Changes of Aroma Components in Hongdeng Sweet Cherry During Fruit Development

To study the changes of aroma components in sweet cherry during fruit development, the aroma components in sweet cherry fruit from the green stage, the color stage, the commercial stage, and the ripe stage were collected using head-space solid phase microextraction （HS-SPME）, and were analyzed using a gas chromatograph-mass spectrophotometer （GC- MS）. A total of 37 compounds were identified from the sample extracts. Aldehydes, alcohols, and esters were the major constituents. The aroma components behaved differently during the fruit developmental period. C6 aldehydes and aromatic aldehydes were the main aldehydes in the sweet cherry fruit. The contents of C6 aldehydes increased quickly to 84.16% in the color stage, then decreased as ripening proceeded, and then, the contents decreased to 59.20 and 55.58% at the commercial stage and the ripe stage, respectively. The aromatic aldehydes （benzaldehyde） increased as ripening proceeded, and the maximum was found at the ripe stage. Alcohols of sweet cherry fruit included C6 alcohols and aromatic alcohols. The content of （E）-2-hexen-l-ol increased as ripening proceeded. The maximum was found at the commercial stage; alcohol was only found at the ripe stage. Ester components included ethyl acetate, butanoic acid ethyl ester, hexanoic acid ethyl ester, which increased as the fruit ripened. Hexanal, （E）-2-hexenal, benzaldehyde, （E）-2-hexen-l-ol, ethyl acetate, and hexanoic acid ethyl ester were the characteristic aroma components of sweet cherry fruit. These aroma components started to form drastically at the color stage, and the main aroma was formed at the commercial stage, which then turned bad at the ripe stage because of the presence of alcohol. So the optimal harvest time of sweet cherry was at the commercial stage.

Study on Aroma Components in Fruit From Three Different Satsuma Mandarin Varieties

Fruit aroma of Guoqing 1, Miyagawa Wase, and Owari from three different Satsuma mandarin varieties were investigated by headspace solid phase microextraction （HS-SPME） combined with GC-MS. The results showed that there were 73, 71, and 66 aroma components in the three varieties, and the total contents were 584.67,505.29, and 494.63 μg g^-1, respectively. Total 29 constituents were common in the three varieties. It was also found that Guoqing 1, Miyagawa Wase, and Owari had 12, 5, and 2 unique components, respectively. The key aroma components were limonene, linalool, γ-terpinene, β- myrcene, α-pinene, and octanal in the three fruits. Guoqing 1 contained more key aroma compounds than Miyagawa Wase and Owari.

Effects of different color paper bags on aroma development of Kyoho grape berries

This study investigated the influence of red,green,blue,and white paper bags on the free volatile compound development of Kyoho grape berries from green to harvest.Seven functional groups of volatiles were identified during the development of Kyoho grape berries including esters,aldehydes,alcohols,terpenes,ketones,acids,and hydrocarbons.Esters and aldehydes were abundant in Kyoho grape berries,mainly represented by ethyl acetate,ethyl butyrate,and(E)-2-hexenal.They accumulated quickly after veraison and slightly decreased toward maturation.Red,green,blue,and white paper bags promoted the accumulation of esters and inhibited the accumulation of aldehydes,also inhibited the accumulation of alcohols,tepenes,ketones,and acids.Their effect from strong to weak was green,blue,red,and white paper bags.The expression profiles of genes in the lipoxygenase-hydroperoxide lyase(LOX-HPL) pathway were also analyzed and the results indicated that the regulation of red,green,blue,and white paper bags on aldehydes,alcohols,and esters volatile aromas was at transcriptional level.The results expanded our comprehension in grape aroma biosynthesis and berry bagging technique in table grape cultivation.

