共查询到17条相似文献,搜索用时 78 毫秒
1.
以大叶麻竹笋为原料,研究其在4种不同腌制方式过程中蛋白质、可溶性糖、粗纤维、VC和矿物质等营养成分含量的变化。结果表明:大叶麻竹笋在腌制过程中蛋白质、可溶性糖、粗纤维、VC和矿物质等营养成分的含量发生了明显变化。腌制90d后,发酵性腌制和非发酵性腌制蛋白质含量分别降低了87.01%和77.36%,可溶性糖的含量分别下降了98.17%和86.63%,VC的含量分别下降了71.29%和90.87%,粗纤维的含量分别下降了39.27%和45.01%。腌制样品中Ca和K的含量比鲜样品分别增加了26.00%和3.15%;P、Fe和Zn的含量分别降低了94.31%、62.53%和29.17%。 相似文献
2.
3.
4.
5.
6.
7.
《食品与发酵工业》2019,(18)
为了研究麻竹笋腌制加工过程中风味物质的变化,以麻竹笋为原料,对其腌制过程中的挥发性成分、有机酸及氨基酸的含量变化进行分析。结果表明,在63 d的腌制过程中共检测到74种挥发性风味成分、8种有机酸及17种氨基酸。其中,苯酚类、酮类和烷烃类的相对含量随腌制时间的延长逐渐增加,醛类、烯烃类和其他类物质的相对含量则逐渐下降,醇类和酯类的相对含量先升高后降低。相对含量较高的挥发性成分有4-甲基苯酚、2-戊基呋喃、己醛、4-羟基苯甲醛、芳樟醇等。乳酸、乙酸和丙酸在腌制后含量升高,柠檬酸等其余5种有机酸在腌制后含量显著下降,大部分氨基酸在腌制后含量都有显著降低。该结果将为麻竹笋腌制过程中风味品质的评价和控制提供理论依据。 相似文献
8.
为了评价腌制加工对麻竹笋氨基酸含量的影响,以大叶麻竹笋为实验原料,研究了麻竹笋氨基酸含量在腌制加工前后的变化,并比较了不同腌制盐浓度之间的差异。结果表明:与鲜样相比,腌制加工以后麻竹笋中的总氨基酸含量明显下降,在3%、11%和19%盐浓度的腌制样品中总氨基酸含量分别降低了58.1%、54.8%和53.1%,同时,腌制加工后麻竹笋中呈味氨基酸的含量和组成比例发生了变化。此外,麻竹笋鲜样中7种必需氨基酸的含量占氨基酸总量的36.8%,而3种腌制样品中这一比例分别为42.7%、41.8%和42.7%。所得研究结果将为麻竹笋腌制加工过程中食用品质的评价提供理论依据。 相似文献
9.
为了评价腌制加工对麻竹笋氨基酸含量的影响,以大叶麻竹笋为实验原料,研究了麻竹笋氨基酸含量在腌制加工前后的变化,并比较了不同腌制盐浓度之间的差异。结果表明:与鲜样相比,腌制加工以后麻竹笋中的总氨基酸含量明显下降,在3%、11%和19%盐浓度的腌制样品中总氨基酸含量分别降低了58.1%、54.8%和53.1%,同时,腌制加工后麻竹笋中呈味氨基酸的含量和组成比例发生了变化。此外,麻竹笋鲜样中7种必需氨基酸的含量占氨基酸总量的36.8%,而3种腌制样品中这一比例分别为42.7%、41.8%和42.7%。所得研究结果将为麻竹笋腌制加工过程中食用品质的评价提供理论依据。 相似文献
10.
11.
腌制加工对麻竹笋质构和微观结构及色泽的影响 总被引:2,自引:0,他引:2
为了评价腌制加工对麻竹笋食用品质的影响,以大叶麻竹笋为实验原料,研究麻竹笋的质构、微观结构和色泽等在腌制加工前后的变化,并比较不同腌制食盐质量浓度之间的差异。结果表明:腌制加工以后麻竹笋的硬度、凝聚性、咀嚼性等质构特性显著下降,不同腌制食盐质量浓度对硬度有显著影响,而对凝聚性和咀嚼性的影响不显著。通过扫描电镜观察发现,麻竹笋在腌制加工以后,细胞壁呈现出明显的皱缩,细胞间隙增大,部分薄壁组织细胞出现破损。与鲜样相比,腌制加工后麻竹笋的亮度L*降低,黄色度b*升高,总色差ΔE>2,说明腌制加工前后麻竹笋的色泽变化差异较大,可以从视觉上比较容易分辨。 相似文献
12.
13.
14.
