Risk management in fruits and vegetables production and supply: Constructing a control chart for Enterobacteriaceae
Main Article Content
Keywords
Enterobacteriaceae; X-mR control chart; food control chart; HACCP; process control systems; fresh produce
Abstract
In Sardinia (Italy), Enterobacteriaceae are commonly quantified in raw fruits and vegetables, but their guide value for official controls remains undefined. Enterobacteriaceae include environmental species that are often present at high levels in the production process of fresh produce. While not necessarily pathogenic to humans, Enterobacteriaceae are potentially pathogenic to immunocompromised individuals, and so establishing appropri-ate guide values is crucial. Lax values endanger food security, while overly restrictive ones pose unrealistic targets for food operators without safety benefits for consumers. The aim of this study was to demonstrate the utility of introducing a control chart for Enterobacteriaceae in HACCP (hazard analysis and critical control points) sys-tems for risk management within fresh produce production and supply processes and promote its widespread adoption to define acceptable contamination levels based on empirical data. We developed a control chart for Enterobacteriaceae to assess the acceptability of the supply process and food safety of iceberg salad in a canteen. Using the 2023 data, we set warning and action levels that helped food business operators to (i) understand, con-trol, and improve the supply processes; (ii) promptly detect anomalies in these processes and act accordingly; and (iii) verify the effectiveness of any actions taken. The large-scale use of this approach in HACCP systems could aid defining realistic and safe levels for Enterobacteria in fresh produce production and supply.
References
Al-Kharousi, Z.S., Guizani, N., Al-Sadi, A.M., et al., 2016. Hiding in fresh fruits and vegetables: Opportunistic pathogens may cross geographical barriers. International Journal of Microbiology 2016: 4292417. https://doi.org/10.1155/2016/4292417
Alaoui, A., Christ, F., Abrantes, N., et al., 2024. Assessing pesticide residue occurrence and risks in the environment across Europe and Argentina. Environmental Pollution 363: 125056. https://doi.org/10.1016/j.envpol.2024.125056
Altekruse, S.F., Cohen, M.L., Swerdlow, D.L., 1997. Emerging foodborne diseases. Emerging Infectious Diseases 3(3): 285–293. https://doi.org/10.3201/eid0303.970304
Augustin, J.C., Minvielle, B., 2008. Design of control charts to monitor the microbiological contamination of pork meat cuts. Food Control 19(1): 82–97. https://doi.org/10.1016/j.foodcont.2007.02.007
Aune, D., Giovannucci, E., Boffetta, P., et al., 2017. Fruit and vegetable intake and the risk of cardiovascular disease, total cancer and all-cause mortality – A systematic review and dose-response meta-analysis of prospective studies. International Journal of Epidemiology 46(3): 1029–1056. https://doi.org/10.1093/ije/dyw319
Autonomous Region of Sardinia, 2017. Official Controls Guidelines under regulations (EU) 882/2004 E 854/2004. Available at: https://www.regione.sardegna.it/documenti/1_274_20170512103100.pdf. Accessed 26 March 2025.
Awad, D.A., Masoud, H.A. and Hamad, A., 2024. Climate changes and food-borne pathogens: The impact on human health and mitigation strategy. Climatic Change 177(6): 92. https://doi.org/10.1007/s10584-024-03748-9
Batt, C.A., Tortorello, M.L., 2014. Encyclopedia of Food Microbiology: Second Edition.
Berg, G., Erlacher, A., Smalla, K., et al., 2014. Vegetable microbiomes: Is there a connection among opportunistic infections, human health and our “gut feeling”? Microbial Biotechnology 7: 487–495. https://doi.org/10.1111/1751-7915.12159
Beuchat, L.R., 1996. Pathogenic microorganisms associated with fresh produce. Journal of Food Protection 59(2):204–216. https://doi.org/10.4315/0362-028X-59.2.204.
Coroneo, V., Dessì, S., Carraro, V., et al., 2014. Qualità microbiologica del processo di produzione di vegetali di i gamma (lattuga). Industrie Alimentari 53: 5–10. Available at: https://iris.unica.it/handle/11584/58680.6. Accessed 26 March 2025.
DeWaal, C.S., Bhuiya, F.A.R.I.D.A., 2007. Outbreaks by the numbers: Fruits and vegetables. International Association for Food Protection 94th Annual Meeting.
