Since September 2019 (the start of Poultry Project Phase II), more than 41 articles were published in the international journals that acknowledged the Walmart Foundation and the Walmart Food Safety Collaboration Center. There are 34 presentations and reports given by 15 researchers. . Besides, more than 10 thousand people were trained in more than 26 training classes we organized.
Publications:
[1] Cai, G.; Zheng, L.; Liao, M.; Li, Y.; Wang, M.; Liu, N.; Lin, J., A microfluidic immunosensor for visual detection of foodborne bacteria using immunomagnetic separation, enzymatic catalysis and distance indication. Mikrochimica acta 2019, 186, 757.
[2] Hao, L.; Xue, L.; Huang, F.; Cai, G.; Qi, W.; Zhang, M.; Han, Q.; Wang, Z.; Lin, J., A Microfluidic Biosensor Based on Magnetic Nanoparticle Separation, Quantum Dots Labeling and MnO2 Nanoflower Amplification for Rapid and Sensitive Detection of Salmonella Typhimurium. Micromachines 2020, 11.
[3] Wang, L.; Huo, X.; Zheng, L.; Cai, G.; Wang, Y.; Liu, N.; Wang, M.; Lin, J., An ultrasensitive biosensor for colorimetric detection of Salmonella in large-volume sample using magnetic grid separation and platinum loaded zeolitic imidazolate Framework-8 nanocatalysts. Biosensors & bioelectronics 2019, 111862.
[4] Zheng, L.; Cai, G.; Qi, W.; Wang, S.; Wang, M. H.; Lin, J., An optical biosensor for rapid detection of Salmonella Typhimurium based on porous gold@platinum nanocatalyst and 3D fluidic chip. ACS sensors 2019.
[5] Wang, L.; Xue, L.; Guo, R.; Zheng, L.; Wang, S.; Yao, L.; Huo, X.; Liu, N.; Liao, M.; Li, Y.; Lin, J., Combining impedance biosensor with immunomagnetic separation for rapid screening of Salmonella in poultry supply chains. Poultry science 2020, 99, 1606-1614.
[6] Wang, L.; Huo, X.; Qi, W.; Xia, Z.; Li, Y.; Lin, J., Rapid and sensitive detection of Salmonella Typhimurium using nickel nanowire bridge for electrochemical impedance amplification. Talanta 2020, 211, 120715.
[7] Guo, R.; Huang, F.; Cai, G.; Zheng, L.; Xue, L.; Li, Y.; Liao, M.; Wang, M.; Lin, J., A colorimetric immunosensor for determination of foodborne bacteria using rotating immunomagnetic separation, gold nanorod indication, and click chemistry amplification. Mikrochimica acta 2020, 187, 197.
[8] Wang, L.; Lin, J., Recent advances on magnetic nanobead based biosensors: From separation to detection. TrAC Trends in Analytical Chemistry 2020, 128, 115915.
[9] Wang, L.; Hao, L.; Qi, W.; Huo, X.; Xue, L.; Liu, Y.; Zhang, Q.; Lin, J., A sensitive Salmonella biosensor using platinum nanoparticle loaded manganese dioxide nanoflowers and thin-film pressure detector. Sensors and Actuators B: Chemical 2020, 321, 128616.
[10] Xue, L.; Lin, J., A sensitive immunoassay for simultaneous detection of foodborne pathogens using MnO2 nanoflowers-assisted loading and release of quantum dots, Food Chemistry, 322:126719, 2020
[11] Hou, Y.; Lin, J., An ultrasensitive biosensor for fast detection of Salmonella using 3D magnetic grid separation and urease catalysis, Biosensors and Bioelectronics, 2021. 176:112921.
[12] Huang, F.; Li, Y.; Liao.; Lin, J, An acid-responsive microfluidic salmonella biosensor using curcumin as signal reporter and ZnO-capped mesoporous silica nanoparticles for signal amplification, Sensors and Actuators B: Chemical, 312:127958, 2020
[13] Chen, Z.; Bai, J.; Wang, S.; Zhang, X.; Zhan, Z.; Shen, H.; Zhang, H.; Wen, J.; Gao, Y.; Liao, M.; Zhang, J. Prevalence, Antimicrobial Resistance, Virulence Genes and Genetic Diversity of Salmonella Isolated from Retail Duck Meat in Southern China. Microorganisms 2020, 8, 444.
