Objective: To quantitatively detect Salmonella in raw pork, obtain the data of Salmonella contamination in raw pork, conduct risk assessment and formulate reasonable risk management measures. Methods: 302 samples of fresh pork were collected from 10 of Jilin province, mainly from agricultural markets and supermarkets. A 12-tube MPN method was used for quantitative detection of Salmonella, and biochemical identification of API20E and serological identification of Salmonella. Sixty-nine strains of Salmonella were detected. Results: The total detection rate of Salmonella was 22.8%. Sixty-nine strains of Salmonella were divided into 20 serotypes, mainly S.Typhimurium, accounting for 33.3%, followed by S. London (13.0%) and S.Rissen (8.7%). The positive samples were mainly concentrated in the 3rd quarter, followed by the 2nd and 4th quarter, and the quantitative results of Salmonella were between 0.015MPN/g and 600 MPN/g, focus on 0.215MPN/g. Conclusion: The detection rate and contamination in raw pork were serious. Serotypes include both common and rare serotypes. The contamination level of samples collected from farmers’ markets was higher than those from supermarkets and online shopping. The detection level in the third, second and fourth quarters was higher than that in the first quarter, it means that high temperature is beneficial to breeding bacteria. The detection rate of samples collected from urban and rural areas showed that the contamination of raw pork Salmonella was not affected by the environmental hygiene conditions, mainly from the samples themselves.
| Published in | International Journal of Food Science and Biotechnology (Volume 7, Issue 1) |
| DOI | 10.11648/j.ijfsb.20220701.14 |
| Page(s) | 12-15 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2022. Published by Science Publishing Group |
Raw Pork, Salmonella, Result Analysis
| [1] | Zhang Zhenkai, Huang Yunneng, Guo Bingcai, etc. Surveillance of drug resistance and plasmid of Salmonella Paratyphi [J]. Chinese Journal of Antibiotics, 2004, 29 (10): 610-913. |
| [2] | Ran Lu. Surveillance trends of foodborne pathogens and foodborne diseases [J]. Food Safety, 2001. 13 (4): 42-45. |
| [3] | Rao Qiuhua, Chen Jianhui, Luo Tuyan, Yao Qinghua. Detction and analysis of Salmonella in aquatic feed [J]. China Agricultural Science and Technology, 2010. 12: 79-81. |
| [4] | Wang Dongmei, Dong Kaizhong, etc. Detection and analysis of Salmonella in frozen pork [J]. Journal of Northwest University for Nationalities: Natural Science Edition, 2009. 30 (74): 63-65. |
| [5] | Xue Chengyu, Yu Xiaojie, Xie Pinghui, Dong Rui, Zheng Xiaohuan, An Hong, Yan Jun. Analysis of Salmonella contamination in food and application of VITEK microbial identification system [J]. Primary health care, 2011, 25 (5): 75-76. |
| [6] | Li Hongxing, Wang Xiaomei, Ma Li. Analysis of Salmonella in animals [J]. Chinese Journal of Health Inspection, 2005, 15 (5): 581-582. |
| [7] | Jiang Lin, Zhong Deqiao, Jiang Tao, Zheng Huaying. Report on detection of Salmonella in self-cooked Meat Products [J] Chinese Journal of Medical Laboratory Science, 2010, 11 (3): 148-149. |
| [8] | Li Yueting, Gong Yunwei, Liu Guihua. Drug Resistance of food-borne Salmonella and pathogenic E.coli [J]. Chinese Journal of Health Inspection, 2016, 26 (22): 3335-3336. |
| [9] | Li Jiandong, Chen Yizhong, Chu Xinwei, etc. Antimicrobial resistance and plasmid characterization of Salmonella isolated from restaurant workers [J]. Chinese Journal of Public Health. 2005, 21 (2): 205-206. |
| [10] | Pan Zhiming, Jiao Xinan, Liu Wenbo, etc. Surveillance of drug resistance of Salmonella Pullorum [J]. Journal of Animal Husbandry and veterinary medicine, 2002, 33 (4): 377-383. |
| [11] | He Xiaoqing. Examination of bacteria in sanitary and epidemic prevention [M]. Nanchang: Xinhua Publishing House, 1989. |
| [12] | Rapid detection of multiple pathogens in food-PCR method-part 1: Rapid Detection Method for Salmonella in food [S). Industry Standard of entry-exit inspection and Quarantine of PRC. |
| [13] | Liu Guihua, Huang Xin, Zhang Weiyu, Wang Yanqiu. Detection and analysis of antimicrobial resistance of Salmonella in faeces of foodborne disease patients [J]. Science Journal of Public Health, 2020, 8 (3): 77-82. |
| [14] | Liu Guihua, Huang Xin, Wang Yanqiu, Zhang Weiyu, Gong Yunwei, Huang Biao. Detection and analysis of Yersinia contamination in meat products in Changchun [J]. Asia-Pacific Journal of Food Science and Technology, 2020, 2 (1): 1-5. |
| [15] | Liu Guihua, Zhang Weiyu, Huang Xin, Gong Yunwei. Surveillance and analysis of antibiotic resistance of Yersinia in fresh meat food. Science Discovery, 2021, 9 (2) 32-36. |
APA Style
Huang Xin, Zhang Weiyu, Gong Yunwei, Yao Jiatong, Zhang Lifu, et al. (2022). Quantitative Detection and Result Analysis of Salmonella in Raw Pork. International Journal of Food Science and Biotechnology, 7(1), 12-15. https://doi.org/10.11648/j.ijfsb.20220701.14