The Effect of Different Potassium Fertilizers on Fruit Flavor Quality of ‘Xinliqihao’ Pear

[Objectives] This study was conducted to investigate the effects of different types of potassium fertilizers on the flavor and quality of pear fruit.[Methods] With ‘Xinliqihao’ as a research object,such three treatments as potassium sulfate (T1),potassium nitrate (T2) and potassium chloride (T3) were set up,with no application of potassium fertilizer as control (CK).All the fertilizers were applied into soil in the growing season.[Results] The total sugar content of ‘Xinliqihao’ was significantly higher in the potassium fertilizer treatments than that of the control.The total sugar content of T 2 (the potassium sulfate treatment) was the highest,which was 34.55% higher than that of the control,sequentially followed by T3 (the potassium nitrate treatment) and T1 (the potassium chloride treatment).The contents of fructose,glucose and sucrose in the potassium sulfate treatment were all the highest,which were 15.96%,27.32% and 52.81% higher than those of the potassium chloride treatment,respectively,and 11.36%,27.75% and 20.45% higher than the potassium nitrate treatment,respectively.The total acid content of ‘Xinliqihao’ fruit treated with different types of potassium fertilizers was higher than that of the control.The total acid content of the potassium nitrate treatment was the highest,which was 103.68% higher than that of the control,sequentially followed by the potassium sulfate treatment and the potassium chloride treatment.Both the control and potassium treatments of ‘Xinliqihao’ had the highest malic acid content,and except the potassium chloride treatment with the lowest fumaric acid content,other treatments all had the lowest tartaric acid content.Different types of potassium fertilizer treatments had different effects on the organic acid content of ‘Xinliqihao’ fruit.The types and contents of volatile aroma substances in the fruit of ‘Xinliqihao’ treated with potassium fertilizers were significantly higher than the control.The aroma substances in ‘Xinliqihao’ differed among different potassium fertilizer treatments.Specifically,78 kinds of aroma substances were detected in the potassium chloride treatment,and the total content of aroma components was the highest at 746.609 ng/g in the fruit of the potassium sulfate treatment.[Conclusions] The potassium fertilizer treatments improved the flavor and quality of ‘Xinliqihao’ pear fruit,and the potassium sulfate treatment exhibited the best effects.

不同冷冻-解冻处理方式对猕猴桃品质的影响

以‘徐香’猕猴桃为原材料,系统探究不同冷冻温度(-20℃、-40℃、-50℃和-80℃)及解冻温度(4℃、15℃、25℃和35℃)组合对猕猴桃主要理化性质及香气成分的影响。结果表明:不同冷冻-解冻处理不会影响猕猴桃的色度;与鲜切猕猴桃一致,4℃/-50℃、4℃/-80℃和15℃/-80℃处理条件下猕猴桃的可溶性固形物含量均为16.0oBrix。鲜切猕猴桃的可滴定酸和维生素C含量分别为1.22g/hg和45.30 mg/hg,处理后猕猴桃的可滴定酸含量为1.06~1.33g/hg,维生素C含量降低17.62%~33.89%。不同处理后猕猴桃的多酚类物质损失率为20.44%~31.72%,且不同组合处理之间无显著差异。同时,不同处理对猕猴桃香气成分的种类和含量有一定损失,且较低的冷冻温度和解冻温度有利于香气成分的保持。综合考虑,-50℃/4℃和-80℃/4℃冷冻-解冻组合方式可有效保持猕猴桃的品质,为猕猴桃的贮藏保鲜提供了技术支撑。

苹果等6种经济林不同时期果实BVOCs成分分析

为探究常见经济林树种不同时期果实在自然状态下释放植物源挥发性有机物(BVOCs)组成成分差异,并分析其香气类型,选取苹果、桃、李、梨、山楂和枣6种经济林树种为研究对象,采用动态顶空采集法收集释放的BVOCs,结合自动热脱附-气相色谱/质谱联用技术进行BVOCs分析。结果表明,6种果实膨大期和成熟期均检测出12类BVOCs,组分总数量前者(305)大于后者(275),2个时期果实释放烷烃类、烯烃类、芳香烃类、酯类和醛类BVOCs占比最大;不同时期6种果实有10种共有BVOCs为2,2,4,6,6-五甲基庚烷、正十九烷、a-柏木烯、正戊醛、庚醛、辛醛、天然壬醛、癸醛、苯乙酮和庚胺醇;苹果、桃、李和梨随着果实生长发育BVOCs成分数量减少;不同时期6种果实香韵涵盖香型有差异,并随果实生长发育,青草香、果香、檀木香、醛香和柑橘香占比明显增加。表明不同时期6种经济林植物果实释放BVOCs组成成分和相对含量差异明显,在果实成熟期,主要香气BVOCs成分相对含量较高,是果实香精开发的最佳时期。

