高静压杀菌对不同形状果块的黄桃罐头质地的影响

该文在保证黄桃罐头无菌的前提下,研究了高静压杀菌技术对不同形状果块的黄桃罐头质地的影响。首先通过测定不同的高静压条件下黄桃罐头细菌总数、霉菌和酵母数的变化,并结合热杀菌时间,确定出质地研究的杀菌条件为600 MPa/20 min。再将不同形状果块的黄桃罐头在600 MPa下处理20 min后,以90℃,20 min热杀菌的黄桃罐头为对照,通过测定2种杀菌方式前后及低温和常温贮藏过程中不同形状果块的黄桃罐头果肉硬度、汤汁黏度及果肉细胞结构的变化,得出了高静压杀菌结合低温贮藏技术在罐头质地保持方面的优越性。研究结果表明：高静压杀菌的3种形状果块的罐头果肉硬度分别为热杀菌的2.8倍（“条状”）,3.1倍（“丁状”）和2.9倍（“块状”）,高静压杀菌后“块状”黄桃罐头汤汁黏度较小,果肉细胞结构较完整;且高静压杀菌后低温贮藏（4±1）℃的黄桃罐头质地品质均优于常温贮藏（25±1）℃。在3种形状果块的黄桃罐头中,无论是低温贮藏（4±1）℃还是常温贮藏（25±1）℃,“块状”的黄桃罐头其果肉硬度最大,汤汁黏度最小,细胞结构破坏程度最小,是最适宜的黄桃罐头加工形状。研究结果为高静压技术取代热杀菌应用于黄桃罐头的加工提供了理论依据。     

壳聚糖蜂蜡复合膜对冷冻黄桃片生理和品质的影响（英）

为了解决延长冷冻水果保质期问题,研究了壳聚糖和壳聚糖蜂蜡复合膜对冷冻黄桃片生理和品质的影响。分析了样品多酚氧化酶（PPO）、膜透性、pH值、硬度、色泽、汁液流失、维生素C和可溶性固形物含量在–20℃下60 d贮藏过程中的变化。结果表明：与对照相比,壳聚糖或壳聚糖蜂蜡复合膜抑制了PPO活性和膜透性的增加,降低了果肉褐变、汁液流失和维生素C损失。研究表明,壳聚糖-蜂蜡复合膜比单独壳聚糖更有助于减少冷冻黄桃片的汁液流失、硬度和维生素C损失,从而更好地保持了冷冻黄桃片的生理和品质。     

四种特色品种小苹果采后生理及耐贮性比较

探究四个特色小苹果品种采后生理品质及质地变化规律,为制定特色小苹果最佳贮藏货架期提供科学依据和理论参考。该研究以‘龙丰’‘金红’‘塞外红’‘乙女’4个特色小苹果为试验材料,在常温（20±1）℃条件下放置14 d,测定果实品质指标（硬度、可溶性固形物、可滴定酸、维生素C、乙醇和乙醛含量、乙烯释放量）以及穿刺参数（果肉硬度、果肉做功、破裂力、屈服力）和质地多面分析（Texture Profile Analysis）参数（脆裂性、内聚性、弹性、胶黏性、咀嚼性）等指标的动态变化,并对以上指标进行综合评分。结果表明不同品种小苹果果实的硬度、可滴定酸、维生素C含量随贮藏时间不断下降,可溶性固形物含量变化较小,其中‘龙丰’果实硬度、维生素C含量和可滴定酸含量下降均较低,常温贮藏性能优良;‘塞外红’刚采收时品质高,但在常温贮藏期间,硬度下降最大,品质下降较快,常温贮藏性能较差。‘金红’和‘乙女’硬度、维生素C含量下降也较大,且‘金红’和‘乙女’果实的乙醇、乙醛含量出现峰值,而其他小苹果的乙醇、乙醛含量均大体呈缓慢上升的趋势。不同品种小苹果果实的乙烯释放量呈现先增加后下降的趋势,均出现一个呼吸高峰,‘龙...     