[14] Fu Y, Xu X, Zhang L, Xiong Z, Ma Y, Wei Y, Chen Z, Bai J, Liao M, Zhang J. Fourth Generation Cephalosporin Resistance Among Salmonella enterica Serovar Enteritidis Isolates in Shanghai, China Conferred by blaCTX-M-55 Harboring Plasmids. Front Microbiol. 2020 May 15; 11:910.
[15] Ma Y, Xu X, Gao Y, Zhan Z, Xu C, Qu X, Chen Z, Bai J, Liao M, Zhang J. Antimicrobial resistance and molecular characterization of Salmonella enterica serovar Corvallis isolated from human patients and animal source foods in China. Int J Food Microbiol. 2020 Dec 16; 335:108859.
[16] Shen H, Wen J, Liao X, Lin Q, Zhang J, Chen K, Wang S, Zhang J. A Sensitive, Highly Specific Novel Isothermal Amplification Method Based on Single-Nucleotide Polymorphism for the Rapid Detection of Salmonella Pullorum. Front Microbiol. 2020 Oct 7; 11:560791.
[17] Gao Y, Wen J, Wang S, Xu X, Zhan Z, Chen Z, Bai J, Qu X, Zhang H, Zhang J, Liao M. Plasmid-Encoded blaNDM-5 Gene That Confers High-Level Carbapenem Resistance in Salmonella Typhimurium of Pork Origin. Infect Drug Resist. 2020, 13:1485-1490.
[18] Wen J., Gou H., Zhan Z., Gao Y., Chen Z., Bai J., Wang S., Chen K., Lin Q., Liao M. & Zhang J., A rapid novel visualized loop-mediated isothermal amplification method for Salmonella detection targeting at fimW gene, Poultry Science, 2020, 99(7).
[19] Zhan, Z., Xu, X., Gu, Z., Meng, J., Wufuer, X., Wang, M., Huang, M., Chen, J., Jing, C., Xiong, Z., Zeng, M., Liao, M., & Zhang, J. Molecular epidemiology and antimicrobial resistance of invasive non-typhoidal Salmonellain China, 2007-2016. Infection and drug resistance, 2019, 12, 2885–2897.
[20] Zhan, Z., Xu, X., Shen, H., Gao, Y., Zeng, F., Qu, X., ... & Zhang, J. (2019). Rapid Emergence of Florfenicol-Resistant Invasive Non-Typhoidal Salmonella in China: A Potential Threat to Public Health. The American journal of tropical medicine and hygiene, 101(6), 1282-1285.
[21] Zhu, W., Fu, Y., Li, Y. (2019) Cooperation mode of outer surface and inner space of nanochannel: separation-detection system based on integrated nanochannel electrode for rapid and facile detection of Salmonella (Supplementary Cover Paper). Analytical Chemistry
[22] He, Y., Fu, Y., Li, Y. Electrochemical conversion of magnetic nanoparticles using disposable working electrode in a 3D-printed electrochemical cell. Electroanalysis. 2020, 32, 1426.
[23] Shen, Y., Fu, Y., Li, Y. A nanomaterial-based biosensor for the quantitative detection of enrofloxacin residues in raw chicken. Transactions of the ASABE. 2020, 63, 1869.
[24] Xi, X., Li, Y. A portable biosensing device with magnetic separation and quantum dot bead labeling for simple, rapid and quantitative detection of Salmonella Typhimurium. Transactions of the ASABE. 2020
[25] Liang, A., Shen, Y., Li, Y. An Automated Magnetic Separation Device Coupled with a Fluorescent Biosensor for Detection of Antibiotic Residues. Transactions of the ASABE. 2021, 64, 23.
[26] Shen, Y., Fu, Y., Li, Y., Biosensors for rapid detection of Salmonella in food: A review. Comprehensive Reviews in Food Science and Food Safety. 2021, 20, 149.
[27] Xiao X, Wang W, Chase R, Li Y. A quantitative risk assessment model of Salmonella contamination for the yellow-feathered broiler chicken supply chain in china. Food Control, 2020, 121, 107612.
[28] Xiao X, Wang W, Li Y. Effect of sodium hypochlorite on preventing cross-contamination of Salmonella on broiler in chilling processes at slaughter house. Science and Technology of Food Industry (Chinese Journal), 2020, 41, 212-217.
[29] Xiong, Z; Wang, S; Huang, Y; Gao, Y; Shen, H; Chen, Z; Bai, J; Zhan, Z; Wen, J; Liao, M; Zhang, J, Ciprofloxacin-Resistant Salmonella enterica Serovar Kentucky ST198 in Broiler Chicken Supply Chain and Patients, China, 2010–2016. Microorganisms 2020, 8, 140.