山东地方梨种质资源果实性状综合评价

【目的】全面评价107份种质资源的果实特征,为培育优良新品种奠定基础。【方法】于果实成熟期对果实品质进行测定、分析;采用Q型和R型聚类分析法对107份梨种质及其果实性状进行分类。【结果】84.11%种质资源属于中、大果型,果形指数约为1;48%的梨种质果实果皮呈现黄绿色、果肉白色、风味酸甜、汁液多和微香等特点;共检测出339种挥发性香气物质,不同种质香气种类及含量差别较大,其中酯类物质是香气主要成分;Q型和R型聚类分析显示,组内聚类种质具有一定的相似特征,且多具有相关性;主成分分析显示各性状贡献率较为分散,性状变异丰富。【结论】鉴定出文登实生种、栖霞大香水、鸭广梨等可溶性固形物含量高、香气浓郁的种质资源,可作为培育优良新品种的宝贵亲本材料。

24-表油菜素内酯对不同香型葡萄果实品质的影响

【目的】研究油菜素内酯对常见鲜食及酿酒葡萄果实品质形成及香气物质积累的影响,为精准调控不同香型葡萄果实品质提供理论依据。【方法】选择户太8号、巨玫瑰和赤霞珠为试材,以体积分数0.1%乙醇+体积分数0.1%吐温-80水溶液为对照(CK),于转色初期对果穗喷施外源0.1,0.4和1.6 mg/L 24-表油菜素内酯(EBR),采集成熟期果实测定总酸、还原糖、总酚、总花色苷、总类黄酮、单宁、总黄烷-3-醇等含量,并采用顶空固相微萃取-气质联用技术(SPME-GC-MS)进行香气成分分析,全面综合评价不同质量浓度EBR对不同品种葡萄果实品质的影响。【结果】适宜质量浓度的外源EBR处理能够提高户太8号、巨玫瑰和赤霞珠的葡萄果实成熟度及酚类物质含量。对于鲜食葡萄户太8号而言,1.6 mg/L EBR处理效果较好,与CK相比,其还原糖、总酚、总花色苷、总类黄酮和总黄烷-3-醇含量分别增加了9.28%,28.06%,37.92%,37.93%和14.86%;户太8号属于酯香型品种,1.6 mg/L EBR处理后其酯类香气物质总量相较CK提高了23.38%。对于鲜食葡萄巨玫瑰而言,0.1 mg/L EBR处理效果较好,与CK相比,其还原糖、总酚、总花色苷、总类黄酮和总黄烷-3-醇含量分别增加了10.52%,15.62%,35.17%,18.65%和9.74%;巨玫瑰属于玫瑰香型品种,0.1 mg/L EBR处理后其萜烯类香气物质总量相较于CK提高了46.26%。对于酿酒葡萄赤霞珠而言,0.1 mg/L EBR对其还原糖、总酚及总花色苷含量的促进效果较好,相较于CK分别增加了14.80%,17.08%和18.63%;1.6 mg/L EBR对其总类黄酮、单宁和总黄烷-3-醇含量的促进效果较好,相较于CK分别增加了25.35%,42.14%,9.22%。赤霞珠属于非芳香型葡萄品种,不同质量浓度EBR处理后其脂肪酸类香气物质含量无显著变化,但酯类、醛酮类、高级醇类、萜烯类及苯类衍生物含量均显著升高。【结论】适宜质量浓度的外源EBR处理能够提高户太8号、巨玫瑰和赤霞珠葡萄果实的成熟度及酚类物质含量,有助于增加不同香型葡萄品种的特征香气类物质含量。

青梅果实芳香族特征香气的形成分析

芳香族香气成分是青梅果实及其加工产品杏仁特征性香气的贡献者,目前此类特征性香气的累积规律及形成机制未得到充分研究。为探究青梅果实中芳香族特征香气物质的形成累积及其生源机制,以不同成熟期的青梅为材料,利用顶空-固相微萃取-气相色谱-质谱联用技术测定了芳香族特征香气成分,结合特异性氨基酸等前体物进行相关性分析。结果显示,成熟过程中芳香族特征香气差异明显,成熟中期(花后80~100 d)香气物质代谢最为活跃,氨基酸含量最低。青梅中特征香气物质累积变化表明,芳香族香气物质来源于苯丙氨酸代谢途径,苯甲醛与苯乙醛合成途径存在竞争关系,且苯甲醛为通过非β氧化途径形成。

