共查询到19条相似文献,搜索用时 62 毫秒
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原料乳中硫氰酸钠掺假定性检测方法 总被引:10,自引:2,他引:10
研究了原料乳中硫氰酸钠掺假快速定性检测方法,通过向原料乳样品中加入一定量的铁盐溶液,乳样与铁盐溶液接触面的颜色变化与硫氰酸钠掺入量有关,通过显色判定乳样中是否掺有硫氰酸钾。结果表明,该方法用于检测原料乳中硫氰酸钾质量分数在0.01%以上具有良好的重现性,同时方法操作简单,结果准确,适用于乳品企业进行原料乳质量验收检验。 相似文献
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牛乳来源广泛 ,营养丰富 ,其中含有蛋白质、脂肪、乳糖、无机盐、维生素、酶类等几十种易被人体吸收的营养成分。本文针对原料乳验收过程中存在的实际问题 ,阐述了目前原料乳施假掺杂的主要手段及相应检验方法 相似文献
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CHRISTOPHER L BAYLIS 《International Journal of Dairy Technology》2009,62(3):293-307
Raw milk and raw milk cheeses can be a source of food-borne pathogens, including Verocytotoxin (Shiga toxin)-producing Escherichia coli (VTEC/STEC). Outbreaks of VTEC O157: H7 infections have been attributed to the consumption of raw milk and associated dairy products. Although the general prevalence of VTEC O157 in raw milk and raw milk cheeses is low, it can be higher for non-O157 VTEC. The clinical significance of many of these VTEC is unclear, although some are associated with disease. Studies show that E. coli O157 strains can survive the various stages of the cheesemaking process and that raw milk and raw milk cheeses remain a potential vehicle for VTEC infections. 相似文献
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微生物抑制法快速检测鲜牛乳中红霉素残留 总被引:1,自引:1,他引:0
目的利用微生物抑制法快速检测鲜牛乳中红霉素残留。方法将待测的牛奶样品和空白样品经杀菌后接入乳酸菌,经过相同时间发酵后,计算待测牛奶样品发酵前后的pH变化差值与空白样品发酵前后的pH变化差值,从而判断鲜牛奶中红霉素残留的含量。结果经过单因素及正交实验,确定乳酸菌发酵产酸条件如下:接种量0.15 U/L、发酵温度40℃、菌粉溶解时间25 min、发酵时间3.5 h,利用乳酸菌发酵产酸建立了检测鲜牛奶中红霉素残留的标准曲线Y=0.024X-0.013(其中,Y为△pH,X为鲜牛乳样品中的红霉素浓度),线性相关系数R~2=0.9949,检测的灵敏度IC_(50)为29.71μg/L,检测的线性范围为0~50μg/L,加标回收率为103.54%~124.58%,同一批次内检测的变异系数为4.39%~16.46%。结论建立的检测方法可用于筛选鲜牛乳中是否有抗生素残留并进行定量检测。 相似文献
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目的 利用荧光定量技术分析检测生乳中磺胺类药物残留,评价该方法的可行性.方法 取生乳空白样品进行加标回收实验(磺胺恶唑13.50、27.00μg/L;磺胺喹恶啉5.00、10.00μg/L;磺胺嘧啶0.82、1.64μg/L),取200μL样品与金标抗体结合,50℃孵育3 min,取120μL样品加到检测卡,反应10 ... 相似文献
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目的 鉴别豆浆中是否有豆浆伴侣存在。方法 制备含有不同浓度豆浆伴侣的豆浆, 加入硫酸镁, 计算沉淀凝固物的含量。结果 硫酸镁溶液不能使豆浆伴侣沉淀, 但能使大豆蛋白凝固, 进而能快速鉴别豆浆中是否含有豆浆伴侣。结论 此方法简便、可行。 相似文献
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Jinhui Yang Nan Zheng Jiaqi Wang Yongxin Yang 《International Journal of Dairy Technology》2018,71(2):544-550
This study compared the fatty acid (FA) profile of milk from different dairy mammals: buffalo, camel, cow, goat and yak. Data from milk samples and reports in the literature were processed using principal component analysis. The results showed that camel milk contained the lowest levels of C4:0–C12:0 and highest levels of unsaturated fatty acids. Goat milk had the highest level of C8:0–C14:0 FA. Characteristic differences were observed for yak and buffalo milk, which differed from cow milk by their higher levels of saturated fatty acids and lower levels of polyunsaturated fatty acids. It is therefore suggested that each animal species’ milk has its own specific milk FA profile. 相似文献