番荔枝果实采后生理与保鲜技术研究进展

番荔枝果实采后难以贮藏保鲜的特性制约着我国番荔枝产业的进一步发展。对国内外关于番荔枝果实采后呼吸强度及乙烯产量、相关酶类、果实软化、果实褐变等生理变化、采后病理及保鲜技术的研究进展作了综述。     

利于猕猴桃贮存的绿色保鲜箱

猕猴桃是不耐贮存水果,采后常温下２—３天果实硬度即迅速下降,而且乙烯对果实硬度影响较大。据国外报道：猕猴桃最佳贮存条件为０℃、０２２％、Ｃ０２５％,同时尽可能排除乙烯。为了达到在常温下贮、运猕猴桃的目的,我们设计了一种“绿色保鲜箱”。这种保鲜箱以常规...     

打孔气调贮藏与乙烯处理对猕猴桃采后品质的影响（简报）

猕猴桃(海沃德)采后果实呼吸强度和乙烯释放速率呈现明显的跃变。跃变期间果实软化,维生素C下降,总糖和还原糖上升,总酸变化不大。打孔气调贮藏有助于抑制果实软化,延缓果实衰老,延长贮藏期。采后使用100ppm乙烯处理,果实软熟加速。     

采收期对‘红心’番石榴品质和耐贮性的影响

以福建漳州栽培的‘红心’番石榴(Psidium guajava ‘Hongxin’)为材料,探究不同采收期对其果实采后耐贮性和品质的影响。实验分盛花期后95 d (采收期Ⅰ)、105 d (采收期Ⅱ)和115 d (采收期Ⅲ) 3个时段进行采收,采后果实在常温(25±1℃) 和相对湿度85%条件下贮藏,贮藏期间测定番石榴果实商品率、失重率、呼吸强度、相对电导率、色调角、硬度、可溶性固形物、可滴定酸、维生素C和总糖含量变化。结果表明,‘红心’番石榴果实采后软化迅速,颜色由绿转黄较快;随着采后贮藏时间的延长,番石榴果实的商品率、硬度、色调角、可滴定酸、维生素C和总糖的含量降低,而果实失重率、细胞膜相对透性增加;采收期Ⅰ较采收期Ⅱ、Ⅲ的耐贮性强。因此,对于‘红心’番石榴果实,考虑贮运期长,适宜在采收期Ⅰ采收;其他两个采收期可在产地销售。     

采收期对青皮核桃果实生理特性与耐贮性的影响

以‘中林5号’(早熟)、‘辽宁4号’(中熟)、‘西扶1号’(中晚熟)青皮核桃果实为试材,于8月上、中、下旬3个采收期采果,在0~1℃冷藏过程中测定贮期生理指标和保鲜效应。结果显示:(1)各采收期和各品种果实呼吸强度(RI)均呈双峰型变化;8月中旬采收的果实呼吸峰出现较早,其纤维素酶(Cx)活性较另2个采收期多1个高峰;多聚半乳糖醛酸酶(PG)活性增强最早,其贮后核仁酸价上升幅度最大,果实腐烂最快。(2)8月下旬同期采收的3个品种果实的贮期各生理指标变化趋于一致;贮藏54d时,果实腐烂率依次为‘辽宁4号’>‘中林5号’>‘西扶1号’。(3)‘辽宁4号’核仁可溶性蛋白质含量越高,贮后下降率最大。研究表明,青皮核桃果实采后生理代谢活性与耐贮性主要与采收时期有关,受品种影响较小,且8月中旬采收的果实采后生理代谢旺盛,耐贮藏性均最差;‘辽宁4号’果实在各采收期的耐贮性均小于其他品种果实。     

柑橘精油及壳聚糖复合处理对橄榄果实采后生理和耐贮性的影响

为探究柑橘精油(0.25%、0.75%、1.5%)和壳聚糖(0.25%、0.75%、1.5%)复合处理对橄榄(Canarium album)果实采后生理和耐贮性的影响，以鲜食橄榄品种(系)‘檀香’、‘梅埔2号’为材料，对采后贮藏期间的腐烂率、褐变指数、相对电导率、呼吸强度、丙二醛含量、内源抗氧化物质谷胱甘肽含量、过氧化物酶(POD)、抗坏血酸过氧化物酶(APX)活性进行测定，筛选橄榄果实复合保鲜剂的最佳浓度组合。结果表明，与对照相比，所有柑橘精油和壳聚糖复合处理均可有效降低橄榄果实在贮藏期间腐烂率、褐变指数和丙二醛的积累，抑制呼吸作用，保持较高的内源抗氧化物质谷胱甘肽含量和POD、APX活性。因此柑橘精油及壳聚糖处理能够有效延长橄榄果实的保鲜时间，提高耐贮性，其中以1.5%柑橘精油和1.5%壳聚糖组合的保鲜效果最佳。     