菠萝百香果复合低醇果酒发酵工艺及香气成分分析

为探讨菠萝和百香果的复配比例对菠萝百香果复合低醇果酒香气成分的影响,采用CY3079为酿酒酵母,将菠萝和百香果汁以不同比例复配后发酵,采用气相色谱法测定发酵酒样的香气成分,结合感官品评,筛选最佳果汁复配比例。结果显示,菠萝百香果复合果酒中共检测出20种左右香气成分,包括酯类、醇类、酸类、醛类等物质。结合感官评价可知,菠萝与百香果复配比为8∶1时酿造的复合低醇果酒口感更柔顺,果香更浓郁,并伴随有发酵产品的典型风味。该研究分析了菠萝百香果复合低醇果酒的特征风味,为其产业化开发提供理论参考。

基于HS-SPME-GC-MS分析不同龙眼果酒中香气成分

该研究以龙眼为原料,3种酿酒酵母(LABA、CRI、L-EL)为发酵菌种制备龙眼果酒,采用顶空固相微萃取气质联用(HS-SPME-GC-MS)法对其香气成分进行分析,并结合相对气味活度值(ROAV)评价各香气成分对龙眼果酒总体风味的贡献程度,以确定关键香气成分。结果表明,3种酿酒酵母酿造的龙眼果酒中共检出挥发性风味物质58种,其中,酯类19种、醇类8种、醛类7种、烯类2种、酸类4种、醚类3种、酚类5种、醛酮类6种、呋喃类4种。CRI酵母发酵果酒挥发性风味物质的种类最丰富(43种),酯类物质含量最高(1.54 g/L),关键香气成分(ROAV≥1)有7种,分别为丁酸乙酯、己酸乙酯、庚酸乙酯、辛酸乙酯、水杨酸甲酯、丁二酸二乙酯、苯乙酸乙酯。因此,酵母CRI更适合酿造龙眼果酒。

两种植物生长调节剂对无核白鸡心葡萄果实品质的影响

为探究不同植物生长调节剂对葡萄果实品质与香气的影响,筛选提升果实品质、增加香气含量的最佳处理,以乌鲁木齐地区树龄9年的无核白鸡心葡萄为试验材料,设置赤霉素(GA_(3))(30、50、70 mg·L^(-1))加氯吡脲(CPPU)(0、1、2 mg·L^(-1))9个植物生长调节剂处理,于果实膨大期蘸施,以清水为对照,测定成熟期果实纵横径、粒重、可溶性固形物含量、维生素C(VC)含量、酚类物质含量和保护酶活性,并采用气相色谱质谱(GC-MS)法测定香气物质成分。结果表明,不同处理对提高果实品质效果显著(P<0.05),与对照相比,70 mg·L^(-1)GA_(3)+1 mg·L^(-1)CPPU处理后果实纵径、果实横径、粒重、果形指数分别提高33.93%、10.06%、56.18%、19.02%,可溶性固形物含量提高5.79百分点,可滴定酸含量下降0.14百分点,固酸比提升69.44%。此外,GA_(3)和CPPU组合处理对果实中多酚、原花青素、黄烷醇等酚类物质含量的增加效果显著。果实中共检测出74种香气物质,其中玫瑰香型物质有β-大马士酮、香叶醇、月桂烯、香茅醇、α-松油醇、(+)-柠檬烯。与对照相比,50 mg·L^(-1)GA_(3)+2 mg·L^(-1)CPPU处理后β-大马士酮含量提高47.00%,70 mg·L^(-1)GA_(3)+2 mg·L^(-1)CPPU处理后香叶醇、月桂烯、香茅醇、α-松油醇含量分别提高16.67%、18.05%、50.65%、1043.46%,50 mg·L^(-1)GA_(3)+1 mg·L^(-1)CPPU处理后(+)-柠檬烯含量是对照的6.57倍。综上可知,无核白鸡心葡萄经过70 mg·L^(-1)GA_(3)+1 mg·L^(-1)CPPU处理后,能显著提高果实品质,经70 mg·L^(-1)GA_(3)+2 mg·L^(-1)CPPU处理后香气物质含量显著提升。