[30] Zhang, J.; Shen, H.; Liao, X.; Zhang, J. A sensitive, highly-specific novel isothermal amplification method based on single-nucleotide polymorphism for the rapid detection of Salmonella pullorum, Frontiers in Microbiology 2020.
[31] Qi W, Zheng L, Wang S, Huang F, Liu Y, Jiang H, Lin J. A microfluidic biosensor for rapid and automatic detection of Salmonella using metal-organic framework and Raspberry Pi, Biosensors and Bioelectronics, 2021. 178:113020.
[32] Guo R, Xue L, Cai G, Qi W, Liu Y, Lin J. Fe-MIL-88NH2 Metal-Organic Framework Nanocubes Decorated with Pt Nanoparticles for the Detection of Salmonella, ACS Applied Nano Materials. 2021.
[33] Wang L, Qi W, Liu Y, Essien D, Zhang Q, Lin J. Recent advances on bioaerosol collection and detection in microfluidic chips, Analytical Chemistry. 2021.
[34] Peng Y, He Y, Shen Y, Liang A, Li Y, Zhang X, Liu Y, Lin J, Wang J, Li Y, Fu Y. Fluorescence nanobiosensor for simultaneous detection of multiple veterinary drugs in chicken samples. Journal of Analysis and Testing. 2021.
[35] Zhan Q, Li Z, Dai H, Zhang L, Zhang J, Liu Y, Lin J, Liang K, Ying Y, Li Y, Fu Y*. Biomineralization-mimetic growth of ultrahigh-load metal-organic frameworks on inert glass fibers to prepare hybrid membranes for collecting organic hazards in unconventional environment, Chemical Engineering Journal. 2021.
[36] Wang W, Wang R, Liao M, Kidd M, and Li Y*. Rapid detection of enrofloxacin using a localized surface plasmon resonance sensor based on polydopamine molecular imprinted recognition polymer. Journal of Food Measurement and Characterization 2021.
[37] Xi X, Niyonshuti I, Yu N, Yao L, Fu Y, Chen J, Li Y*.Label-Free Quartz Crystal Microbalance Biosensor Based on Aptamer-Capped Gold Nanocages Loaded with Polyamidoamine for Thrombin Detection, ACS Appl. Nano Mater. 2021, 4, 10, 10047–10054.
[38] Chen Z, Bai J, Zhang J et al. Highly prevalent multidrug resistance and QRDR mutations in Salmonella isolated from chicken, pork and duck meat in Southern China, 2018–2019[J]. International Journal of Food Microbiology, 2021, 16;340:109055
[39] Wen J, Gou H, Wang S, et al. Competitive Activation Cross Amplification Combined with Smartphone-based Quantification for Point-of-care Detection of Single Nucleotide Polymorphism[J]. Biosensors & Bioelectronics, 2021(1):113200.
[40] Xiong Z, Wang S, Huang Y, et al. Ciprofloxacin-Resistant Salmonella enterica Serovar Kentucky ST198 in Broiler Chicken Supply Chain and Patients, China, 2010–2016[J]. Microorganisms, 2020, 8(1).
[41] Bai J, Chen Z, Luo K, et al. Highly Prevalent Multidrug-Resistant Campylobacter spp. Isolated From a Yellow-Feathered Broiler Slaughterhouse in South China[J]. Frontiers in Microbiology, 2021, 12:682741.
Presentations on academic meetings
1. Jianhan Lin, "Internet plus" poultry supply chain food safety monitoring, 2019-12-19, Hefei, China.
2. Lei Wang and Jianhan Lin, Electrochemical biosensors for rapid and sensitive detection of pathogenic bacteria in poultry supply chains, 2019-10-23, Chongqing, China.
3. Wen Wang. Symposium on Agricultural Product Quality safety and Nutrition health, oral presentation on “Next generation microbiological risk assessment meta-omics”, Aug 23, 2020.
4. Xingning Xiao. National Agricultural Product Quality and Safety Risk Assessment Symposium, oral presentation on “Comparison of four typical machine learning methods in predicting prevalence of Salmonella in broiler slaughtering”, Sept 25, 2020.
5. Yanbin Li. “Poultry excellence in China: Improving food safety of poultry supply chain (II). An invited presentation at the 2nd Global Food Safety Governance Forum” Nov 20, 2020. Beijing, China.