目的:旨在揭示玛咖块根采后贮藏期间质构与色泽变化状况,为利用仪器分析代替感官评价测定玛咖块根质地品质提供理论依据。方法:利用质构仪采用质地多面分析(Texture Profile Analysis,TPA)法,研究不同温度贮藏期间玛咖块根采后质地参数变化的规律。结果:在4、20℃两个贮藏温度下,玛咖块根硬度值先下降后缓慢上升,其他各项质地参数变化规律总体均呈现下降趋势;硬度与凝聚性、咀嚼度以及颜色饱和度值呈现极显著的正相关性,而与粘附性呈负相关性;咀嚼度与硬度、凝聚性呈极显著正相关性;反映玛咖表面色泽状况的指标-颜色饱和度值与硬度、弹性呈极显著正相关,与咀嚼度、凝聚性呈显著正相关,但与粘附性呈显著负相关。结论:玛咖块根4℃贮藏的质地变化速度明显缓慢于20℃贮藏的值,说明玛咖在低温下贮运更易保持质构品质,这些质构参数指标可应用于检测玛咖质地的变化,为玛咖的货架期提供一定的理论指导,但其与感官评价指标的相关性还有待进一步分析。 相似文献
15.
以麻竹笋为实验原料,研究麻竹笋罐头在常温(25 ℃)和低温(4 ℃)贮藏过程中质构、果胶和色泽的变化,并探讨麻竹笋罐头的硬度与果胶变化的相关性。结果表明:麻竹笋罐头在贮藏过程中硬度、原果胶和水溶性果胶含量逐渐下降,贮藏120 d后,常温贮藏和低温贮藏条件下麻竹笋的硬度分别下降39.5%和27.1%,原果胶含量分别下降66.4%和62.8%,水溶性果胶含量分别下降68.1%和75.7%。各果胶组分与硬度之间呈现较好的相关性,而原果胶与硬度之间的相关性高于水溶性果胶与硬度之间的相关性。麻竹笋罐头贮藏过程中亮度值L*和红绿值a*逐渐减小,黄蓝值b*逐渐增加;常温和低温分别贮藏30 d和70 d时,总色差ΔE>2。 相似文献
16.
Xuejuan Xia Chunxia Ran Xiujuan Ye Guannan Li Jianquan Kan Jiong Zheng 《International Journal of Food Science & Technology》2017,52(5):1101-1110
The diversity and dynamics of the dominant bacterial communities arising during the pickling process of bamboo shoots (Dendrocalamus latiflorus) were investigated by nested polymerase chain reaction denaturing gradient gel electrophoresis combined with quantitative real‐time polymerase chain reaction. Results showed only several kinds of halophilic bacteria during early sampling time (0?3 days). After pickling for 7 days, Lactococcus lactis significantly increased (P < 0.05, quantities were 6.39 × 105 copies μL?1) and became the first dominant bacterium. After pickling for 14 days, Weissella sp. bands appeared and quickly became dominant on the 21st day (4.07 × 106 copies μL?1). As maturation progressed, Lc. lactis decreased in intensity whereas Weissella sp. increased in intensity. Finally, the quantities of Weissella sp. (2.50 × 107 copies μL?1) became higher than those of Lc. lactis (1.43 × 107 copies μL?1) after pickling for 56 days. The pickling process was initiated by Lc. lactis, followed by Lc. lactis and Weissella sp., and was finally succeeded by Weissella sp. 相似文献
17.
Jiong Zheng Fusheng Zhang Chunhong Zhou Guangjing Chen Mao Lin Jianquan Kan 《International Journal of Food Science & Technology》2013,48(9):1847-1853
The amino acid contents, texture, pectin and microstructure of bamboo shoots (Dendrocalamus latiflorus) with different salt concentrations during pickling process were examined to evaluate the effects of such process on its nutrient contents and texture. The results show that the total amino acid content of fresh bamboo shoots (FBS) was 16.35 g/100 g of dry weight, whereas those of pickled bamboo shoots (PBS) with different salt concentrations (8% and 20%) were 6.89 g/100 g and 7.91 g/100 g of dry weight, respectively. The texture analysis revealed that the hardness of the two PBS decreased by 60% and 47% after 90 days of pickling process, respectively. The protopectin contents of such PBS decreased by 64% and 49%, respectively, whereas their content of water‐soluble pectin exhibited an increasing tendency during the pickling process. In addition, the scanning electron microscope images of the bamboo shoots revealed that the FBS tissues presented almost isodiametric parenchyma cells with a regular shape, whereas the parenchyma cells of PBS showed a clear turgor loss, presenting degradation and shrinkage in the cell wall contours. 相似文献