‘阳光玫瑰’葡萄病毒病症状差异及其对品质的影响

针对‘阳光玫瑰’葡萄病毒病普遍发生的情况,检测了田间植株的病毒种类及其对葡萄产量和品质的影响。结果显示,在显症叶片和健康叶片中均检测到葡萄卷叶相关病毒3(GLRaV-3)、葡萄病毒A(GVA)、葡萄病毒B(GVB)和沙地葡萄茎痘病毒(GRSPaV)4种病毒。对重症、轻症和无症植株的产量和果实品质进行分析发现,重症植株的产量显著低于无症和轻症植株。玫瑰香味有关的橙花醇和香叶醇2种香气物质在3类不同症状表现的植株果实中无显著性差异,而重症植株果实中芳樟醇含量显著高于无症和轻症植株果实。针对病毒病对‘阳光玫瑰’生产造成的严重危害,根据生产经验总结出了两种缓解病毒病的方法可用于指导生产。

不同成熟度对红果参果实品质及香气成分的影响

本研究在不同成熟阶段检测了红果参果实的品质和香气成分,以确定最佳采收成熟度。结果表明红果参果实不同成熟度下的外观及营养品质差异明显,随成熟度增加,果皮颜色由绿色转红棕色至紫黑色,果实纵径和果形指数均呈先下降后上升趋势,成熟度Ⅰ的果形指数最大;单果质量、果实硬度和可滴定酸含量均呈先上升后下降趋势,成熟度Ⅳ的单果质量和硬度最大;果实横径、可溶性固形物含量和维生素C含量呈上升趋势,成熟度Ⅴ的可溶性固形物含量和维生素C含量最高。GC-MS分析表明红果参果实不同成熟度下的香气组分及含量差异较大。醇类、萜类和烷烃类是红果参果实主要香气物质类型。其中,反式-2-己烯醇和香叶醇是所有成熟度下共有的主要香气物质,且对不同成熟阶段的果实风味贡献不同,青香、花香和果香则是红果参果实典型香气特征。主成分分析表明成熟度Ⅳ的红果参果实品质综合得分最高。综上所述,红果参果实采收标准为成熟度Ⅲ~Ⅴ(花后140~150 d),采收成熟度Ⅳ(花后145 d)的果实鲜食品质及风味最佳。

不同地区6个猕猴桃品种果实矿质元素含量和香气成分差异分析

研究不同地区(湖南、四川、贵州、浙江)6个猕猴桃品种(金艳、金桃、徐香、翠玉、红阳、东红)果实矿质元素含量和香气成分差异。结果表明:猕猴桃果实8种矿质元素中K、Ca、Mg、P含量较高,Fe、Al、Zn、Mn含量较低;平均矿质元素含量由高到低依次为K>Ca>Mg>P>Fe>Al>Mn>Zn;湖南地区的绿肉品种徐香和翠玉果实Ca、Mg、P含量均高于其他3个地区,而浙江地区的徐香和翠玉果实K、Fe、Al含量均高于其他3个地区;4个地区的翠玉果实Mg、P、Zn含量均明显高于其他5个品种。相关性分析结果表明,Ca含量与Mg、Zn、P含量均存在极显著正相关,Mg含量与Zn、P含量均存在极显著正相关,Fe含量与Zn含量存在显著正相关,Al含量与Mn含量存在显著正相关,Zn含量与P含量存在极显著正相关。4个地区6个猕猴桃品种果实中共检测出29种挥发性物质,其中醛类物质12种、酯类物质7种、醇类物质6种、其他类物质4种,有7种挥发性物质为共有成分,分别为(E)-2-六烯醛、乙醛、戊醛、己醛、(E)-壬烯醛、乙酸乙酯、正己醇,醛类物质含量高于其他种类,其中(E)-2-六烯醛含量最高。

