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  • EI
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中國精品科技期刊2020
石金明,王曉明,李凌云,等. 黃羽肉雞屠宰過程中胴體表面腐敗菌的變化[J]. 食品工業科技,2024,45(6):142?149. doi: 10.13386/j.issn1002-0306.2023040236.
引用本文: 石金明,王曉明,李凌云,等. 黃羽肉雞屠宰過程中胴體表面腐敗菌的變化[J]. 食品工業科技,2024,45(6):142?149. doi: 10.13386/j.issn1002-0306.2023040236.
SHI Jinming, WANG Xiaoming, LI Lingyun, et al. Changes of Spoilage Bacteria on the Surface of Broiler Carcasses during the Efficient Slaughtering Process of Yellow Feather Chicken[J]. Science and Technology of Food Industry, 2024, 45(6): 142?149. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023040236.
Citation: SHI Jinming, WANG Xiaoming, LI Lingyun, et al. Changes of Spoilage Bacteria on the Surface of Broiler Carcasses during the Efficient Slaughtering Process of Yellow Feather Chicken[J]. Science and Technology of Food Industry, 2024, 45(6): 142?149. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023040236.

黃羽肉雞屠宰過程中胴體表面腐敗菌的變化

Changes of Spoilage Bacteria on the Surface of Broiler Carcasses during the Efficient Slaughtering Process of Yellow Feather Chicken

  • 摘要: 為了分析黃羽肉雞屠宰加工環節的肉雞胴體污染菌的菌群組成,本試驗利用平板傾注法及Illumina MiSeq高通量測序高效地測定黃羽肉雞屠宰過程中加工環境和胴體表面腐敗菌的多樣性。結果表明,凈膛、預冷及分級是黃羽肉雞菌落總數增長的主要污染來源工序,分級秤、分級車間工人手套、預冷槽及凈膛工人手套為以上三個工序中污染來源接觸面,且分級秤及分級車間工人手套所污染菌群是黃羽雞胴體菌群的主要來源,使黃羽雞胴體表面菌落總數及假單胞菌增長率高達24.13%、41.27%,經過分級秤及分級車間工人手后黃羽雞菌落總數顯著(P<0.05)增加至4.63 lg(CFU/g)。打毛后(DM)、凈膛后(JH)、凈膛消毒后(CH)黃羽雞胴體優勢菌主要為鏈球菌屬(Streptococcus),大腸桿菌屬(Escherichia)和氣單胞菌屬(Aeromonas)。黃羽雞經預冷槽預冷后氣單胞菌屬豐度大幅增加,鏈球菌屬次之。經過分級秤分級后黃羽雞胴體菌群中不動桿菌屬(Acinetobacter)為主要優勢菌,巨球菌屬(Macrococcus)次之。添加次氯酸電解水減菌后,黃羽肉雞胴體表明氣單胞菌屬和鏈球菌屬豐度大幅下降,說明次氯酸電解水減菌效果較好。本研究結果通過對黃羽肉雞屠宰過程中微生物分布情況的分析,可以為黃羽肉雞屠宰車間的環境控制和產品品質維持、貨架期延長提供數據支持和理論依據。

     

    Abstract: To analyze the changes of spoilage bacteria on the carcasses of broiler during the slaughtering of yellow feather broiler, the diversity of spoilage bacteria in the processing environment and on the carcass surface during the efficient slaughter of yellow feather broiler was determined by the plate pouring method and Illumina MiSeq high-throughput sequencing. The results showed that the main contamination procedure for the growth of bacteria of yellow feather broilers was eviscerating, pre-cooling and grading procedure, and the grading scale, in which the grading scale, workers' gloves from grading workshop, pre-cooling tank and workers' gloves from eviscerating manual gloves were contamination sources in the three processes aforementioned. Moreover, grading scale and workers' gloves in the decomposition workshop were the main source of contaminated flora of yellow feather broilers carcasses. The growth rate of total viable counts (TVC) and Pseudomonas on the surface of yellow feather broilers carcasses was as high as 24.13% and 41.27%, respectively. The TVC of yellow feather broilers increased to 4.63 lg(CFU/g) after grading scale and grading workshop worker's hands (P<0.05). Streptococcus, Escherichia and Aeromonas were the main dominant bacteria in yellow feather broilers carcasses after plucking (DM), evisceration (JH) and disinfection (CH). The abundance of Aeromonas increased substantially in yellow feather broilers after pre-cooling, followed by Streptococcus. After the grading scale, Acinetobacter was the dominant bacterium in the yellow feather broilers carcasses, followed by Macrococcus. As the abundance of Aeromonas and Streptococcus decreased significantly on the carcasses of yellow feather broilers treated with slightly acidic electrolyzed water (SAEW), it indicated that the disinfecting effect of SAEW was obvious. The results of the present investigation could provide data support and theoretical reference for environmental control, product quality maintenance and shelf-life extension in yellow feather broilers slaughterhouse by analyzing the microbial distribution during the slaughter of yellow feather broilers.

     

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