学保鲜剂已逐渐不符合目前绿色发展的需求。而生物防治凭借其绿色环保和不会引起病原菌产生抗药性变异等优点成为目前具有前景的采后病害控制手段。因此该文对当前食用菌的各类采后病害问题、拮抗微生物、及其生物防治机理研究进展进行了全面综述,目前食用菌采后病害控制方面的研究技术总体不足,因此,亟需大力发展绿色保鲜技术,并将其无缝融入食用菌产业的总体战略中。该文对目前的食用菌采后病害生物防治研究具有重要的参考价值,也为采后食用菌贮藏保鲜方式开发提供重要理论支撑,助力食用菌产业绿色健康和可持续发展。

不同保鲜剂组合对非洲菊切花保鲜效果的影响

以非洲菊(Gerbera jamesonii Bolus)鲜切花珍爱为试材,研究不同预处理液与瓶插保鲜液组合对丙二醛含量(MDA)、细胞膜透性、细菌含量及瓶插寿命的影响。结果表明,非洲菊切花经预处理液处理12 h后,MDA含量、细菌菌落数均显著低于对照(去离子水),且预处理能降低细胞膜的相对透性。非洲菊切花在瓶插处理期间MDA含量及细胞膜透性出现先下降后上升的变化趋势,瓶插14 d时达到最大值。花茎及瓶插液的细菌菌落数在瓶插过程中呈逐渐上升趋势,鲜花营养剂和免切通用鲜花营养液2种瓶插液表现了较好的抑菌效果。保鲜效果最佳的保鲜剂组合为可利鲜专业1号醒花液+鲜花营养剂,该处理可显著延长切花的瓶插寿命,其预处理及瓶插期间MDA含量、细胞膜透性和细菌菌落数的累积值均显著低于对照。

保鲜剂对杜鹃切花采后品质的影响

为探究不同保鲜剂对杜鹃切花采后观赏品质的影响,并筛选出杜鹃切花的适合保鲜剂配方,以东洋杜鹃品种‘红元宝’为研究对象,采用不同保鲜剂对其进行瓶插处理,测定不同处理对切花瓶插寿命、鲜质量变化、水分平衡、质膜稳定性等生理指标和观赏品质的影响。结果表明:100~300 mg/L 8-羟基喹啉对‘红元宝’切花的保鲜具有积极作用,可有效延缓花瓣边缘卷曲和萎蔫,促进花径的增大并保持更长的开花时间(18 d),维持切花体内水分平衡,减缓其鲜质量变化及质膜透性的增加。而0.2~0.6 mmol/L硫代硫酸银处理不利于‘红元宝’杜鹃切花采后品质的保持,反而加剧了切花的衰老。经筛选,确定30 g/L蔗糖+200 mg/L 8-羟基喹啉为‘红元宝’杜鹃切花的最适保鲜剂。

食用菌采后保鲜研究的发展现状与前沿趋势:基于Web of Science的文献计量分析

食用菌采后保鲜的研究和发展对推进食用菌产业的健康发展至关重要。为了系统梳理食用菌采后保鲜研究的发展历程,并预测未来发展趋势,本文基于Web of Science数据库中2000—2022年前三季度的421篇相关文献,应用文献计量学方法对文献发表、科研合作、重要作者、重要文献、文献引用和关键词等多方面信息进行整理和阐述,并使用CiteSpace软件进行可视化分析。结果表明,食用菌保鲜领域文献的发表量和被引量自2000年以来逐年上升,2015年后呈现快速发展的趋势并延续至今;中国研究机构和作者在本领域拥有巨大影响力,参与了最广泛的国际合作并产出了最多的研究成果;文献共被引和关键词分析结果显示细胞壁代谢、能量代谢和活性包装研究是本领域的前沿热点,其中能量代谢方向尤其值得关注;维持细胞正常的能量代谢和抗氧化活性对于食用菌抵御采后劣变具有重要意义。因此,探索新型保鲜技术并阐明其分子机理是未来研究的重要方向。