薄膜气调包装对枇杷果实冷藏期间呼吸和品质性状的影响

通过对呼吸速率、总可溶性固形物、可滴定酸、pH值、果肉硬度、维生素C、失重率和品质及感官指标的变化进行分析，研究了薄膜气调包装对枇杷(Eriobotrya japonica Lindl.，品种：解放钟）果实冷藏期间呼吸和品质特性的影响，气调包装用的薄膜为低密度聚乙烯薄膜(LDPE，厚度20 μm)，以打孔的低密度聚乙烯薄膜包装为对照。结果表明，低密度聚乙烯薄膜包装枇杷果实后，3～4 d后可维持一个相对稳定的适宜枇杷贮藏的O₂和CO₂的气体浓度，即CO₂(4.8±0.67)%，O₂(11.5±0.85)%；薄膜气调包装结合低温可明显地降低枇杷果实的呼吸速率；薄膜气调包装可以最大限度地减小冷藏期间的枇杷果实的失重率、果肉硬度、维生素C、总可溶性固形物、可滴定酸和固酸比的变化，维持枇杷的新鲜品质，延长货架期。因此，低密度聚乙烯薄膜（LDPE，厚度20 μm）气调包装可用于枇杷的贮藏保鲜。     

速溶龙眼粉加工的酶解提取与喷雾干燥工艺优化

为了建立速溶龙眼粉的加工技术,运用均匀设计法优化了龙眼干中可溶性固形物酶解提取工艺条件,采用响应面分析法优化了其提取液的喷雾干燥工艺条件,结果表明：以龙眼果肉干（含水率13.62 %）为原料,用果胶酶和纤维素酶同时酶解提取,pH3.1,酶解温度52℃,酶解时间160 min,果胶酶用量0.6‰,纤维素酶用量0.15‰,龙眼干中可溶性固形物得率达85.26%;当酶解提取液中可溶性固形物浓度达25%时,采用喷雾干燥法,选取麦芽糊精为助干剂,其与可溶性固形物含量比0.8：1,热风温度185℃,热风流量26.47 m3/h,入料流量0.20 L/h,在此条件下,龙眼粉得率为48.58%,含水率＜5%,水溶性良好,色泽风味佳。由此说明,以龙眼果肉干为原料采取酶解提取与喷雾干燥相结合的工艺可有效加工速溶龙眼粉。     

高压CO2处理保持非还原桃汁的品质

采用高压CO2（high pressure carbon dioxide,HPCD）处理非还原（not from concentrate,NFC）桃汁,分析HPCD处理后NFC桃汁pH值、可溶性固形物、色泽、酚类和抗氧化活性等品质特性的变化,讨论HPCD对NFC桃汁品质的影响。NFC桃汁的pH值和可溶性固形物含量分别为3.82和10.3°Brix,HPCD处理后没有显著变化;HPCD处理后NFC桃汁颜色变暗,色泽参数L、a、b值显著降低,对应的褐变度提高;NFC桃汁中的主要酚类物质有儿茶素、绿原酸、新绿原酸和阿魏酸,HPCD处理后酚类物质含量没有显著变化;采用FRAP和1,1-二苯基苦基苯肼（1,1-diphenyl-picrylhydrazyl,DPPH）清除率2种方法测定NFC桃汁的抗氧化活性,2种方法的测定结果都表明 HPCD 处理后 NFC 桃汁的抗氧化活性提高,并且随着处理时间的延长而逐渐提高。以上结果表明HPCD能较好的保持NFC桃汁的品质,为非热加工技术应用于果蔬加工提供理论基础。     

施加外源乙烯时机对MA贮藏桃果实品质的影响

为了改善桃果实低温贮藏期间品质降低情况,探讨了大久保桃果实在低温条件下自发气调（MA）贮藏期间,不同时间（0、15和30 d）加入外源乙烯处理（50～80 μL/L）的效果,测定在贮藏期间及20℃下回温3 d后果实的硬度、可溶性固形物含量（SSC）、腐烂指数、可滴定酸（TA）、总糖、维生素C（Vc）的含量。结果表明,在0℃下MA贮藏15、30 d加入外源乙烯处理能较好地保持果实的质地、可溶性固形物含量,降低桃果实的腐烂率。同时15 d时加入外源乙烯处理还能较好地保持总糖和Vc含量,但对可滴定酸的影响与其他MA处理差异不显著。研究表明,MA贮藏大久保桃果实在第15天进行外源乙烯处理效果最好。     