6. Yanbin Li. “Poultry excellence in China: Improving food safety of poultry supply chain. An invited presentation at the 3rd Global Food Safety Governance Forum” Oct 20, 2020. Beijing, China and Virtual meeting online.
7. Yanbin Li. the 1st Symposium on Plant & Animal Health and Quality & Safety of Agro-Products, “Application of biosensors and risk assessment for pathogen detection and early warning in food supply chain”. November 17-18, 2019, Ningbo, China
8. Xinge Xi. Magnetic separation of bacteria in large-volume samples: A review. ASABE 2020 Annual International Meeting. July 12-15, 2020, Virtual meeting online.
9. Chase Rainwater. 2020 INFORMS Conference Presentation – Recorded on October 12th, 2020.
10. Wen Wang, Symposium on Risk Assessment for Predictive Microbiology and Food Safety, oral presentation on “Research progress on risk assessment of Salmonella in broiler supply chain”, Oct 17, 2020.
11. Jianhan Lin, Biosensors for monitoring of pathogens in poultry supply chains,2020 Asian Conference on Precision Livestock Farming, Beijing, China,2020-10-21
12. Yafang Shen, Zhan Lu, Yawen He, Aoming Liang, Jianping Wang, Yanbin Li*, A Portable Fluorescent Biosensor with Smartphone Readout for Rapid Detection of Enrofloxacin in Poultry Supply Chain in China, 2020 IFT Annual Meeting & Food Expo (online), USA, July 12-15. Poster presentation.
13. Yafang Shen, Fei Jia, Aoming Liang, Huang Dai, Yaping Peng, Yingchun Fu, Yanbin Li*, A Novel Optical Biosensor Based on Target-induced Immunomagnetic Beads Aggregation for Label-free and Portable Detection of Enrofloxacin, 2020 IAFP Annual Meeting (online), USA, October 26-28. Poster presentation.
14. Yingchun Fu*, Nanomaterial-based Fluorescence Biosensors for Simultaneous Detection of Multiple Antibiotics in Poultry Production Chain, 2020 Annual Meeting of Agricultural electrification and Informatization, Chengdu, China, October 25-26. Oral presentation.
15. Chase Rainwater, 2020 INFORMS Conference Presentation – Recorded on October 12th, 2020.
16. Wen Wang, Symposium on Risk Assessment for Agro-product, oral presentation on “Research progress on risk assessment of Salmonella in broiler supply chain”, NOV 19, 2020.
17. Yanbin Li.. Smart food safety monitoring and risk analysis for poultry supply chain. An invited presentation at the 18th China Conference of Meat Science and Technology, 2020-10-16, Hefei, Anhui, China.
18. Xinge Xi, Ningxiang Yu, Isabelle I. Niyonshuti, Lan Yao, Ying Fu, Jingyi Chen, Yanbin Li. 2021 Annual International Meeting, ASABE. Technical community: ITSC, July, 12-16, 2021
19. Wenqian Wang, Michael T. Kidd, Yanbin Li. Localized surface plasmon resonance biosensor based on polydopamine molecular imprinted polymer for detection of multi-antibiotics in chicken meat. The International Association for Food Protection, July 18–21, 2021.
20. Jianhan Lin, Biosensors for ensuring food safety, International Top-level Forum on Engineering Science and Technology Strategy-Agricultural Sensors & International Conference on Intelligent Agriculture(ICIA2021), Tianjin, China, May, 21, 2021
21. Jie Zhang, Y. Li, Y. Ying, Y. Fu, MXene-metal organic framework hybrid membrane for the collection of hazards in poultry samples. The 32nd Chinese Chemical Society Congress, Zhuhai, China, Apr. 19-22, 2021. Oral presentation.
22. Tongtong Ma, Q. Zhang, Z. li, Y. Li, Y. Ying, Y. Fu, Metal-organic framework hybrid membrane for the rapid separation and detection of toxins in poultry feeds. The 32nd Chinese Chemical Society Congress, Zhuhai, China, Apr. 19-22, 2021. Poster presentation.
23. Xinyue Ma, J. Zhang, Y. Li, Y. Ying, Y. Fu, ZIF-8 Composite Membrane Combined with Integrated Nanochannel Electrode for the Determination of Tetracycline, The 32nd Chinese Chemical Society Congress, Zhuhai, China, Apr. 19-22, 2021. Poster presentation.
24. Yingchun Fu, Rapid detection technologies and instrument for poultry production chain. Department of Chemical Engineering, Zhejiang University, China, Sep. 2, 2021. Invited presentation.