添加柑橘果胶和吐温-80的芥末精油纳米乳液稳定性、抑菌活性及其在砂糖橘保鲜中的应用

采用高压均质与超声破碎法制备添加柑橘果胶(pectin,PT)和吐温-80的芥末精油纳米乳液(mustard essentialoilnanoemulsion,MEO-NE)(MEO-NE-PT)和只添加吐温-80的MEO-NE(MEO-NE-T),对比MEO-NE-PT和MEO-NE-T的微观结构、贮藏稳定性、pH值稳定性、离子强度稳定性及热稳定性,并将MEONE-PT应用于砂糖橘采后保鲜。结果表明:MEO-NE-PT的粒径和多分散指数波动幅度更小,表现出更强的稳定性;对MEO、MEO-NE-T、MEO-NE-PT的最小抑菌浓度(minimum inhibitory concentration,MIC)和最低杀菌浓度进行探究,发现MEO-NE-PT的MIC(64μL/L)远低于MEO(256μL/L)和MEO-NE-T(128μL/L);且经64μL/L MEO-NE-PT处理6 h后的白地霉孢子萌发率仅有6.67%、芽管长度为8.57μm,远低于对照组(MEO)的100%和165.02μm;扫描电子显微镜观察结果表明,MEO-NE-PT处理会导致白地霉菌丝体皱缩、断裂;与对照组相比,MEO-NE-PT处理可明显降低砂糖橘的腐烂率和质量损失率,并且能够延缓砂糖橘硬度和可溶性固形物含量的下降。因此,MEO-NE-PT作为一种安全、有效的绿色抑菌剂,可以控制柑橘白地霉菌的生长,保持砂糖橘采后品质。

氧化白藜芦醇处理对黄皮果实贮藏特性和采后品质的影响

黄皮[Clausena lansium(Lour.)Skeels]属于芸香科,原产于我国华南地区,内含大量生物活性物质,有利于人体健康。然而,黄皮果实因其果皮较薄、果肉较软,易受到机械损伤或发生果实腐烂、果皮褐变、贮藏特性丧失等症状,最终降低了果实采后商品价值及食用价值。因此,有必要开发一种安全、环境友好的采后保鲜技术,以提升黄皮果实贮藏特性及其采后品质,从而延长果实保鲜期。氧化白藜芦醇(OXY)是一种天然活性产物,具有抗褐变、抗氧化、抗菌、抗炎、抗病毒等功效。有研究表明,OXY在药用保健领域研究较多而在食品保鲜中研究较少。目前尚无关于外源OXY处理提高黄皮果实贮藏特性与采后品质的研究报道。因此,为探究外源OXY处理对黄皮果实采后保鲜效应的影响,以鸡心黄皮果实为试材,分别采用0.2 g/L OXY溶液与蒸馏水(CK)浸泡处理黄皮果实30 min,随后取出果实晾干并装袋(每袋装50颗果实),置于相对湿度为85%、温度为(25±1)℃的条件下贮藏10 d,每2 d取样观察,测定黄皮果实的贮藏特性与采后品质相关指标的变化。结果表明:与CK相比,OXY处理能减缓采后黄皮果实的果皮细胞膜透性、褐变度和褐变指数的上升趋势,维持较高水平的果实商品率与较低水平的果实失重率。另外,OXY处理能维持采后黄皮果实较高的果皮L^(*)值、色调角h值和较高的果皮总酚含量,而降低果皮过氧化物酶和多酚氧化酶等酚酶活性。此外,OXY处理也可维持采后黄皮果实较高的果肉可溶性固形物、维生素C、可滴定酸、蔗糖与可溶性总糖含量。因此,外源OXY处理能有效提高黄皮果实的采后贮藏特性,稳定果实果皮的外观品质与果肉营养品质,进而延长黄皮果实的采后保鲜期。

ε-聚赖氨酸对西番莲果实采后病害与抗病物质代谢的影响

为研究ε-聚赖氨酸(ε-poly-L-lysine,ε-PL)抑制可可毛色二孢(Lasiodiplodia theobromae)侵染所致黄金西番莲果实采后病害的发生及其与果实采后抗病性的关系,以‘福建百香果3号’黄金西番莲果实为研究对象,以无菌水浸泡处理10 min后接种L. theobromae的西番莲果实为对照组,以100 mg/L ε-PL溶液浸泡处理10 min后接种L. theobromae的西番莲果实为处理组,在(28±1)℃、90%相对湿度下贮藏7 d,每天取样测定果实病斑直径、果皮细胞膜透性、木质素含量和抗病相关酶活性等的变化。结果表明,与接种L. theobromae的西番莲果实对比,ε-PL可延缓果皮细胞膜透性与果实病斑直径的上升。此外,ε-PL还能提高接种L. theobromae西番莲果实的果皮木质素含量,提高果实果皮肉桂酸-4-羟化酶、多酚氧化酶、苯丙氨酸解氨酶、过氧化物酶、β-1,3-葡聚糖酶、4-香豆酰辅酶A连接酶、几丁质酶、肉桂醇脱氢酶等抗病相关酶活性。因此,ε-PL通过减缓西番莲果实果皮细胞膜透性的上升而保持果皮细胞膜的完整性,还能提高西番莲果实果皮抗病相关酶活性及促进木质素累积,进而提升果实采后抗病性,抑制L. theobromae侵染所致采后病害的发生。