不同采收期对苹果常温贮藏品质和衰老的影响

以通辽地区的‘塞外红’苹果为试材,研究了生长发育期在116~134 d内的3个采收期果实常温(20±1)℃贮藏品质和软化衰老的变化,以确定‘塞外红’苹果的最佳采收成熟度和适宜采收期。结果表明,随着采收期的推迟,果实硬度逐渐降低,可溶性固形物和可滴定酸含量逐渐升高,种子颜色逐渐变褐到全褐。随着贮藏时间的延长,3个采收期果实的硬度、维生素C和可滴定酸含量均逐渐下降,从采收到贮藏结束,采期Ⅰ果实的硬度一直保持最高,采期Ⅱ保持了果实较高的维生素C和可滴定酸含量,采期Ⅲ果实的可溶性固形物含量SSC一直保持最高。结果还表明,采期Ⅰ的果实常温贮藏期间虽然具有较高的原果胶和纤维素含量,而且抑制了可溶性果胶的生成,推迟了果实多聚半乳糖醛酸酶PG活性和纤维素酶活性高峰,延缓了果实呼吸高峰和乙烯释放高峰的出现时间,但果实的外观色泽、口感和风味相对较差;采期Ⅲ的果实丙二醛和乙醇含量积累较多,果实衰老快。综合分析,采期Ⅱ的‘塞外红’苹果具有良好的内在品质、外观色泽和贮运性能。因此,建议通辽地区‘塞外红’苹果的采收期以9月5—10日为宜(可适当晚采1~2 d),采收成熟度参考标准为:果实生长发育天数123~128 d、果肉硬度11.0~11.5 kg/cm^2、SSC≥16.5%、种子的颜色3/4左右变褐、淀粉染色为4.5级左右。     

不同气体成分贮藏对大久保桃果实品质的影响

该文研究了大久保桃在不同气体成分下贮藏60 d以及出库后在20℃下货架期3 d后果实硬度、褐变指数、可溶性固形物含量、pH值、膜透性、出汁率和感官品质的变化。结果表明,1%的O₂对桃果实产生伤害,表现为表面色泽非正常变化、桃固有风味丧失并产生严重异味;(5～10)%O₂、(5～10)%CO₂气体成分能够在60 d的贮藏期内保持桃果实的品质,尤其是10%O₂＋10%CO₂处理较好地保持了果实的风味、质地和色泽,出库后果肉不褐变。与冷藏对照相比,气调贮藏能有效地延缓果实软化,抑制pH值和出汁率的升高,但对可溶性固形物的影响不大;在相同O₂浓度下,随CO₂浓度升高(<10%),果实在货架期期间的软化程度、褐变指数下降幅度、pH值上升程度和膜透性增加幅度均增大,表明果实能够进行正常后熟。本研究推荐的大久保桃果实气调贮藏的适宜气体指标是10%O₂＋10%CO₂。     

不同保鲜膜包装对蜜柚冷藏效果和货架品质的影响

为冷藏蜜柚选择较适宜的单果包装保鲜膜,提高保鲜效果,以微孔保鲜膜和不同厚度的聚乙烯（PE）保鲜膜对蜜柚（Citrus grandis (L.) Osbeck.cv.Miyou）进行单果包装,在5～6℃下冷藏4个月后在货架期条件下（约20℃）放置15 d。在不同阶段分别测定各包装袋内氧气和二氧化碳体积分数,以及果实质量损失率、果肉硬度、果肉营养物质（可溶性固形物、可滴定酸和维生素C）含量、乙醇含量,并进行感官评价。微孔膜包装袋内具有较高的氧气体积分数（20%）和较低的二氧化碳体积分数（0.7%～1.4%）。在整个冷藏期和货架期内,微孔膜包装的蜜柚具有较高的质量损失率,但其营养物质含量较高、果肉硬度较低,而且乙醇含量最低,风味也最佳。15 d货架期后,各处理的蜜柚的质量损失率和乙醇含量急剧升高,可溶性固形物、可滴定酸急剧下降。微孔膜包装对蜜柚的贮藏和保持货架期品质具有良好的效果。     