不同施肥处理对'秦美'猕猴桃贮藏性及其品质的影响

以秦美猕猴桃为材料,对不同施肥处理的果实后熟过程中软化、腐化过程进行观察统计,并在果实采后4个具有代表性的后熟时期(硬度分别为15 kg/cm2左右、8~7 kg/cm26、~5 kg/cm25、~4 kg/cm2)进行可溶性固形物、可滴定酸、Vc、可溶性糖等营养指标测定.结果显示:(1)从后熟过程中软化、腐化统计看,3个施肥处理(A、B、C)的贮藏品质与对照(CK)间差异明显,C处理(氮肥 磷肥 农家肥)的猕猴桃贮藏期最长,软化、腐化出现得最晚,较对照分别延长15 d、27 d,贮藏性最好;(2)3个施肥处理的营养指标与CK间差异明显,C处理与CK和A处理差异显著.表明在猕猴桃生产中采用氮肥 磷肥 农家肥相结合的施肥方式可显著延长猕猴桃果实贮藏期(后熟期),并可显著提高猕猴桃果实的食用和营养品质.     

甜柿采后生理特性及对1-MCP处理的反应

以甜柿品种‘阳丰’为材料,在20℃和0℃贮藏条件下研究了1-MCP(1-甲基环丙烯)处理对不同成熟度甜柿果实采后乙烯释放速率、呼吸速率和品质特性的影响。结果表明:1-MCP处理可延缓贮藏和货架期间甜柿果实的软化、抑制呼吸速率和可溶性固形物含量(SSC)的变化,但对乙烯释放速率的作用不一致。1-MCP处理对成熟度I果实的效果优于成熟度Ⅱ。低温贮藏虽然能显著延缓果实硬度的下降,但在0℃贮藏30、60和90 d后7 d货架期结束时,对照果完全软化,而经1-MCP处理后果实果肉硬度仍保持“脆”性。因此,贮前0.50μL.L-11-MCP处理结合低温贮藏是延长‘阳丰’甜柿贮藏期的有效途径,具有广泛的应用前景。     

赤霉素和萘乙酸对柿果实采后成熟软化生理指标的影响

以采后'富平尖柿'果实为试材,常温下用60 mg/L赤霉素(GA3)和20 mg/L α-萘乙酸(NAA)进行处理,考察柿果实成熟软化相关生理指标及果胶物质代谢在贮藏过程中的变化,以明确GA3和NAA处理对柿果实贮藏效果的影响.结果显示:GA3、NAA处理果实的贮藏时间分别比对照延长了4 d和10 d;GA3和NAA处理可显著延缓果实硬度的下降进程,有效降低果实呼吸强度和乙烯释放量,且呼吸高峰和乙烯高峰的出现明显迟于对照;果实多聚半乳糖醛酸酶(PG)活性的升高受到抑制,从而延缓了原果胶的降解以及水溶性果胶含量的增加,阻碍了果实的软化进程.试验表明,GA3和NAA处理可有效延缓柿果实的后熟软化,延长其贮藏期限, 并以GA3的效果尤为明显.     

采后预温处理对草莓果实贮藏保鲜效果的影响

研究了采后预温处理对草莓果实贮藏保鲜的影响,结果表明,冷藏(5℃)条件下,贮前50℃预热处理30m in的果实腐烂率最低;室温贮藏(19℃~21℃)条件下,50℃预热处理30m in、5℃预冷处理30m in的果实腐烂率最低;贮藏前期,果实中超氧化物歧化酶(SOD)活性、丙二醛(MDA)含量不断上升,预热处理能明显提高果实的SOD活性;贮藏后期,果实SOD活性不断下降、MDA含量持续上升,预处理能显著抑制果实SOD活性的下降和MDA含量的增加。     

Low-temperature-modulated fruit ripening is independent of ethylene in 'Sanuki Gold' kiwifruit

