高通量测序技术分析生榨米粉生粉团中细菌多样性

目的探究生榨米粉(SZMF)生粉团的细菌多样性,并分析其致病菌污染情况。方法收集广西南宁地区不同作坊的6份生榨米粉生团,利用16srDNA高通量测序检测,并进行细菌多样性分析,然后在16s rDNA高通量测序结果的基础上用国家标准方法对致病菌进行检验。结果在门水平上,6份样品的优势细菌门分别为厚壁菌门、变形菌门、拟杆菌门。在属水平上,6份样品中相对丰度较高的菌属为芽胞杆菌属、乳杆菌属、肠球菌属等。国家标准方法检测结果显示,6份样品中,有3份样品含有蜡样芽胞杆菌。结论生榨米粉生粉团中细菌种属较为丰富,不同的生产厂家其样本在菌落组成和丰度上有所不同。生榨米粉生粉团中蜡样芽胞杆污染率较高,具有一定的食品安全风险。对生榨米粉的食品安全监管时,应关注蜡样芽胞杆菌的污染情况。

融合壮族非遗传承的高中生物学实验课程资源开发探析——以南宁生榨米粉为例

将非物质文化遗产的传承融入高中生物学实验教学,是一种创新且富有时代意义的教学方式。南宁生榨米粉制作技艺是广西自治区级非物质文化遗产,其中涉及的原料的选择、米浆的发酵等技巧与高中生物学“使用高倍镜观察几种细胞”“观察培养液中的酵母菌种群数量的变化”“制作传统发酵食品”等实验高度契合,为开发融合壮族非物质文化遗产传承的高中生物学实验课程资源提供了切入点。课题组成员通过挖掘非物质文化遗产与生物学实验课程的结合点、制订实验课程实施方案、细化实验教学实施步骤、完善评价机制以及打造数字化实验课程资源库,初步形成融合壮族非物质文化遗产传承的高中生物学实验课程资源。

广西南宁生榨米粉的传承与发展研究

广西南宁生榨米粉作为区级非物质文化遗产,其独具特色的“酸馊”味,深受着人们的喜爱。因广西南宁生榨米粉宣传力度不足、未有袋装速食类食品、营销模式单一、传统制作手法效率低且制作手艺仅停留于血缘传承、消费者内心期待价格与门店销售价格之间有差距等问题,导致广西南宁生榨米粉在传承与发展过程中遇到不小的困难。文章以广西南宁古源香天天生榨米粉为例,探究南宁生榨米粉发展与传承的意义,分析南宁生榨米粉传承与发展现存的问题并针对这些存在的问题提出一些具有可行性的应对策略,从而促进广西南宁生榨米粉未来的可持续发展。

生榨米粉预糊化米浆制备机的设计

针对传统生榨米粉生产中费时费力、不安全、不易搞好卫生的磨米和配浆等工序设计了一款单螺杆米浆制备机,在单机中集成了初磨、补水、配浆、精磨等过程,投入浸泡的大米后能直接挤出预糊化米浆。结果显示,以浸泡自然发酵3d的湘丰早119早籼米为原料,转速为200r/min,补水量为80ml/min,减压段机筒温度控制在(70±1)℃,挤出米浆约30kg/h。使用该机生产的米浆制作的生榨米粉达到了传统工艺方法的口感和品质要求。该机调控方便,操作简单,安全卫生。

生榨米粉定量榨粉机的设计研究

针对传统生榨米粉采用手工压榨工作条件差、劳动强度高的状况,设计了一款定量榨粉机。榨粉机采用旋转式支架,以0.55 kW的调速电机为动力,通过按钮控制每一次压榨的挤出量。榨粉机用容量为13 L的不锈钢桶作压榨筒,压榨筒上的挤出模板孔经过优化设计,每次换桶可压榨50碗左右的3两米粉。试验结果显示,榨粉机以2 mm/s左右的速度压榨,可以定量挤出粗细均匀、不断条、不卷曲的米粉。榨粉机换桶方便快捷,操作简单,安全卫生。