Effects of thermal and high hydrostatic pressure processing and storage on the content of polyphenols and some quality attributes of fruit smoothies

The aim of the present study was the evaluation of high hydrostatic pressure (HHP) processing on the levels of polyphenolic compounds and selected quality attributes of fruit smoothies compared to fresh and mild conventional pasteurization processing. Fruit smoothie samples were thermally (P(70) > 10 min) or HHP processed (450 MPa/1, 3, or 5 min/20 °C) (HHP1, HHP3, and HHP5, respectively). The polyphenolic content, color difference (ΔE), sensory acceptability, and rheological (G'; G'; G*) properties of the smoothies were assessed over a storage period of 30 days at 4 °C. Processing had a significant effect (p < 0.001) on the levels of polyphenolic compounds in smoothies. However, this effect was not consistent for all compound types. HHP processed samples (HHP1 and HHP3) had higher (p < 0.001) levels of phenolic compounds, for example, procyanidin B1 and hesperidin, than HHP5 samples. Levels of flavanones and hydroxycinnamic acid compounds decreased (p < 0.001) after 30 days of storage at 2-4 °C). Decreases were particularly notable between days 10 and 20 (hesperidin) and days 20 and 30 (chlorogenic acid) (p < 0.001). There was a wide variation in ΔE values recorded over the 30 day storage period (p < 0.001), with fresh and thermally processed smoothies exhibiting lower color change than their HHP counterparts (p < 0.001). No effect was observed for the type of process on complex modulus (G*) data, but all smoothies became less rigid during the storage period (p < 0.001). Despite minor product deterioration during storage (p < 0.001), sensory acceptability scores showed no preference for either fresh or processed (thermal/HHP) smoothies, which were deemed acceptable (>3) by panelists.     

超高压处理对绵羊肉嫩化机理的研究

实验研究了超高压处理条件下绵羊肌肉感官特性、显微结构、钙激活酶(Calpains)粗酶活性和剪切力值的变化，并探讨了超高压处理对绵羊肌肉的嫩化机理。超高压处理后绵羊肌肉的感官特性发生变化，随处理压力升高，绵羊肌肉颜色变淡，出现轻微的类似蒸煮的成熟风味。在压力为400 MPa，保压时间为10 min的处理条件下，绵羊肌肉显微组织结构变化明显：肌节收缩，肌原纤维的Z线断裂，M线降解，I带变白。当压力水平在100～400 MPa范围变动时，随压力升高，Calpains粗酶活性显著下降(P＜0.01)；当压力达到400 MPa时，Calpains粗酶活性几乎失活。超高压处理后绵羊肉的剪切力值显著下降(P＜0.05)。实验结果表明，超高压处理促进了绵羊肉的嫩化。     

Storage temperature effects on blood orange fruit quality.

Orange fruits of two blood varieties (Tarocco and Moro) were stored at 8 degrees C and 22 degrees C for 85 and 106 days, respectively, and analyzed periodically for standard quality parameters (total soluble solids, total acidity, ascorbic acid, juice yield, and rind color) and sensory influencing parameters (anthocyanins, and total and free hydroxycinnamic acids). A decrease in total acidity (TA) and juice yield during storage was observed for both cultivars; total soluble solids (TSS) increased only in the Tarocco oranges stored at 8 degrees C. The increase in TSS observed for Tarocco and the simultaneous decrease in TA in both varieties resulted in a higher maturity index (TSS/TA) for the two cultivars. No loss of vitamin C was noted in Tarocco orange at either temperature, whereas a sharp reduction in vitamin C occurred in the first 50 days of storage for Moro. A significant increase in anthocyanin content was observed in Tarocco and Moro stored at 8 degrees C. Overlong storage induces extensive hydrolysis of hydroxycinnamic derivatives to free acids in Moro orange and these, in turn, could develop the malodorous vinylphenols.     

