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以酱香型大曲为研究对象,研究大曲在贮存过程中水分含量、微生物菌落总数、霉菌及酵母菌数量的变化,以及发酵力、液化力、糖化力、酯化力和酒化力等生化性质的变化。结果表明,酱香型大曲贮存初期的霉菌数量、液化力、糖化力及酯化力含量都较低,在前4个月的贮存过程中这四个指标均呈先升后降的变化趋势,5~8个月时变化趋于稳定;大曲的水分含量、菌落总数、酵母菌数量、发酵力和酒化力在贮存的前4个月明显呈下降趋势,贮存4个月后在相对小的范围内波动。通过对大曲贮存中水分、菌落总数、霉菌数量、酵母菌数量、发酵力、液化力、糖化力、酯化力及酒化力等各指标间进行相关性分析,其中60%以上的指标间达到显著、极显著关联。酱香型大曲贮存5~6个月时生化性能趋于稳定,用于白酒生产有利于稳定基酒的产量和质量,最适宜于酱香型白酒的生产。 相似文献
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目的:本研究分析了酱香型白酒高温大曲在储存过程中(0~150 d)的理化特性和微生物的变化过程,以期了解大曲的老化成熟规律。方法:该研究基于传统可培养方法和高通量测序技术分析大曲在储存过程中微生物群落结构演替规律,结合相关性分析理化因子和微生物之间的关系。结果:储存过程中的可培养微生物的数量呈现先增加后下降的趋势;温度和糖化力指标呈先上升后下降的趋势,水分、酸度随着存储时间的增加呈现下降的趋势。储存过程中的主要优势细菌属为Kroppenstedtia、Lactobacillus、Staphylococcus、Enterobacter;主要优势真菌属为Thermomyces、Trichomonascus、Byssochlamys。微生物群落与理化指标间存在复杂的作用关系,Bacillus、Kroppenstedtia、Aspergillus、Trichomonascus与温度呈正相关关系;Byssochlamys、Dipodascus与温度、水分、酸度、液化力呈正相关关系;Thermomyces与温度、水分、酸度呈负相关关系。结论:本研究揭示了酱香型高温大曲在储存过程中微生物群落组成情况... 相似文献
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以不同贮存期的白酒高温大曲为研究对象,对其不同部位的微生物种群数量及其理化指标进行分析。结果表明,高温大曲经过120 d贮存后曲皮和曲心中的微生物总数均有显著增加,微生物群落结构亦有明显变化。贮存30 d时,曲皮中优势微生物为芽孢杆菌属(Bacillus)、不动杆菌属(Acinetobacter)、嗜热子囊菌属(Thermoascus)、嗜热真菌属(Thermomyces),曲心中优势微生物为高温放线菌属(Thermoactinomyces)、芽孢杆菌属(Bacillus)、嗜热子囊菌属(Thermoascus);贮存120 d时,芽孢杆菌属(Bacillus)、根毛霉属(Rhizomucor)在曲皮和曲心中均占优势。随着贮存时间进行,大曲还原糖含量逐渐增加,水分逐渐降低。大曲中不同部位微生物的变化与其理化性质存在对应关系。微小根毛霉(Rhizomucor pusillus)的变化与大曲中还原糖呈正相关,与水分呈负相关。芽孢杆菌属(Bacillus)、高温放线菌属(Thermoactinomyces)和嗜热子囊菌属(Thermoascus)的变化与大曲中水分呈正相关。 相似文献
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介绍了大曲在贮存过程中感官质量和理化指标变化情况。大曲在贮存过程中降幅最大的是发酵力,而大曲发酵力的高低对入窖米查醅的发酵质量起着决定性的作用,如果用刚出房的新曲或贮存时间较短的大曲与陈曲混合来提升大曲的发酵力,会增加酒体的刺激感和酒体杂味,造成酒体口感质量的下降;大曲贮存时间以不低于6个月为宜。 相似文献
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《食品与发酵工业》2017,(4):1-6
通过对不同贮存时期大曲的微生物群落结构的分析,进一步阐述了大曲的贮存过程的必要性。采用MiSeq高通量测序方法,鉴定出原核微生物119个属。其3种大曲相对丰度靠前的优势菌属主要为乳酸菌属、芽孢杆菌属、明串珠菌属、魏斯氏菌属、链霉菌属、短杆菌属等。随着贮存时间的推移,3种大曲的物种多样性都处于上升趋势。在各个阶段高温曲的物种丰度和多样性都高于清茬曲和红心曲,说明高温曲的制曲工艺使得微生物生长更活跃。分析3种大曲中链霉菌与土味素的含量变化趋势,在贮存3个月时,两者的含量相对较低。因此,从异味控制的角度来看,大曲贮存3个月左右的时间更利于白酒风味的形成。 相似文献
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为探究贮存时间对中高温大曲质量的影响,并进一步选择较佳贮存时间。该研究对秋季安曲的0~120 d之间共5个贮存时间点的成品大曲样本的理化生化指标值、感官评分进行单因素方差分析,并利用顶空固相微萃取结合气相色谱-质谱联用技术(headspace-solid phase micro extraction-GC-MS,HS-SPME-GC-MS)及主成分分析探究贮存时间对大曲风味物质的影响。结果表明,贮存0 d与60 d成品大曲之间水分含量差异显著;贮存0 d与30 d成品大曲之间酒化力值差异显著,其余时间点的大曲样本理化生化指标值、感官评分没有显著性变化。5个贮存时间大曲样本中有31种共有风味物质,且均以酯类物质为主,其质量占比为72.70%~85.04%。随着贮存时间的延长,大曲的风味物质种类数和含量整体呈下降趋势,其中,乙酸戊酯、乙酸乙酯、2,3,5,6-四甲基吡嗪等39种风味物质含量在贮存30 d后减少;十八酸乙酯和2,3,5,6-四甲基吡嗪在贮存120 d后质量百分比分别减少了82.61%、81.25%。贮存期间大曲质量的变化可能与水分和温度等环境因素、以及物质挥发、物质氧化分解、... 相似文献