El-Sheikh, E.S.A., Ramadan, M.M.R., El-Sobki, A.E., et al., 2022. Pesticide residues in vegetables and fruits from farmer markets and associated dietary risks. Molecules 27(22). https://doi.org/10.3390/molecules27228072
Essa, M.M., Bishir, M., Abid Bhat, A., et al., 2023. Functional foods and their impact on health. Journal of Food Science and Technology. 60(3):820–834. https://doi.org/10.1007/s13197-021-05193-3
European Commission, 2005. Regulation (EC) 2073/2005 of 15 November 2005 on microbiological criteria for foodstuffs. Official Journal of the European Union.
European Commission, 2007. Commission regulation (EC) No 1441/2007 of 5 December 2007 amending Regulation (EC) No 2073/2005 on microbiological criteria for foodstuffs. Official Journal of the European Union. Available at: https://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2007:322:0012:0029:EN:PDF. Accessed 26 March 2025.
European Commission, 2013. Commission Regulation (EU) No 209/2013 of 11 March 2013 amending Regulation (EC) No 2073/2005 as regards microbiological criteria for sprouts and the sampling rules for poultry carcases and fresh poultry meat (Text with EEA relevance). Official Journal of the European Union. Available at: https://eur-lex.europa.eu/eli/reg/2013/209/oj/eng. Accessed 26 March 2025.
European Commission, 2022. Rapid Alert System for Food and Feed (RASFF) Window. Available at: https://webgate.ec.europa.eu/rasff-window/screen/search?searchQueries=eyJkYXRlIjp7InN0YXJ0UmFuZ2UiOiIyMDIxLTEyLTMxVDIzOjAwOjAwLjAwMFoiLCJlbmRSYW5nZSI6IjIwMjItMTItMzBUMjM6MDA6MDAuMDAwWiJ9LCJub3RpZmljYXRpb25TdGF0dXMiOnsibm90aWZpY2F0aW9uU3RhdHVzIjpbWzFdXX19. Accessed 26 March 2025.
European Food Safety Authority (EFSA) and European Centre for Disease Prevention and Control (ECDC), 2023. The European Union One Health 2022 Zoonoses Report. European Food Safety Authority Journal 21(12): e8442. . https://doi.org/https://doi.org/10.2903/j.efsa.2023.8442
Falomir, M., Gozalbo, D., Rico, H., 2010. Coliform bacteria in fresh vegetables: From cultivated lands to consumers. Current research, technology and education topics in applied microbiology and microbial biotechnology. Available at: https://www.researchgate.net/profile/Hortensia-Rico/publication/265940318_Coliform_bacteria_in_fresh_vegetables_From_cultivated_lands_to_consumers/links/54b912bf0cf2c27adc4911ee/Coliform-bacteria-in-fresh-vegetables-From-cultivated-lands-to-consumers.pdf. Accessed 26 March 2025.
Galli Volonterio, A., 2009. Analisi microbiologica degli alimenti. In Microbiologia degli alimenti. Ambrosiana: Milano, 2009. 205, 279 pp.
Halablab, M.A., Sheet, I.H. and Holail, H.M., 2011. Microbiological quality of raw vegetables grown in Bekaa Valley, Lebanon. American Journal of Food Technology 6: 129–139. https://doi.org/10.3923/ajft.2011.129.139
Hartley, L., Igbinedion, E., Holmes, J., et al., 2013. Increased consumption of fruit and vegetables for the primary prevention of cardiovascular diseases. Cochrane Database of Systematic Reviews 2013(6):CD009874. https://doi.org/10.1002/14651858.CD009874.pub2
Joshi, K., Mahendran, R., Alagusundaramet, K., et al., 2013. Novel disinfectants for fresh produce. Trends in Food Science & Technology 34(1): 54–61. https://doi.org/10.1016/j.tifs.2013.08.008
Kapeleka, J.A., Sauli, E., Omowunmi Sadik, O., et al., 2020. Co-exposure risks of pesticides residues and bacterial contamination in fresh fruits and vegetables under smallholder horticultural production systems in Tanzania. PLoS ONE 15(7):e0235345. https://doi.org/10.1371/journal.pone.0235345
Koneman, W.E. Enterobatteriaceae. In Testo Atlante di Microbiologia Diagnostica. Antonio Delfino editore. Jones & Bartlett Learning: Burlington, MA, USA, 2019. 211–303 pp.
Kumar, M., Ved Prakash Giri, V.D., Pandey, S., et al., 2021. Plant‐growth‐promoting rhizobacteria emerging as an effective bioinoculant to improve the growth, production and stress tolerance of vegetable crops. International Journal of Molecular Sciences 22(22): 12245. https://doi.org/10.3390/ijms222212245.