广西生榨米粉制作与烹调技术标准初探

生榨米粉是广西壮族地区的传统小吃,是一种发酵型、带有酸味的米粉,其中南宁、武鸣生榨米粉制作技艺都入选了广西自治区级非物质文化遗产代表性项目名录,现在南宁地区内注册的生榨米粉饮食店超过1000家,但是都是以手工作业经营为主,生产环境堪忧,成品质量不稳定,而现对生榨米粉的研究仍处于空白阶段,为此需要对生榨米粉的标准化制作规程进行研究和探索,以期为其未来的标准化和产业化生产提供理论依据。

广西生榨米粉中益生乳酸菌的筛选及鉴定

通过革兰氏染色、过氧化氢酶试验、溶血性试验、耐酸、耐胆盐试验及体外抗氧化能力测定从广西本地传统发酵食品生榨米粉中筛选优良益生乳酸菌,对其生长情况及产酸性能进行测定,并通过分子生物学技术对其进行鉴定。结果表明,共分离得到146株γ-溶血乳酸菌,其中22株乳酸菌对pH 2.0和0.3%胆盐均具有良好耐受性,且乳酸菌PM20、PM22、FD13及PM44的综合体外抗氧化能力较好。4株菌株的生长及产酸趋势一致,其中菌株PM44的生长速度和产酸能力最强。经鉴定菌株PM20、PM22、FD13均为发酵乳杆菌(Lactobacillus fermentum),菌株PM44为乳酸片球菌(Pediococcus acidilactici)。

生榨米粉与生榨米粉机

生榨米粉与生榨米粉机周文浦，王元良，陆锦荣，罗绍华，武汉工学院米粉是我国南方非常普遍的一种大米制品，一般有宽米粉、细米粉的区别。有的地方又称细米粉为米线。细米粉的一般吃法是购买现成的米粉，先用水泡软，捞出后在开水中烫热，再盛入碗中加料而食。武汉地区称...

超高效液相色谱-串联质谱法测定广西生榨米粉中的米酵菌酸

目的:建立混合型阴离子固相萃取富集净化,超高效液相色谱-串联质谱测定广西生榨米粉中米酵菌酸的方法,并初步评估生榨米粉被米酵菌酸污染的风险。方法:以广西生榨米粉作为研究对象,用混合型阴离子交换小柱净化,梯度洗脱(0.1%甲酸水和乙腈),采用电喷雾离子源负离子模式检测,外标法定量。结果:米酵菌酸在1.00~50.00 ng/mL浓度范围内线性良好,相关系数为0.99996;在优化的固相萃取法下,方法检出限为0.03μg/kg,定量限为0.1μg/kg。按低、中、高3个水平加标,回收率为97.0%~102.1%,相对标准偏差1.4%~2.7%。结论:该方法灵敏高、准确度好,能满足广西生榨米粉中米酵菌酸的测定要求。经抽样检测的结果表明,广西生榨米粉被米酵菌酸污染的风险较低。

Box-Behnken试验设计优化龙香芋饮料生产工艺

为解决香芋生榨汁的褐变问题,得到香芋饮料的最佳工艺和配方,以新鲜的兴化龙香芋为原料,研究其生榨汁加工工艺和饮料配方,以生榨龙香芋汁中可溶性固形物含量为指标,采取单因素及正交试验法,得出较适宜的香芋生榨汁工艺条件为榨汁时添加温度为95℃的热水,香芋汁通过2次均质,均质压力14 MPa。以饮料成品的离心沉淀率为评价依据,经Box-Behnken响应面优化工艺,得出香芋饮料中适宜的羧甲基纤维素钠(carboxymethylcellulose sodium,CMC-Na)的添加量为0.16%,单硬脂酸甘油酯的添加量为0.12%,黄原胶的添加量为0.02%(均为质量分数),按此工艺参数条件生产的成品饮料离心沉淀率为5.08%,所得工艺参数及配方可行。

怎样鉴别优劣花生油?