百香果贮藏过程中香气合成前体物质变化及其与香气成分的关系

为阐明采后百香果香气合成前体物质变化及其与香气成分的关系,该文研究了常温(25℃)、低温(6℃)贮藏期间百香果亚油酸、亚麻酸、油酸、氨基酸、葡萄糖、果糖、蔗糖及香气成分的变化规律。结果表明,低温贮藏条件下,亚麻酸、亚油酸、油酸、葡萄糖、果糖含量低于常温组,峰值较常温组分别延迟4、2、6、4 d;赖氨酸、组氨酸、脯氨酸、甲硫氨酸、异亮氨酸、酪氨酸、苯丙氨酸、缬氨酸含量的峰值较常温组分别延迟2、6、8、2、6、8、8、2 d,说明低温条件对亚麻酸、亚油酸、油酸、葡萄糖、果糖、赖氨酸、组氨酸、脯氨酸、甲硫氨酸、异亮氨酸、酪氨酸、苯丙氨酸、缬氨酸具有一定的抑制作用。蔗糖含量在常温贮藏期间呈快速下降趋势(0~14 d降幅为73.21%),而低温贮藏较好维持了蔗糖含量(0~20 d降幅为8.70%)。百香果香气物质以酯类为主,低温贮藏可以维持较高的酯类物质相对含量,低温条件第20天出现峰值(69.27%)、整个贮藏期内保持在54.62%~69.27%。另外,经百香果香气合成前体物质与其香气成分的相关性分析显示,亚油酸、油酸、蔗糖、谷氨酸、异亮氨酸、亮氨酸、酪氨酸、缬氨酸、色氨酸对香气成分有显著的正相关,且主要与酯类、醇类香气物质关系较强。该研究为百香果采后香气品质保持及代谢机制研究提供了参考依据。

不同果实发育时段遮光对红阳猕猴桃果实香气的影响

[目的]探究遮光对猕猴桃发育期间果实香气的影响,为猕猴桃精细栽培管理提供参考。[方法]以猕猴桃红阳为试验材料,从花后20~140 d,以20 d为一个时段将其分为6个时段(时段Ⅰ~时段Ⅵ),每个时段为一组使用套袋进行遮光处理(T1~T6组),T7为全时段遮光,对照(CK)为全时段未遮光。采用顶空固相萃取(HS-SPME)和气相色谱-质谱联用(GC-MS)测定香气,并对T7和对照果实进行转录组测序分析。[结果]在不同遮光处理下,共检测出38种香气物质,包括15种酯类、11种醛类、8种萜烯类和3种醇类。各组香气种类介于19~37种之间,其中T6种类最多,T2和T5最少。总香气含量T4最高,其次为T2和T5。除T4处理外,其他试验组果实酯类含量均显著降低;T4、T5和T6处理组醛类含量与对照无显著差异,其他处理组显著低于对照;T1和T2处理组萜烯类含量与对照无显著差异,T4处理组无累积,其他处理组显著高于对照。醇类物质含量在T6处理果实中显著高于对照,T2和T5处理组无累积,其他处理组低于对照。聚类分析显示,T4处理与对照成分组成最相似。主成分分析显示,T6处理组综合得分最高,其次为T4、T5和T2。转录组分析共发现1248个差异表达基因,T7较对照下调基因788个,上调基因460个。筛选出了15个与香气合成相关的差异表达基因,其中遮光处理降低了T7果实中乙醇脱氢酶(ADH)、丙酮酸转氨酶(AGXT)、天冬氨酸转氨酶(COT1)和糖醇-4-磷酸胞苷酰转移酶(IspD)基因的表达量,升高了焦磷酸脱羧酶(MDV)、醛脱氢酶(ALDH)和苯丙氨酸解氨酶(PAL)基因的表达量。[结论]红阳猕猴桃的各类香气成分具有不同的合成时期,其中时段Ⅵ为酯类合成重要时期;时段Ⅰ-时段Ⅲ对醛类物质合成积累有重要意义;时段Ⅳ为萜烯类物质合成关键时期。遮光抑制了ADH、AGXT和COT1基因的表达,同时上调了MVD和ALDH基因的表达量,是导致遮光果实中萜烯类香气物质含量升高和酯类、醛类、醇类含量下降的可能因素。综合分析表明,T2、T4和T5处理的猕猴桃果实香气含量较高,受遮光影响较小,即时段Ⅱ(40~60DAA)、时段Ⅳ(80~100DAA)和时段Ⅴ(100~120DAA)为适宜遮光时段。结合前人研究,建议从时段Ⅱ到时段Ⅴ(40~120DAA)进行果实遮光,时段Ⅵ去除套袋使果实正常接收光照。研究结果可以为猕猴桃精细管理提供参考。