Lenzi, A., Marvasi, M., Baldi, A., 2021. Agronomic practices to limit pre- and post-harvest contamination and proliferation of human pathogenic Enterobacteriaceae in vegetable produce. Food Control. 119: 107486. https://doi.org/10.1016/j.foodcont.2020.107486
Ng, P.J., Fleet, G.H., Heard, G.M., 2005. Pesticides as a source of microbial contamination of salad vegetables. 101(2): 237–250. https://doi.org/10.1016/j.ijfoodmicro.2004.11.009
Olaimat, A.N., Holley, R.A., 2012. Factors influencing the microbial safety of fresh produce: A review. Food Microbiology 32(1):1–19. https://doi.org/10.1016/j.fm.2012.04.016
Oliveira, M., Usall, J., I Viñas I., et al., 2010. Microbiological quality of fresh lettuce from organic and conventional production. Food Microbiology (5):679–84. https://doi.org/10.1016/j.fm.2010.03.008
Shewhart, W.A., 1940. Statistical method from the viewpoint of quality control. Supplement to the Journal of the Royal Statistical Society 7(1), 86–87 pp. https://doi.org/10.2307/2983634
Symmers, W.S.C., 1965. Opportunistic Infections: The concept of “Opportunistic Infections.” Journal of the Royal Society of Medicine 93(1): 39–40. https://doi.org/10.1177/003591576505800521
Temple, N.J., 2022. AA rational definition for functional foods: A perspective. Frontiers in Nutrition 29(9): 957516. https://doi.org/10.3389/fnut.2022.957516
Tiecco, G., 1997. Metodi per la valutazione delle contaminazioni microbiche. In Igiene e Tecnologia Alimentare. Calderini Edagricole: Bologna, Italy, 1997. 283 p.
World Health Organization, 2003. Diet, nutrition and the prevention of chronic diseases. Report of a Joint WHO/FAO expert consultation. WHO technical report series no. 916., WHO technical report series. Available at: https://iris.who.int/bitstream/handle/10665/42665/WHO_TRS_916.pdf?sequence=1. Accessed 26 March 2025.
World Health Organisation, 2004. Global strategy on diet, physical activity and health. In: Fifty-seventh World Health Assembly,Geneva, 17–22 May 2004. In Resolutions and decisions, annexes. Geneva, World Health Organisation. Available at: https://apps.who.int/gb/ebwha/pdf_files/wha57/a57_r17-en.pdf. Accessed 25 March 2025
World Health Organization, 2019. Increasing fruit and vegetable consumption to reduce the risk of noncommunicable diseases, e-Library of Evidence for Nutrition Actions (eLENA). Available at: https://www.who.int/tools/elena/interventions/fruit-vegetables-ncds. Accessed on 26 March 2025.
World Health Organization (2020) Healthy diet. Available at: https://www.who.int/news-room/fact-sheets/detail/healthy-diet. Accessed 26 March 2025.
Alaoui, A., Christ, F., Abrantes, N., et al., 2024. Assessing pesticide residue occurrence and risks in the environment across Europe and Argentina. Environmental Pollution 363: 125056. https://doi.org/10.1016/j.envpol.2024.125056
Altekruse, S.F., Cohen, M.L., Swerdlow, D.L., 1997. Emerging foodborne diseases. Emerging Infectious Diseases 3(3): 285–293. https://doi.org/10.3201/eid0303.970304
Augustin, J.C., Minvielle, B., 2008. Design of control charts to monitor the microbiological contamination of pork meat cuts. Food Control 19(1): 82–97. https://doi.org/10.1016/j.foodcont.2007.02.007
Aune, D., Giovannucci, E., Boffetta, P., et al., 2017. Fruit and vegetable intake and the risk of cardiovascular disease, total cancer and all-cause mortality – A systematic review and dose-response meta-analysis of prospective studies. International Journal of Epidemiology 46(3): 1029–1056. https://doi.org/10.1093/ije/dyw319
Autonomous Region of Sardinia, 2017. Official Controls Guidelines under regulations (EU) 882/2004 E 854/2004. Available at: https://www.regione.sardegna.it/documenti/1_274_20170512103100.pdf. Accessed 26 March 2025.