1、观色:生榨花生油一般是浅橙黄色,熟榨花生油深橙黄色。纯花生油一般在气温3℃下才凝结而没有流动性,如果掺有猪油或棕油,一般气温10℃开始凝结。把瓶中花生油频频摇动,小泡上升得越快、消失得越快的质量越好。

我国南方传统食品——米粉质量安全管理的研究进展

本文对近年来我国南方传统食品——米粉,主要是鲜湿米粉行业的质量安全管理进行了综述分析。监管部门抽检结果表明,米粉行业仍存在不少质量安全问题,包括微生物超标、滥用食品添加剂、非法添加违禁化学物质和重金属超标等。建议相关部门加强对米粉行业的质量控制及监督管理。建议米粉生产企业将HACCP方法应用于米粉的生产过程,对原辅料验收、浸泡、蒸煮、分装、金属探测、杀菌等关键控制点进行管理,以提高米粉质量并确保米粉食用安全。目前我国米粉类国家标准、行业标准制订工作已不能满足米粉行业发展的需要,而广西在米粉地方标准制订及鲜湿米粉质量安全管理及生产许可方面的工作成效显著,但对生榨米粉的管理较欠缺。为此本文也对该广西特色食品加工与烹调工艺的质量、标准化管理工作提出了建议。

饮领时尚 健康一夏

蔬果汁是一种集保健、食疗、美容为一体的综合性饮品。经常饮用生榨蔬果汁,不仅可以为人体提供各种基本的营养物质,而且还可以全面地改善人体状况,达到健身、减肥及美容养颜的效果。时下,当人们越来越注重健康时,自制果蔬汁也成为一种时尚。

Pretreatment of hypersaline mustard wastewater with integrated bioreactor

A full-scale experimental study of treating mustard wastewater by the integrated bioreactor with designed scale of 1 000 m3/d is conducted combined with a demonstration project. The systematical researches on the efficiency of combined operation conditions of anaerobic-aerobic and anaerobic-aerobic-flocculation as well as chemical phosphorus removal of hypersaline mustard wastewater are conducted. The optimal operation condition and parameters in pretreatment of mustard wastewater in winter （the water temperature ranges 8-15 ~C） are determined： the anaerobic load is 3.0 kg （COD）/（m3.d）, the average COD and phosphate concentration of the inflow are respectively 3 883 mg/L and 35.53 mg/L and the dosage of flocculent （PAC） is 400 mg/L. The anaerobic-aerobic-flocculation combined operation condition and postpositive phosphorous removal with ferrous sulfate are employed. After treatment, the COD of the effluent is 470 mg/L and the average phosphate concentration is 5.09 mg/L. The effluent could achieve the third-level of Integrated Wastewater Discharge Standard （GB 8978--1996）.

Design, Development and Test of a Small Scale Mango Juice Extractor

Mango fruit （Mangifera indica） is very rich in fibre and vitamin C which are the required nutrients for good health and easy digestion of food in human body system. However, the fruit is highly perishable in its natural state after harvest due to the chemical deterioration and environmental effects. Due to the perishable nature, abundant wastage during the production season and relative scarcity during the off season were recorded by farmers. Processing the fruit into the form that can easily be stored, preserved, packaged, transported or consumed is crucial to having the product all the year round. Besides, mango juice can be consumed freshly, processed into dry powder, mixed or blended with other juice to make fruit jams, or evaporated to concentrates. These products have a lot of potential in food and beverage industries for export and foreign exchange earnings. Therefore, a small scale machine to process mango fruits to high quality juice is highly essential to reduce the postharvest loss and then add value to the commodity. To achieve this purpose, an abrasion-macerating device （AMD） was designed, fabricated and tested for small scale mango juice extraction. Design considerations focused on the techno-economic status of the micro and small scale fruit juice processors who are the intended users of the machine. The major components of the machine included hopper, perforated drum, screw conveyor, juice outlet, waste outlet, frame, electric motor and motor stand. Other components included screw shaft, the juice collector, top cover and the transmission system. In operation, the screw conveyor conveys and presses the mango fruits against the perforated roughened drum. The abrasion/tearing process of the screw on the flesh of the fruit and further pressing against the drum squeeze enough juice out of the fruit. The juice extracted is drained through the perforated mesh of the juice channel into the juice outlet from where it is collected while the residual waste is collected at the waste outlet. The machine was tested using freshly harvested mango fruits and results obtained showed an average juice yield, extraction efficiency and extraction loss of 34,56%, 55.14% and 10.15%, respectively. These values of juice yield, extraction efficiency and low level of extraction loss indicate satisfactory performance of the machine. Powered by a 2.5 hp single-phase electric motor, the machine has a production cost of USD565 with the construction materials being locally available at affordable costs. A cottage mango juice extraction plant based on this technology can provide employment for at least two persons at the same time providing fresh juice at low costs and residual waste as an ingredient for livestock feed manufacturing.