Assessing the Quality of Shellfish Harvesting Areas: The Case of the Oualidia and Sidi Moussa Lagoons in Morocco

  • K. Khbaya Institut National de Recherche Halieutique, Oualidia, Morocco
  • F-Z. Bouthir Institut National de Recherche Halieutique, Bd Sidi Abderrahmane, Casablanca, Morocco
  • R. Cherkaoui Laboratoire de microbiologie, centre spécialisé en pathologie des animaux aquatiques/INRH. Cap Malabata, Tanger, Morocco
  • E. M. Kabiri Institut National de Recherche Halieutique, Oualidia, Morocco
  • R. Chfiri Institut National de Recherche Halieutique, Bd Sidi Abderrahmane, Casablanca, Morocco
  • A. Bessa Institut National de Recherche Halieutique, Oualidia, Morocco
Keywords: Shellfish, oyster farming, sanitary monitoring, Oualidia and Sidi Moussa lagoons, Morocco

Abstract

Based on European regulation 91/492/EC, Morocco, very early on, established legislation with conditions for producing and marketing live bivalve mollusks. In applying this legislation, the National Institute of Fisheries Research (INRH)[1]  has set up a system for sanitary monitoring of the marine environment, through which several harvesting areas have been classified while others are in progress. In January 2020, the Oualidia and Sidi Moussa lagoons were categorized respectively in classes B and C, with 52.77% of the results falling between 230 and 4600 MPN E. coli/100 g of flesh and intravalvular liquid (FIL) and 11.11% of the results falling between 4600 and 46000 MPN E. coli/100 g FIL. Sidi Moussa Lagoon has been classified as a category C since 2006. Consequently, oyster farming activity has been suspended in this area. This incident serves as a warning sign of the significant weakness of these ecosystems in addressing multiple social and economic challenges. On the other hand, INRH has sufficient data and tools to progress toward better optimization of the marine environment and sanitary monitoring program management.

 

[1] Institut National de Recherche Halieutique.