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采用高通量测序技术对中温和高温大曲及其曲房空气细菌群落结构进行研究,同时结合环境因素和大曲细菌群落组成,初步验证环境因素对大曲微生物群落的相关性。高通量测序结果表明:从中温大曲及空气得到33细菌属,其细菌种类数与发酵温度变化呈相反趋势;从高温大曲及空气得到31个细菌属,其细菌种类数在整个发酵过程呈减少趋势;主成分分析发现,中温大曲及曲房空气细菌群落组成在发酵前期基本相似,高温大曲细菌群落组成在整个发酵过程都比较相似,与空气细菌群落组成在发酵前期较为相似。冗余分析显示,淀粉、水分、酸度、大曲品温等6个因素对大曲群落物种分布的解释率为57.41%,经Monte Carlo置换检验发现,淀粉含量、水分、酸度是影响大曲细菌群落组成的主要因素。本研究初步揭示了大曲发酵过程曲和空气的细菌群落动态变化规律和相关性,为今后大曲生产和研究提供了重要参考。 相似文献
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酱香型白酒生产用大曲在10、20、30℃的温度下贮存,研究贮存期间大曲的曲虫取食量、水分含量、酸度、淀粉含量、发酵力、液化力、糖化力、酯化力、酒化力与微生物菌落总数、酵母菌、霉菌总数等的变化,结合大曲颜色、气味及气相色谱-质谱(GC/MS)分析,探讨贮存温度对酱香型大曲品质的影响。结果表明:将贮存温度控制在20℃左右,能有效降低酱香型大曲的贮存损耗,大曲的淀粉含量损失小,符合《DB 52/T 871-2014酱香型白酒酿酒用大曲》要求的程度高,生化性质稳定,有利于酱香物质的形成,减少曲虫活动带来的不良气味,并保持酱香型大曲的特征。 相似文献
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大曲的质量对白酒的产量和质量起决定性作用。对赊店老酒股份有限公司提供的同一曲房放置的贮存6个月的浓香型中高温优级、普级和劣级的大曲进行比较研究,通过对感官特征、理化指标和微生物总数的检测,全面分析浓香型中高温白酒大曲的质量差异。结果表明:优级大曲中细菌、霉菌、酵母菌总数均显著高于普级和劣级大曲,劣级大曲中微生物总数最少,且不同曲样间微生物总数差异显著(P<0.05);理化指标中,优级大曲相对于普级、劣级大曲,其水分、酸度、糖化力、液化力、发酵力、氨基酸态氮都偏高,而淀粉含量偏低,同时在水分含量和淀粉含量中不同曲样的差异不显著(P>0.05),其它理化指标差异均显著(P<0.05)。说明优级大曲仍可作为优质白酒的糖化发酵剂,而劣级大曲已不能再继续使用。 相似文献
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该研究利用Illumina Miseq高通量测序技术分析不同储藏期赊店老酒浓香型白酒大曲的微生物多样性。结果表明,从3个储存期的大曲样品中共检测到26个细菌属和13个真菌属,其中共有优势细菌属为乳球菌属(Lactococcus)、肠杆菌属(Enterobacter)、乳杆菌属(Lactobacillus)、魏斯氏菌属(Weissella);共有优势真菌属为复膜孢酵母属(Saccharomycopsis)、嗜热子囊菌属(Thermoascus)、毕赤酵母属(Pichia)、曲霉菌属(Aspergillus)、耐碱酵母属(Galactomyces)。不同储存期大曲样品群落组成相似,但其优势菌群的相对丰度差异明显。从微生物的菌属特性、平衡角度分析,储存期为6月的大曲更适合投入白酒生产。此外,首次从浓香型白酒大曲中发现耐碱酵母属(Galactomyces)、Arachniotus、norank_c_Cyanobacteria、Escherichia-Shigella、土孢杆菌属(Terrisporobacter)、norank_f_Bacteroi- dales_S24-7_group、Ruminococcaceae_UCG-005和Rikenellaceae_RC9_gut_group。 相似文献
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Maize plays a key role in household food security in southwestern Ethiopia, but its benefits have been negated by high post-harvest losses. Previous loss assessment and management studies have focused mainly on quantity losses. This study was therefore designed to assess nutritional quality losses of stored maize along the supply chain in Jimma Zone, southwestern Ethiopia. Three districts representing potential maize producers and different agro-ecological regimes for maize production were selected for analyses. Sample collection started at harvest and continued for six months at two-month intervals from 21 selected actors along the supply chain. The experiment was conducted for two seasons, and a total of 72 samples were collected during each season. Both nutritional and anti-nutritional analyses were carried out following the international standards of the Association of Official Analytical Chemists. Data were analysed using SAS