ACS Style
Huang Xin; Zhang Weiyu; Gong Yunwei; Yao Jiatong; Zhang Lifu, et al. Quantitative Detection and Result Analysis of Salmonella in Raw Pork. Int. J. Food Sci. Biotechnol. 2022, 7(1), 12-15. doi: 10.11648/j.ijfsb.20220701.14
AMA Style
Huang Xin, Zhang Weiyu, Gong Yunwei, Yao Jiatong, Zhang Lifu, et al. Quantitative Detection and Result Analysis of Salmonella in Raw Pork. Int J Food Sci Biotechnol. 2022;7(1):12-15. doi: 10.11648/j.ijfsb.20220701.14
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Download@article{10.11648/j.ijfsb.20220701.14,
author = {Huang Xin and Zhang Weiyu and Gong Yunwei and Yao Jiatong and Zhang Lifu and Liu Guihua},
title = {Quantitative Detection and Result Analysis of Salmonella in Raw Pork},
journal = {International Journal of Food Science and Biotechnology},
volume = {7},
number = {1},
pages = {12-15},
doi = {10.11648/j.ijfsb.20220701.14},
url = {https://doi.org/10.11648/j.ijfsb.20220701.14},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijfsb.20220701.14},
abstract = {Objective: To quantitatively detect Salmonella in raw pork, obtain the data of Salmonella contamination in raw pork, conduct risk assessment and formulate reasonable risk management measures. Methods: 302 samples of fresh pork were collected from 10 of Jilin province, mainly from agricultural markets and supermarkets. A 12-tube MPN method was used for quantitative detection of Salmonella, and biochemical identification of API20E and serological identification of Salmonella. Sixty-nine strains of Salmonella were detected. Results: The total detection rate of Salmonella was 22.8%. Sixty-nine strains of Salmonella were divided into 20 serotypes, mainly S.Typhimurium, accounting for 33.3%, followed by S. London (13.0%) and S.Rissen (8.7%). The positive samples were mainly concentrated in the 3rd quarter, followed by the 2nd and 4th quarter, and the quantitative results of Salmonella were between 0.015MPN/g and 600 MPN/g, focus on 0.215MPN/g. Conclusion: The detection rate and contamination in raw pork were serious. Serotypes include both common and rare serotypes. The contamination level of samples collected from farmers’ markets was higher than those from supermarkets and online shopping. The detection level in the third, second and fourth quarters was higher than that in the first quarter, it means that high temperature is beneficial to breeding bacteria. The detection rate of samples collected from urban and rural areas showed that the contamination of raw pork Salmonella was not affected by the environmental hygiene conditions, mainly from the samples themselves.},
year = {2022}
}
TY - JOUR T1 - Quantitative Detection and Result Analysis of Salmonella in Raw Pork AU - Huang Xin AU - Zhang Weiyu AU - Gong Yunwei AU - Yao Jiatong AU - Zhang Lifu AU - Liu Guihua Y1 - 2022/02/16 PY - 2022 N1 - https://doi.org/10.11648/j.ijfsb.20220701.14 DO - 10.11648/j.ijfsb.20220701.14 T2 - International Journal of Food Science and Biotechnology JF - International Journal of Food Science and Biotechnology JO - International Journal of Food Science and Biotechnology SP - 12 EP - 15 PB - Science Publishing Group SN - 2578-9643 UR - https://doi.org/10.11648/j.ijfsb.20220701.14 AB - Objective: To quantitatively detect Salmonella in raw pork, obtain the data of Salmonella contamination in raw pork, conduct risk assessment and formulate reasonable risk management measures. Methods: 302 samples of fresh pork were collected from 10 of Jilin province, mainly from agricultural markets and supermarkets. A 12-tube MPN method was used for quantitative detection of Salmonella, and biochemical identification of API20E and serological identification of Salmonella. Sixty-nine strains of Salmonella were detected. Results: The total detection rate of Salmonella was 22.8%. Sixty-nine strains of Salmonella were divided into 20 serotypes, mainly S.Typhimurium, accounting for 33.3%, followed by S. London (13.0%) and S.Rissen (8.7%). The positive samples were mainly concentrated in the 3rd quarter, followed by the 2nd and 4th quarter, and the quantitative results of Salmonella were between 0.015MPN/g and 600 MPN/g, focus on 0.215MPN/g. Conclusion: The detection rate and contamination in raw pork were serious. Serotypes include both common and rare serotypes. The contamination level of samples collected from farmers’ markets was higher than those from supermarkets and online shopping. The detection level in the third, second and fourth quarters was higher than that in the first quarter, it means that high temperature is beneficial to breeding bacteria. The detection rate of samples collected from urban and rural areas showed that the contamination of raw pork Salmonella was not affected by the environmental hygiene conditions, mainly from the samples themselves. VL - 7 IS - 1 ER -
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