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References

1. Arrêté du ministère de l'agriculture et de la pêche maritime relatif au classement des zones de ramassage des mollusques bivalves vivants., (2006).
2. Arrêté du ministère de l’agriculture, de la pêche maritime, du développement rural et des eaux et forêts n° 1950-17 du 14 kaada 1438 (7 août 2017) relatif au classement sanitaire des zones maritimes de production conchylicole. BO-6696-19 kaada 1439., (2018), 1529-1535.
3. Arrêté du ministère de l’agriculture, de la pêche maritime, du développement rural et des eaux et forêts relatif classement des zones de ramassage des mollusques bivalves vivants. (2020).
4. Bouthir, F. Z., Chafik, A., Souabi, S., Benbrahim, S. (2004). Qualité physico-chimique des eaux côtières du littoral de la Wilaya du grand Casablanca (océan Atlantique marocain) utilisation de la moule (Mytilus galloprovincialis) comme indicateur de la contamination métallique. Journal of Marine Life, No. 14(1–2), 59–70.
5. Butt, A. A., Aldridge, K.E., Sanders, C. V. (2004). Infections related to the infection of seafood. Part I. Viral and bacterial infections. The Lancet Infectious Diseases, No. 4, 201-212.
6. Carella, F., Aceto, S., Marrone, R., Maiolino, P., De Vico, G. (2010). Marteilia refringens infection in cultured and natural beds of mussels (Mytilus galloprovincialis) along the Campania coast (Tirrenian sea, South of Italy). Bulletin of the European Association of Fish Pathologists, No. 30, 189.
7. Chafik, A., Cheggour, M., Cossa, D., Benbrahim, S., Sifeddine, M. (2001). Quality of Moroccan Atlantic coastal water monitoring and mussel watching, Aquat. Living Ressources, No. 14, 239-249.
8. Cherkaoui, R., Azhari, H., Moutaki, B. (2010). Etude comparative du niveau de contamination microbiologique des espèces C. gigas, Venerupis decussata et Ensis ensis au niveau de la lagune d’Oualidia. Rapport INRH, 32 pages.
9. Council Directive 91/492/EEC. (1991). Health conditions for the production and the placing on the market of fishery products.
10. EPA. US. (2007). Environmental Protection Agency, EPA 7473, Mercury in solids and solutions by thermal decomposition, amalgamation, and atomic absorption spectrophotometry.
11. Gaudry, A., Zeroual, S., Gaie-Levrel, F., Moskura, M., Boujrhal, F. Z., El Moursli, R. C., Guessous, A., Mouradi, A., Givernaud, T., Delmas, R. (2007). Heavy metals pollution of the Atlantic marine environment by the Moroccan phosphate industry, as observed through their bioaccumulation in Ulva lactuca. Water, Air, & Soil Pollution, No. 178, 267–285.
12. Gilbert, R.O. (1987). Statistical Methods for Environmental Pollution Monitoring, Wiley, NY.
13. iCAP-Q Operating Manual (P/N 1288090, Revision B) Thermo Fisher Scientific
14. Iwamoto, M., Ayers, T., Mahon, B. E., Swerdlow, D. L. (2010). Epidemiology of seafood-associated infections in the United States. Clinical Microbiology Reviews, No. 23, 399-411.
15. Kendall, M.G. 1975. Rank Correlation Methods, 4th edition, Charles Griffin, London.
16. Khbaya, B. (2011). Mise à jours de la fréquence d’échantillonnage pour le suivi microbiologique des lagunes d’Oualidia et de Sidi Moussa. Rapport INRH., 15 pages.
17. Leoni, F., Chierichetti, S., Santarelli, S., Talevi, G., Masini, L., Bartolini, C., Rocchegiani, E., Naceur Haouet, M., Ottaviani, D. (2017). Occurrence of Arcobacter spp. and correlation with the bacterial indicator of faecal contamination Escherichia coli in bivalve molluscs from the Central Adriatic, Italy. International Journal of Food Microbiology, No. 245, 6-12.
18. Maanan, M. (2008). Heavy metal concentrations in marine molluscs from the Moroccan coastal region. Environmental Pollution, No. 153, 176-183.
19. Mann, H.B. 1945. Non-parametric tests against trend, Econometrica 13:163-171.
20. Mejdoub, Z., Zaid, Y.; Hmimid, F.; Kabine, K. (2018). Assessment of metals bioaccumulation and bioavailability in mussels Mytilus galloprovincialis exposed to outfalls pollution in coastal areas of Casablanca. Journal of Trace Elements in Medicine and Biology, No. 48, 30–37.
21. Milestone DMA-80 EVO User Manual-MA213-003.pdf.
22. Meteigner, C. (2017). Evaluation de la qualité des zones de récolte conchylicole. Département des LANDE. RST/LER/AR/LER/17. 006.
23. NM EN 13805. (2015). Produits alimentaires : Dosage des éléments traces Digestion sous pression.
24. NM EN 15763. (2012). Dosage des éléments traces-Dosage de l’arsenic, du cadmium, du mercure et du plomb par spectrométrie d’émission avec plasma induit par haute fréquence et spectromètre de masse (ICP-MS) après digestion sous pression.
25. NM ISO 16649-3. (2015). Microbiologie de la chaîne alimentaire-Méthode horizontale pour le dénombrement des E. coli bêta-glucuronidase positive-Partie 3 : Recherche et technique du nombre le plus probable utilisant le bromo-5-chloro-4-indolyl-3 ß-D-glucuronate.
26. NM ISO 6887-3. (2017). Microbiologie de la chaîne alimentaire-Préparation des échantillons, de la suspension mère et des dilutions décimales en vue de l'examen microbiologique-Partie 1 : Règles générales pour la préparation de la suspension mère et des dilutions décimales.
27. NM ISO 7218. (2014). Microbiologie des aliments-Exigences générales et recommandations.
28. Piquet, J-C. (2018). Procédure nationale de la surveillance sanitaire microbiologique des zones de récolte de coquillages. REMI – IFREMER.,
29. Rubini, S., Galletti, G., D’Incau, M., Govoni, G., Boschetti, L., Berardelli, C., Barbieri, S., Merialdi, G., Formaglio, A., Guidi, E., Bergamini, M., Piva, S., Serraino, A., Giacometti, S. (2018). Occurrence of Salmonella enterica subsp. enterica in bivalve molluscs and associations with Escherichia coli in molluscs and faecal coliforms in seawater. Food Control, No. 84, 429-35.
30. Sferlazzo, G., Meloni, D., Lamon, S., Marceddu, M., Mureddu, M., Consolati, S. G., Pisanu, M., Virgilio, S. (2018). Evaluation of short purification cycles in naturally contaminated Mediterranean mussels (Mytilus galloprovincialis) harvested in Sardinia (Italy). Food Microbiology, No.74, 86-91.
Published
2024-05-31
How to Cite
Khbaya, K., Bouthir, F.-Z., Cherkaoui, R., Kabiri, E. M., Chfiri, R., & Bessa, A. (2024). Assessing the Quality of Shellfish Harvesting Areas: The Case of the Oualidia and Sidi Moussa Lagoons in Morocco. European Scientific Journal, ESJ, 20(15), 223. https://doi.org/10.19044/esj.2024.v20n15p223
Section
ESJ Natural/Life/Medical Sciences