油茶果采后不同处理种仁代谢组学分析

旨在寻找油茶果最佳采后处理方式,为其后续研究奠定基础,采用液相色谱-质谱联用法(LC-MS/MS)对油茶果采后不同处理〔不处理(F8)、堆沤处理(FC)、去壳摊晒(NS)、带壳摊晒(WS)〕10、30d种仁代谢物进行测定,并用相关软件对代谢产物进行分析。结果表明:鉴定出1107种特征代谢物,其中正离子模式和负离子模式下鉴定的代谢物数量分别为763种和344种,代谢物主要为脂类和类脂分子(277种),苯丙烷类和聚酮类(193种),有机酸及其衍生物(172种),类苯(97种),有机杂环化合物(94种),有机氧化合物(84种),核苷、核苷酸和类似物(33种);通过比较差异代谢物不饱和脂肪酸发现,去壳摊晒处理30d(NS2)vs10d(NS1)比较组中检测到亚油酸、顺式-9-十六碳烯酸、8(9)-环氧-5Z,11Z,14Z-二十碳三烯酸、亚麻酸、蓖麻油酸、9,10-环氧十八碳烯酸共6种不饱和脂肪酸,且都表达上调;对差异代谢物进行富集分析发现,主要参与的代谢途径有苯丙氨酸代谢、类黄酮生物合成、甘油磷脂代谢、甘油酯代谢、玉米素生物合成、植物次生代谢产物的生物合成、谷胱甘肽代谢、氨基酸的生物合成、次生代谢产物的生物合成。综上,油茶果采后最佳处理方式为去壳摊晒30d。

赤霉素复合壳聚糖处理对火龙果采后品质及抗氧化能力的影响

火龙果营养丰富,深受消费者喜爱,然而火龙果采后贮藏期间易出现鳞片黄化、失水皱缩、腐烂变质等品质劣变问题,严重影响其商品价值。本研究为了探究赤霉素复合壳聚糖处理对火龙果采后品质及抗氧化能力的影响,以金都一号火龙果为试验材料,随机挑选大小均匀、成熟度一致,完好无损的火龙果分别设置6种处理:清水处理(对照)、5 g/L壳聚糖处理、50 mg/L赤霉素处理、25 mg/L赤霉素+5 g/L壳聚糖处理、50 mg/L赤霉素+5 g/L壳聚糖处理、100 mg/L赤霉素+5 g/L壳聚糖处理,处理后在25℃下恒温贮藏,定期测定火龙果的采后品质指标、脂氧合酶(LOX)活性、丙二醛(MDA)含量、抗氧化物质含量、抗氧化酶活性。结果表明:50mg/L赤霉素+5g/L壳聚糖处理的火龙果能较好维持火龙果的贮藏品质,在贮藏12d后,鳞片黄化率和失水率分别比对照降低15.91%和20.75%,果实可溶糖含量、颜色a*值和L*值均显著高于其余试验组,可溶性果胶含量显著低于其余试验组;50mg/L赤霉素+5g/L壳聚糖处理还能维持火龙果较强的抗氧化能力,贮藏12d后,果实丙二醛含量和脂氧合酶活性分别比对照降低16.04%和19.23%,抗氧化物质类黄酮、总酚、还原型谷胱甘肽(GSH)和还原型抗坏血酸(AsA)含量分别比对照提高10.07%、10.00%、31.43%和12.93%,抗氧化酶超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)活性分别比对照提高17.61%、79.22%和15.00%。可见,适宜浓度的赤霉素复合壳聚糖处理可有效维持火龙果采后品质,增强果实抗氧化能力,减轻膜脂过氧化损伤,延缓火龙果成熟衰老,延长保鲜期,复合处理可作为一种绿色环保、经济有效的保鲜手段,为火龙果采后贮运保鲜提供参考。