Awad, D.A., Masoud, H.A. and Hamad, A., 2024. Climate changes and food-borne pathogens: The impact on human health and mitigation strategy. Climatic Change 177(6): 92. https://doi.org/10.1007/s10584-024-03748-9
Batt, C.A., Tortorello, M.L., 2014. Encyclopedia of Food Microbiology: Second Edition.
Berg, G., Erlacher, A., Smalla, K., et al., 2014. Vegetable microbiomes: Is there a connection among opportunistic infections, human health and our “gut feeling”? Microbial Biotechnology 7: 487–495. https://doi.org/10.1111/1751-7915.12159
Beuchat, L.R., 1996. Pathogenic microorganisms associated with fresh produce. Journal of Food Protection 59(2):204–216. https://doi.org/10.4315/0362-028X-59.2.204.
Coroneo, V., Dessì, S., Carraro, V., et al., 2014. Qualità microbiologica del processo di produzione di vegetali di i gamma (lattuga). Industrie Alimentari 53: 5–10. Available at: https://iris.unica.it/handle/11584/58680.6. Accessed 26 March 2025.
DeWaal, C.S., Bhuiya, F.A.R.I.D.A., 2007. Outbreaks by the numbers: Fruits and vegetables. International Association for Food Protection 94th Annual Meeting.
El-Sheikh, E.S.A., Ramadan, M.M.R., El-Sobki, A.E., et al., 2022. Pesticide residues in vegetables and fruits from farmer markets and associated dietary risks. Molecules 27(22). https://doi.org/10.3390/molecules27228072
Essa, M.M., Bishir, M., Abid Bhat, A., et al., 2023. Functional foods and their impact on health. Journal of Food Science and Technology. 60(3):820–834. https://doi.org/10.1007/s13197-021-05193-3
European Commission, 2005. Regulation (EC) 2073/2005 of 15 November 2005 on microbiological criteria for foodstuffs. Official Journal of the European Union.
European Commission, 2007. Commission regulation (EC) No 1441/2007 of 5 December 2007 amending Regulation (EC) No 2073/2005 on microbiological criteria for foodstuffs. Official Journal of the European Union. Available at: https://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2007:322:0012:0029:EN:PDF. Accessed 26 March 2025.
European Commission, 2013. Commission Regulation (EU) No 209/2013 of 11 March 2013 amending Regulation (EC) No 2073/2005 as regards microbiological criteria for sprouts and the sampling rules for poultry carcases and fresh poultry meat (Text with EEA relevance). Official Journal of the European Union. Available at: https://eur-lex.europa.eu/eli/reg/2013/209/oj/eng. Accessed 26 March 2025.
European Commission, 2022. Rapid Alert System for Food and Feed (RASFF) Window. Available at: https://webgate.ec.europa.eu/rasff-window/screen/search?searchQueries=eyJkYXRlIjp7InN0YXJ0UmFuZ2UiOiIyMDIxLTEyLTMxVDIzOjAwOjAwLjAwMFoiLCJlbmRSYW5nZSI6IjIwMjItMTItMzBUMjM6MDA6MDAuMDAwWiJ9LCJub3RpZmljYXRpb25TdGF0dXMiOnsibm90aWZpY2F0aW9uU3RhdHVzIjpbWzFdXX19. Accessed 26 March 2025.
European Food Safety Authority (EFSA) and European Centre for Disease Prevention and Control (ECDC), 2023. The European Union One Health 2022 Zoonoses Report. European Food Safety Authority Journal 21(12): e8442. . https://doi.org/https://doi.org/10.2903/j.efsa.2023.8442
Falomir, M., Gozalbo, D., Rico, H., 2010. Coliform bacteria in fresh vegetables: From cultivated lands to consumers. Current research, technology and education topics in applied microbiology and microbial biotechnology. Available at: https://www.researchgate.net/profile/Hortensia-Rico/publication/265940318_Coliform_bacteria_in_fresh_vegetables_From_cultivated_lands_to_consumers/links/54b912bf0cf2c27adc4911ee/Coliform-bacteria-in-fresh-vegetables-From-cultivated-lands-to-consumers.pdf. Accessed 26 March 2025.
Galli Volonterio, A., 2009. Analisi microbiologica degli alimenti. In Microbiologia degli alimenti. Ambrosiana: Milano, 2009. 205, 279 pp.