新梨7号与中香梨杂交后代果实品质及香气成分的分析与评价

为推动梨资源的品质研究和生产上梨新品种的选育和推广,以新梨7号与中香梨及其14个杂交后代为研究材料,对其果实进行了感官评价、品质指标测定和香气成分分析。结果表明,大部分品种(优系)常规品质较好,其中琴岛红尤其好,其单果重和可溶性固形物含量均显著高于新梨7号与中香梨,果面有粉红色盖色,风味甘甜微香;此外,鲁艳、鲁翠、密州红和1-155、1-240、1-243各有特色,常规品质较好;1-452和1-455甜味淡,常规品质较差。在新梨7号与中香梨中共检测到29种香气成分,包括2种酯类、7种醛类、7种醇类、3种酮类、3种烯烃类、2种烷烃类、3种芳烃类和2种其他类物质;在14个品种(优系)中共检测到65种香气成分,包括18种酯类、13种醛类、15种醇类、5种酮类、2种烯烃类、3种烷烃类、4种芳烃类和5种其他类物质;所有品种(优系)中相对含量最高的都是醛类,主要是己醛和2-己醛,酯类相对含量最高的是琴岛红,主要是乙酸乙酯和己酸乙酯,醇类相对含量最高的是1-452,主要是正己醇。综上所述,琴岛红酯类相对含量最高,果实综合品质最佳,鲁艳、鲁翠、密州红和1-155、1-240、1-243综合品质较好。

不同酵母多糖添加条件下早酥梨-美乐低醇复合果酒品质研究

为提高早酥梨-美乐低醇复合果酒的品质,以体积比50∶50复配的早酥梨和美乐葡萄汁为试材,在酒精发酵前分别添加0.25 g/L的酵母细胞壁、水溶性β-葡聚糖和甘露糖蛋白,接种酿酒酵母和非酿酒酵母进行混菌发酵,采用顶空固相微萃取结合气相色谱质谱联用技术(HS-SPME-GC-MS)测定发酵酒样的挥发性香气化合物,结合模糊数学感官评价法分析探讨其对酒体品质的影响。结果表明,3种酵母多糖均对早酥梨-美乐低醇复合果酒酒精发酵动力学和理化指标有一定影响,尤其是添加酵母甘露糖蛋白的复合果酒与空白对照组酒样的CIELab颜色参数差异显著。此外,添加酵母甘露糖蛋白可以提高酒样中萜烯类、酯类、高级醇类物质,尤其是2-甲基丁酸乙酯、丁酸乙酯、乙酸苯乙酯、癸酸乙酯、香茅醇和香叶醇等化合物含量,呈现较为突出的花香、果香属性;模糊数学综合感官评价达到7.400分。综上,外源添加酵母甘露糖蛋白能够有效稳定早酥梨-美乐低醇果酒颜色,改善香气品质。

玫瑰茄石榴复合果酒发酵工艺优化及挥发性香气成分分析

以石榴和玫瑰茄为原料制备玫瑰茄石榴复合果酒,通过单因素试验以及响应面试验优化玫瑰茄石榴复合果酒的发酵工艺,并采用顶空固相微萃取(HS-SPME)-气相色谱质谱联用(GC-MS)技术对其挥发性香气成分进行检测。结果表明,玫瑰茄石榴复合果酒最佳发酵工艺为玫瑰茄添加量1.0%、初始糖度22.0%、酵母接种量0.02%和发酵温度24℃;在此条件下制得的玫瑰茄石榴复合果酒,酒体丰满醇厚,呈紫红色,香味馥郁,风味良好,感官评分为90.98分,酒精度为11.6%vol。玫瑰茄石榴复合果酒共检测出91种挥发性香气成分,其中酯类47种(82.73%)、酸类9种(4.41%)、醇类11种(3.54%)、醚类1种(3.08%)、烷类3种(1.64%)、酮类4种(1.42%)、醛类1种(0.10%)、烯类3种(0.23%)。