25. Yingchun Fu, Rapid detection technologies and instrument for poultry production chain. International Conference of Food Safety Research, Xiamen, China, Apr. 29-30, 2021. Invited presentation.
26. Yingchun Fu,, Biosensors for rapid detection of bacteria and antibiotics in poultry production chain, International Conference on Smart Agriculture Innovation Development (ICSAID 2021), Beijing, China, July 9-12, 2021. Oral presentation.
27. Wang Wen. Symposium on Agricultural Product Quality safety and Nutrition health, oral presentation on “Next generation microbiological risk assessment meta-omics”, Aug 23, 2020.
28. Xiao Xingning. National Agricultural Product Quality and Safety Risk Assessment Symposium, oral presentation on “Comparison of four typical machine learning methods in predicting prevalence of Salmonella in broiler slaughtering”, Sept 25, 2020.
29. Wang Wen. Symposium on Risk Assessment for Predictive Microbiology and Food Safety, oral presentation on “Research progress on risk assessment of Salmonella in broiler supply chain”, Oct 17, 2020.
30. Jianmin Zhang, Contamination and detection of Salmonella in animal food, Report of the 20th Symposium on Monitoring and Purification of Major Diseases in National Large-scale Pig Farms, Guangzhou, China, 2021-4-24, oral presentation.
31. Jianmin Zhang, Epidemiological characteristics and research on new detection technology of Salmonella in poultry, 2021 China Poultry Industry Conference, Guangzhou, China, 2021-9-16, oral presentation.
32. Jianmin Zhang, Research on the prevalence and drug resistance characteristics as well as new detection technology of Salmonella from animal sources, exchange report to Henan Agricultural University, Henan, China, May, 30, 2021, oral presentation.
33. Yaping Peng. Nano-optic biosensor for the simultaneous detection of antibiotics in poultry production chain, The 32nd Chinese Chemical Society Congress, Zhuhai, China, Apr. 19-22, 2021. Oral presentation.
34. Lei Wang, Biosensors for Rapid Detection of Biological Contaminants, 5th International Symposium for Persistent, Bioaccumulating and Toxic Substances (PTS 2021), Beijing, China, July, 27, 2021
Award-winning presentations:
1. Yafang Shen, Fei Jia, Aoming Liang, Huang Dai, Yaping Peng, Yingchun Fu, Yanbin Li*, A Novel Optical Biosensor Based on Target-induced Immunomagnetic Beads Aggregation for Label-free and Portable Detection of Enrofloxacin, 2020 IAFP Annual Meeting (online), USA, October 26-28. 3rd place of IAFP-CAFPNA 2020 Student Presentation Competition.
2. Xi Xinge, Yingchun Fu, Yanbin Li*. A Portable Biosensing Device with Magnetic Separation and Quantum Dot Bead Labeling for Simple, Rapid, and Quantitative Detection of Salmonella Typhimurium. ASABE 2020 Boyed-Scott Graduate Research Award, First Award.
3. Wang Wenqian, Yanbin Li*, Application of Polydopamine Molecular Imprinted Polymer on a Localized Surface Plasmon Resonance Sensor for Detection of Multi-antibiotics in Chicken Meat, 2020 IAFP Annual Meeting (online), USA, October 26-28. 1st place of IAFP-CAFPNA 2020 Student Presentation Competition.
Education and training
1. From January 13th to March 28th, through a combination of online and offline methods, 8 training sessions were conducted in Guangdong, Hubei, Jiangsu and other places on the epidemiological characteristics as well as prevention and control recommendations of the recent epidemic of highly pathogenic avian influenza, with a cumulative number of 17,330 people.
2. From March 30th to May 12th, a total of 6 training sessions were held in Guangdong, Guangxi, Jiangxi and other places. The topics included analysis and prevention and control of avian influenza epidemics, source disease purification, and laboratory biosafety, with a cumulative number of 545 people.
3. From July 6th to September 24th, a total of 12 training sessions were held in Jiangsu, Inner Mongolia, Shandong, Guangdong, Hunan and other places. The topics included animal health and food safety in China, interpretation of the new version of the Animal Epidemic Prevention Law, recent epidemic characteristics and progress in vaccine development of highly pathogenic avian influenza, epidemiological characteristics and research on new detection technologies of salmonella in poultry and laboratory biosafety, etc.
4. Hold an online monthly video training session at South China Agricultural University.