食品科学 ›› 2023, Vol. 44 ›› Issue (13): 60-66.doi: 10.7506/spkx1002-6630-20220606-047

• 营养卫生 • 上一篇    下一篇

基于微生物指标评价冷冻熟制小龙虾食用安全风险

公方朔,陈一丹,杨方,姜启兴,许艳顺,夏文水   

  1. (江南大学食品学院,食品科学与技术国家重点实验室,江苏省食品安全与质量控制协同创新中心,江苏 无锡 214122)
  • 出版日期:2023-07-15 发布日期:2023-08-11
  • 基金资助:
    “十三五”国家重点研发计划重点专项(2019YFC1606002)

Evaluation of Food Safety Risk of Frozen Cooked Crayfish Based on Microbial-Related Indicators

GONG Fangshuo, CHEN Yidan, YANG Fang, JIANG Qixing, XU Yanshun, XIA Wenshui   

  1. (State Key Laboratory of Food Science and Technology, Collaborative Innovation Center of Food Safety and Quality Control in Jiangsu Province, School of Food Science and Technology, Jiangnan University, Wuxi 214122, China)
  • Online:2023-07-15 Published:2023-08-11

摘要: 小龙虾营养美味,但其食用安全性一直困扰消费者,为了探究冷冻熟制小龙虾食用安全风险,本研究首先根据小龙虾样品的总挥发性盐基氮(total volatile basic nitrogen,TVB-N)值和pH值确定食用终点,然后通过高通量测序法分析食用终点小龙虾内脏与鳃、虾肉、虾壳和调味汤料4 个部分的微生物菌群结构和群落多样性。结果显示:熟制小龙虾冷冻贮藏过程中,内脏与鳃和虾肉pH值呈缓慢下降趋势,调味汤料和虾壳pH值先上升后下降;各部分TVB-N值均呈上升趋势,贮藏至180 d时虾肉、内脏与鳃的TVB-N值分别为32.42 mg/100 g和31.26 mg/100 g,到达食用终点。高通量测序结果显示,食用终点的熟制小龙虾各部分细菌群落结构存在差异,不同部分菌群丰度由高至低依次为调味汤料、内脏与鳃、虾壳和虾肉,且各部分优势菌属组成不同,其中调味汤料中乳酸杆菌属(Lactobacillus)为优势菌;内脏与鳃中以嗜冷杆菌属(Psychrobacter)和弧菌属(Vibrio)为主;虾壳中优势菌属为弧菌属、乳酸杆菌属和嗜冷杆菌属;虾肉中优势菌属为嗜冷杆菌属和不动杆菌属(Acinetobacter)。综上所述,冷冻熟制小龙虾产品中调味汤料和内脏与鳃食用安全风险相对较高,在小龙虾加工中可通过复合清洗、调整调味汤料酸度以及使用抑菌剂来降低食用安全风险。

关键词: 冷冻熟制小龙虾;食用安全风险;高通量测序;微生物多样性;优势腐败菌

Abstract: Crayfish (Procambarus clarkii) is nutritious and delicious, but its safety always worries consumers. This study aimed to investigate the microbial safety of frozen cooked crayfish. The total volatile basic nitrogen (TVB-N) content and pH of crayfish samples were measured to determine the end point of the shelf life. The structure and diversity of the microbial communities in the viscera and gills, muscle and shell of crayfish and the marinade were analyzed by high-throughput sequencing. The results showed that during the frozen storage of cooked crayfish, the pH of the viscera, gills and muscle decreased slowly, while the pH of the marinade and the shell increased first and then decreased. The TVB-N contents of all four samples showed an upward trend. On the 180th day, the TVB-N values of the muscle as well as the viscera and gills were 32.42 and 31.26 mg/100 g, respectively, which were higher than the accepted upper limit. The results of high-throughput sequencing showed that there were differences in the bacterial community structure of the four crayfish samples at the end of the shelf life. The decreasing order of the abundance of bacteria in these samples were marinade > viscera and gills > shell > muscle. The dominant bacterial genera in these samples were also different; Lactobacillus was dominant in the marinade. Psychrobacter and Vibrio were dominant in the viscera and gills, the dominant bacteria in the shell were Vibrio, Lactobacillus and Psychrobacter, and the dominant bacteria in the muscle were Psychrobacter and Acinetobacter. In conclusion, the microbial safety risk of the marinade and the viscera and gills in frozen cooked crayfish products was relatively high and could be reduced by combined use of various cleaning methods, adjusting the acidity of the marinade and using antibacterial agents.

Key words: frozen cooked crayfish; food safety risk; high-throughput sequencing; microbial diversity; specific spoilage organism

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