Halablab, M.A., Sheet, I.H. and Holail, H.M., 2011. Microbiological quality of raw vegetables grown in Bekaa Valley, Lebanon. American Journal of Food Technology 6: 129–139. https://doi.org/10.3923/ajft.2011.129.139
Hartley, L., Igbinedion, E., Holmes, J., et al., 2013. Increased consumption of fruit and vegetables for the primary prevention of cardiovascular diseases. Cochrane Database of Systematic Reviews 2013(6):CD009874. https://doi.org/10.1002/14651858.CD009874.pub2
Joshi, K., Mahendran, R., Alagusundaramet, K., et al., 2013. Novel disinfectants for fresh produce. Trends in Food Science & Technology 34(1): 54–61. https://doi.org/10.1016/j.tifs.2013.08.008
Kapeleka, J.A., Sauli, E., Omowunmi Sadik, O., et al., 2020. Co-exposure risks of pesticides residues and bacterial contamination in fresh fruits and vegetables under smallholder horticultural production systems in Tanzania. PLoS ONE 15(7):e0235345. https://doi.org/10.1371/journal.pone.0235345
Koneman, W.E. Enterobatteriaceae. In Testo Atlante di Microbiologia Diagnostica. Antonio Delfino editore. Jones & Bartlett Learning: Burlington, MA, USA, 2019. 211–303 pp.
Kumar, M., Ved Prakash Giri, V.D., Pandey, S., et al., 2021. Plant‐growth‐promoting rhizobacteria emerging as an effective bioinoculant to improve the growth, production and stress tolerance of vegetable crops. International Journal of Molecular Sciences 22(22): 12245. https://doi.org/10.3390/ijms222212245.
Lenzi, A., Marvasi, M., Baldi, A., 2021. Agronomic practices to limit pre- and post-harvest contamination and proliferation of human pathogenic Enterobacteriaceae in vegetable produce. Food Control. 119: 107486. https://doi.org/10.1016/j.foodcont.2020.107486
Ng, P.J., Fleet, G.H., Heard, G.M., 2005. Pesticides as a source of microbial contamination of salad vegetables. 101(2): 237–250. https://doi.org/10.1016/j.ijfoodmicro.2004.11.009
Olaimat, A.N., Holley, R.A., 2012. Factors influencing the microbial safety of fresh produce: A review. Food Microbiology 32(1):1–19. https://doi.org/10.1016/j.fm.2012.04.016
Oliveira, M., Usall, J., I Viñas I., et al., 2010. Microbiological quality of fresh lettuce from organic and conventional production. Food Microbiology (5):679–84. https://doi.org/10.1016/j.fm.2010.03.008
Shewhart, W.A., 1940. Statistical method from the viewpoint of quality control. Supplement to the Journal of the Royal Statistical Society 7(1), 86–87 pp. https://doi.org/10.2307/2983634
Symmers, W.S.C., 1965. Opportunistic Infections: The concept of “Opportunistic Infections.” Journal of the Royal Society of Medicine 93(1): 39–40. https://doi.org/10.1177/003591576505800521
Temple, N.J., 2022. AA rational definition for functional foods: A perspective. Frontiers in Nutrition 29(9): 957516. https://doi.org/10.3389/fnut.2022.957516
Tiecco, G., 1997. Metodi per la valutazione delle contaminazioni microbiche. In Igiene e Tecnologia Alimentare. Calderini Edagricole: Bologna, Italy, 1997. 283 p.
World Health Organization, 2003. Diet, nutrition and the prevention of chronic diseases. Report of a Joint WHO/FAO expert consultation. WHO technical report series no. 916., WHO technical report series. Available at: https://iris.who.int/bitstream/handle/10665/42665/WHO_TRS_916.pdf?sequence=1. Accessed 26 March 2025.
World Health Organisation, 2004. Global strategy on diet, physical activity and health. In: Fifty-seventh World Health Assembly,Geneva, 17–22 May 2004. In Resolutions and decisions, annexes. Geneva, World Health Organisation. Available at: https://apps.who.int/gb/ebwha/pdf_files/wha57/a57_r17-en.pdf. Accessed 25 March 2025
World Health Organization, 2019. Increasing fruit and vegetable consumption to reduce the risk of noncommunicable diseases, e-Library of Evidence for Nutrition Actions (eLENA). Available at: https://www.who.int/tools/elena/interventions/fruit-vegetables-ncds. Accessed on 26 March 2025.
World Health Organization (2020) Healthy diet. Available at: https://www.who.int/news-room/fact-sheets/detail/healthy-diet. Accessed 26 March 2025.
Article Sidebar
Published
Jul 11, 2025
Article Details
Section
Original Article
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