Fruit ripening in response to treatments with propylene, 1-methycyclopropene (1-MCP), and low temperature was characterized in 'Sanuki Gold' kiwifruit, Actinidia chinensis Planch. Propylene treatment immediately induced rapid fruit softening, increased AC-PG (polygalacturonase) and AC-EXP (expansin) mRNA accumulation, and stimulated an increase in the soluble solid concentration (SSC) and a decrease in titratable acidity (TA). After 3?d exposure to propylene, ethylene production and AC-PL (pectate lyase) mRNA accumulation were observed. 1-MCP treatment after 24?h exposure to propylene eliminated AC-PG mRNA accumulation and suppressed continued changes in SSC and TA. Application of 1-MCP at the start of the treatment, followed by continuous propylene exposure, markedly delayed fruit softening, and the expression of the cell wall-modifying genes, and changes in the SSC and TA, indicating that kiwifruit become insensitive to ethylene at least for 3?d following 1-MCP exposure. Surprisingly, significant fruit softening, mRNA accumulation of AC-PG, AC-PL, and AC-EXP, and decreased TA were observed without ethylene production in intact fruit stored at low temperature for 1 month, but not in fruit stored at room temperature. Repeated 1-MCP treatments (twice a week) failed to inhibit the changes that occurred in low temperature storage. These observations indicate that low temperature modulates the ripening of kiwifruit in an ethylene-independent manner, suggesting that kiwifruit ripening is inducible by either ethylene or low temperature signals.     

乙酰水杨酸和乙烯处理对猕猴桃果实后熟软化的影响

以猕猴桃(Actinidia deliciosa(A.Chev.)C.F.Liang et A.R.Ferguson cv.Bruno)果实为试材,研究乙酰水杨酸(ASA)与乙烯处理对果实内源水杨酸(SA)含量变化以及后熟软化相关因子的影响,探讨SA在果实成熟衰老进程的作用.研究结果表明:果实后熟软化进程中,内源SA水平呈下降变化,组织中SA水平与果实硬度变化呈极显著正相关关系(r=0.969 4**),ASA处理可显著地维持组织中较高的SA水平,抑制脂氧合酶(LOX)和丙二烯氧合酶(AOS)活性增加,减低O-.2生成速率,维持细胞膜稳定性,进而抑制了乙烯生物合成或推迟乙烯跃变的到来,延缓了果实后熟软化进程,这些效应主要表现在乙烯跃变之前或乙烯跃变前期;相反,外源乙烯处理则显著降低果实组织中内源SA水平,促进LOX和AOS活性的增加,促使O-.2积累,增加了细胞膜透性,促使乙烯跃变的提前到来,加速了果实的后熟软化.推测组织中的内源SA水平与细胞膜脂过氧化作用密切相关,外源ASA可能作为一种O-.2等自由基的清除剂或是细胞膜稳定剂在组织成熟衰老过程中起作用.     

成串采收对番茄果实采后乙烯合成及贮藏品质的影响

为研究成串采收对番茄果实采后乙烯合成及贮藏品质的影响,对广西田阳县两个栽培区两种嫁接砧木的串收番茄的采后生理指标进行测定,探讨了该采收方式对番茄果实采后保鲜的作用机制。结果表明:整个贮藏期,不同栽培区不同嫁接砧木的番茄成串采收的果实,乙烯生成量明显低于对照的常规单果采收。其中,砧木1号Ⅰ区的串收番茄的乙烯生成量,采后5 d即下降至最低点(0.35 nL·g~(-1)·h~(-1)),显著低于其对照(1.36 nL·g~(-1)·h~(-1)),其他栽培区和砧木组合的串收番茄,在采后15 d乙烯生成量达到最低值。串收番茄的类胡萝卜素、番茄红素和抗坏血酸等果实内天然抗氧化物质的含量,在贮藏前期快速升高,且峰值显著高于对照。此外,成串采收处理还一定程度抑制了果实后熟阶段可溶性糖的积累和可滴定酸的分解。因此,番茄成串采收处理,可能通过抑制果实采后乙烯的合成,同时提高类胡萝卜素、番茄红素和抗坏血酸的水平,并且推迟糖和酸等营养物质的后熟变化进程,实现其延长果实货架期,提高商品品质的作用。     

Regulatory Mechanisms of Textural Changes in Ripening Fruits

Texture changes in ripening fruits influence consumer preference, fruit storability, transportability, shelf-life, and response to pathogen attack. Genetic regulatory factors as well as environmental conditions simultaneously affect texture changes in ripening fruit. Recent physiological and molecular studies provide insights into our knowledge and understanding of events and/or factors that contribute to changes in fruit texture, including softening and lignification. The roles of enzymes involved in modification and/or regulation of cell wall components as well as ethylene signaling components that play key roles in fruit textural changes during fruit ripening and storage will be presented and discussed. In addition, physical as well as chemical regulation of textural changes in ripening fruit will be explored.     