Ripening attributes of new passion fruit line featuring seasonal non-climacteric behavior

The passion fruit hybrid cultivar 'Passion Dream' (PD) produces two cycles of fruiting per year, in the summer and winter. Self-hybridization of PD created various lines, including 'Ripens during Summer' (RS), which lacks the ability to abscise during winter, suggesting a seasonal nonclimacteric behavior. The two lines were characterized by several quality traits: PD produced high ethylene levels in both seasons; RS produced significantly less ethylene during summer and almost none during winter. The ratio of total soluble solids to titratable acidity (TSS/TA), and aroma volatiles production, as determined by solid-phase microextraction/gas chromatograph-mass spectrometer (SPME/GC-MS) techniques, and taste indices were highest in PD summer fruits and lowest in RS winter fruits. Peel color in PD was affected by environmental and storage temperatures, whereas RS fruits always showed a strong purple color. The present findings suggest that ethylene production levels in passion fruit greatly influence various ripening processes, including acid degradation, increased TSS/TA ratio, accumulation of aroma volatiles, and tastiness.     

美拉德反应制备鸡肉风味基料的工艺条件优化

为探究美拉德反应条件对鸡肉风味调味料品质的影响,本试验以鸡胸肉蛋白酶解液为研究对象,采用模糊数学感官评价和气相色谱-离子迁移谱联用技术(GC-IMS)研究还原糖添加量、反应温度、反应时间和pH值4个热反应条件对鸡肉风味基料感官品质和挥发性有机物(VOCs)的影响。结果表明,添加3%木糖的鸡胸肉蛋白酶解液(pH值7),在101.1℃下反应86 min可获得一种感官性状好、风味佳的鸡肉风味基料,且该制品VOCs丰度高,与市售罐头鸡汤风味相似度较高。本研究为低值鸡肉制品的深度开发提供了一定的理论参考。     

Effect of Drying Treatment Conditions on Sensory Profile of Germinated Oat

Germination and subsequent drying of oat produced significantly different sensory profiles depending on processing parameters such as drying speed and temperature profile. The most salient sensory attributes for processed oat were roasted odor and flavor, sweet taste, intense odor, intense aftertaste, and hard, crisp, brittle texture (P < 0.05). High temperatures (>85°C) were necessary to produce these sensory attributes, and quick drying after germination resulted in higher levels of intensity of favorable sensory attributes. The total amount of volatile compounds was higher in native (ungerminated) oat than in processed oat. During germination, and particularly during the drying treatment, the profile of volatile compounds changed. The most abundant volatile compounds responsible for odor were dimethyl sulfide, hexanal, pentanal, and iso butanal. The relative amount of dimethyl sulfide increased as a function of temperature in drying, whereas hexanal, pentanal, and isobutanal disappeared during heating, as did several other small ketones, alcohols, and esters. The germinated oat dried at high temperatures (65–93°C and 65–85°C) was perceived as being roasted, sweet, and nutty. Sensory and instrumental profile analyses of selected volatile compounds using partial least squares (PLS) regression techniques showed that these sensory attributes were clearly related to dimethyl sulfides and isobutanol. A moist and earthy odor was related to cymene, limonene, and isobutanal. Phenolic compounds significantly influenced oat flavor, whereas lipids had a negligible effect.     

Kinetics of freshly squeezed orange juice quality changes during ozone processing

Freshly squeezed orange juice samples were ozonated with control variables of gas flow rate (0-0.25 L min (-1)), ozone concentration (0.6-10.0%w/w), and treatment time (0-10 min). Effects of ozone processing variables on orange juice quality parameters of pH, degrees Brix, titratable acidity (TA), cloud value, nonenzymatic browning (NEB), color values ( L*, a*, and b*), and ascorbic acid content were determined. No significant changes in pH, degrees Brix, TA, cloud value, and NEB ( p < 0.05) were found. L*, a*, and b* color values were significantly affected by gas flow rate, ozone concentration, and treatment time. The changes in lightness ( L*) values and total color difference (TCD) values were fitted well to zero-order kinetics, whereas a*, b*, and ascorbic acid degradation followed first-order kinetics. The rate constants for a*, b*, and TCD were linearly correlated with ozone concentration ( R (2) = 0.88-0.99), whereas the rate constants for L* and ascorbic acid were exponentially correlated ( R (2) = 0.94-0.98).     