software (version 9.2) using a general linear model (GLM). The result revealed that moisture content significantly decreases (P < 0.05) as storage duration increases under different actors and agro-ecological conditions. But, showed increment during the final months under farmers' storage conditions. In addition, moisture content at the loading stage was not optimal for safe storage. Crude protein, crude fat, carbohydrate, and calorific value content significantly decreased (P < 0.05) as the storage duration increased, but fibre, ash, and major mineral (Ca, Zn, and Fe) content increased significantly over the storage period. Phytate and tannin content varied with storage duration and agro-ecological setting. Storing maize under traditional conditions along the supply chain resulted in substantial quality losses. This has great implications for nutrition insecurity and unrecognized undernourishment in the society. Additionally, substantial increases in fibre content above the optimum have important effects on nutrient absorption. There is thus a need to develop and disseminate appropriate storage technologies that minimize quality loss in maize stores. 相似文献
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Mehmet Murat Karaoğlu Halis Gürbüz Kotancilar Kamil Emre Gerçekaslan 《International Journal of Food Science & Technology》2008,43(10):1778-1785
The effects of frozen storage and initial baking time of par‐baked cake on baking loss, volume, moisture, colour and textural properties of cake obtained after thawing and rebaking were investigated. Cakes, par‐baked at 175 °C for 15, 20 and 25 min, were stored at ?18 °C for 3, 6 and 9 months. After storage, par‐baked cakes were thawed and rebaked at 175 °C for 10, 15 and 20 min. Baking loss, moisture content, L and +b colour values, firmness, gumminess and chewiness of the resulting full‐baked cakes were significantly affected by both par‐baking and frozen storage time, while specific volume, cohesiveness, springiness and resilience values were significantly affected by frozen storage time. The increase in the time of frozen storage of the par‐baked cake leads to a decrease in the quality of the rebaked cake, namely an increase of baking loss and cake crumb firmness, and a loss in the moisture content and specific volume. Moisture of cake crumb, L and +b colour values, firmness, gumminess and chewiness significantly increased as the par‐baking time increased. However, regarding baking loss, specific volume, moisture content and textural properties, 3‐month intermediate storage at ?18 °C and 20‐min initial baking time gave the best result among the cakes produced by using the two‐step baking procedure. 相似文献