Role of Brassinosteroids, Ethylene, Abscisic Acid, and Indole-3-Acetic Acid in Mango Fruit Ripening

Rapid ripening of mango fruit limits its distribution to distant markets. To better understand and perhaps manipulate this process, we investigated the role of plant hormones in modulating climacteric ripening of ??Kensington Pride?? mango fruits. Changes in endogenous levels of brassinosteroids (BRs), abscisic acid (ABA), indole-3-acetic acid (IAA), and ethylene and the respiration rate, pulp firmness, and skin color were determined at 2-day intervals during an 8-day ripening period at ambient temperature (21?±?1°C). We also investigated the effects of exogenously applied epibrassinolide (Epi-BL), (+)-cis, trans-abscisic acid (ABA), and an inhibitor of ABA biosynthesis, nordihydroguaiaretic acid (NDGA), on fruit-ripening parameters such as respiration, ethylene production, fruit softening, and color. Climacteric ethylene production and the respiration peak occurred on the fourth day of ripening. Castasterone and brassinolide were present in only trace amounts in fruit pulp throughout the ripening period. However, the exogenous application of Epi-BL (45 and 60?ng?g^?1 FW) advanced the onset of the climacteric peaks of ethylene production and respiration rate by 2 and 1?day, respectively, and accelerated fruit color development and softening during the fruit-ripening period. The endogenous level of ABA rose during the climacteric rise stage on the second day of ripening and peaked on the fourth day of ripening. Exogenous ABA promoted fruit color development and softening during ripening compared with the control and the trend was reversed in NDGA-treated fruit. The endogenous IAA level in the fruit pulp was higher during the preclimacteric minimum stage and declined during the climacteric and postclimacteric stages. We speculate that higher levels of endogenous IAA in fruit pulp during the preclimacteric stage and the accumulation of ABA prior to the climacteric stage might switch on ethylene production that triggers fruit ripening. Whilst exogenous Epi-BL promoted fruit ripening, endogenous measurements suggest that changes in BRs levels are unlikely to modulate mango fruit ripening.     

套袋对翠冠梨果实货架寿命及生理生化变化的影响

以翠冠梨为试材,研究了套袋对其果实货架寿命及生理生化变化的影响,试验结果表明,套袋能提高果实硬度、Vc含量及SOD活性,抑制细胞膜透性、MDA含量、呼吸速率及乙烯释放的迅速增加,从而有利于延缓果实衰老软化,且双层袋效果更好。     

猕猴桃果实乙烯受体基因Ad-ETR1的克隆及其表达

以"布鲁诺"美味猕猴桃(Actinidia deliciosa cv.Bruno)果实为材料,根据其它植物乙烯受体氨基酸保守区序列,设计简并引物,通过RT-PCR扩增出1个657bp大小的cDNA片段(Ad-ETR1)该片段编码219个氨基酸,与其它植物乙烯受体及其基因的氨基酸及核苷酸同源性在72%～90%之间.Northern杂交结果表明,猕猴桃果实成熟衰老进程中Ad-ETR1 mRNA的积累趋于增加.这种积累的最大值出现在乙烯进入跃变之后;乙烯处理可以促使Ad-ETR1 mRNA最大值提前出现,乙酰水杨酸(ASA)处理则显著抑制Ad-ETR1表达.     

Effect of 1-methylcyclopropene on postharvest physiological changes of ‘Zaohong’ plum

Plum is a highly perishable fruit and postharvest fruit softening limits its shelf life. The aim of this work was to study the specific effects of 1-methylcyclopropene (1-MCP) treatment on physiological changes in ‘Zaohong’ plums. Plums were treated with 500 nL L⁻¹ 1-MCP at 20°C for 18 h followed by 20°C storage. The results showed that 1-MCP treatment significantly reduced endogenous ethylene production and the activities of ethylene biosynthetic enzymes’ (1-aminocyclopropane-1-carboxylic acid synthase, ACS and 1-aminocyclopropane-1-carboxylic acid oxidase, ACO) in plum fruit during storage when compared with untreated fruit. Although 1-MCP treatment inhibited ethylene production and 1-aminocyclopropane-1-carboxylic acid (ACC) accumulation, it did not inhibit the accumulation of N-malonyl-ACC (MACC). Higher firmness was also found in 1-MCP-treated plums than in controls. During storage, superoxide anion (O₂^−·) and hydrogen peroxide (H₂O₂) levels decreased in 1-MCP-treated fruit. 1-MCP treatment also regulated superoxide dismutase (SOD) and catalase (CAT) activities during storage. Xylanase activity was upregulated while activities of polygalacturonase (PG), pectin methyl esterase (PME) and cellulase enzymes in the fruit were downregulated by 1-MCP treatment. In conclusion, 1-MCP might be a potent compound for extending both storage period and shelf life of ‘Zaohong’ plums by suppressing ethylene biosynthesis, regulating cell wall degradation enzymes and reducing fruit softening.