Phytochemical stability and color retention of copigmented and processed muscadine grape juice

Muscadine (Vitis rotundifolia) grape juice was assessed for color and phytochemical stability as influenced by anthocyanin copigmentation with a water-soluble rosemary extract, fortification with ascorbic acid, and processing by heat or high hydrostatic pressure (HHP). The roles of polyphenolic cofactors in the presence and in the absence of ascorbic acid were assessed as a means to improve the overall processing stability of the juice. Addition of rosemary extract from 0 to 0.4% (v/v) readily formed copigment complexes with anthocyanins and resulted in concentration-dependent hyperchromic shifts from 10 to 27% that corresponded to increased antioxidant activity. The presence of ascorbic acid was generally detrimental to juice quality, especially in the presence of rosemary extract, and resulted in overall anthocyanin, ascorbic acid, and antioxidant activity losses. Although thermal and high-pressure processing methods were detrimental to juice quality, HHP resulted in greater losses after processing, likely due to action from residual oxidase enzymes. Although physicochemical attributes were enhanced by copigmentation with rosemary extract, methods to inactivate residual enzymes should be addressed prior to copigmentation to prevent degradation of anthocyanins in the presence of ascorbic acid.     

Thermal Behavior of Whey Protein Concentrate Treated by Heat and High Hydrostatic Pressure and Its Functionality in Wheat Dough

Solutions of commercial whey protein concentrate (CWPC, 82% protein) at 5, 10, 20, and 30% were treated with heat at 90°C or with high hydrostatic pressure (HHP) at 85 Kpsi (Kpsi = 6.9 MPa) for 30 min. A CWPC solution at 20% also was treated for 30 min with heat at 60, 70, 80, and 90°C and HHP at 20, 40, 60, and 85 Kpsi. Differential scanning calorimetry (DSC) thermograms of untreated CWPC (82% protein) showed two endothermic peaks: the first had an enthalpy value of 4.72 J/g between 57 and 86°C, and the second had an enthalpy value of 2.36 J/g between 120 and 143°C. The first enthalpy peak disappeared after heat treatment at 90°C for 30 min and HHP treatment at 85 Kpsi for 30 min, whereas the second peak remained, independent of concentration. The results indicate that HHP treatment caused changes in the protein of CWPC, and the changes were comparable to those caused by high-temperature treatment. Differential scanning calorimetric analysis of CWPC, heat treated at 60°C, showed an enthalpy value for the first peak of 3.34 J/g, ≈1.41 J/g lower than for untreated CWPC. A sharp decrease in enthalpy to 0.52 J/g for the first peak was observed at 70°C, with complete disappearance at 80°C. The second enthalpy peak was present at all temperatures studied, with significantly higher enthalpy values at 90°C than at lower temperatures. DSC value for the first enthalpy peak for CWPC decreased significantly as HHP treatment level increased from 20 to 85 Kpsi. CWPC treated with HHP at 20 Kpsi had an enthalpy value for the first peak that was ≈2 J/g higher than for the untreated sample. It can be postulated that low HHP treatment of 20% of CWPC solution for 30 min promotes the formation of covalent or noncovalent cross-links and strong protein-protein interactions, hence the higher enthalpy values. Scanning electron micrographs showed that spray-dried, untreated CWPC was a globular form, whereas heat- and HHP-treated CWPC was a solid glasslike, porous or spongy form. Incorporation of 10% untreated CWPC into wheat flours decreased mixograph water absorption, extended mixing time, and caused rapid breakdown of gluten after optimum dough development. Incorporation of 10% heat- or HHP-treated CWPC significantly increased mixograph water absorption and extended mixing time compared to the control but decreased mixing time compared to dough fortified by untreated CWPC. Mixing tolerance of dough was restored by both heat- and HHP-treated CWPC.