Comparative study on spoilage and pathogenic bacteria in selected commercial marine and freshwater fishes


Citation

Nurul Lyana M. S., . and Akbar John B., . and Noor Isma Yanti M., . and Irwandi J., . and Jalal K. C. A., . and Mahbuba Bulbul, . and Faizul H. N., . Comparative study on spoilage and pathogenic bacteria in selected commercial marine and freshwater fishes. S298-S304. ISSN 2231-7546

Abstract

Microorganisms are the major cause of spoilage of most seafood products. Fishes are more perishable than other protein foods and thus more prone to bacterial contamination. Based on above perspectives a bacterial invasion in commercially important fresh and spoiled marine (Lates calcarifer Lutjanus sanguineus) and freshwater fish (Pangasius pangasius) were analyzed using API 20E kit. Out of 25 isolates obtained from fresh water fish only 6 isolates were characterized as Gram-positive bacteria and the rest were Gram negative strains (19 isolates). The most dominant genera were Vibrio Enterobacter Serratia and Aeromonas. All these bacteria were found in both fresh fish and spoiled fish sample while Erwinia spp. and Kluyvera spp. were identified only in fresh fish samples. Out of four (4) strains of Staphylococcus spp. S. xylosus was detected exclusively from spoiled fish. The higher number of bacterial micro flora in the spoiled fish gut indirectly indicated increased microbial degradation in the fish gut during spoilage process. Notably almost all the isolates were lactose degraders positive oxidizers and carbohydrate fermenters. Vibrio fluvialis Proteus mirabilis Proteus vulgaris Brucella sp. and Ochrabactrum anthropi were the human pathogenic bacteria found in marine fish Lates calcarifer (Sea perch). While Vibrio fluvialis Proteus mirabilis and Proteus vulgaris were detected in Lutjanus sanguineus (Red snapper). The study portrays that the existing postharvest handling techniques could be a vital factor for degrading hygienic conditions of fish in local fish markets. Nevertheless a long term monitoring is an urgently needed for sustaining the quality flesh of fish towards the betterment of the consumers health.


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Abstract

Microorganisms are the major cause of spoilage of most seafood products. Fishes are more perishable than other protein foods and thus more prone to bacterial contamination. Based on above perspectives a bacterial invasion in commercially important fresh and spoiled marine (Lates calcarifer Lutjanus sanguineus) and freshwater fish (Pangasius pangasius) were analyzed using API 20E kit. Out of 25 isolates obtained from fresh water fish only 6 isolates were characterized as Gram-positive bacteria and the rest were Gram negative strains (19 isolates). The most dominant genera were Vibrio Enterobacter Serratia and Aeromonas. All these bacteria were found in both fresh fish and spoiled fish sample while Erwinia spp. and Kluyvera spp. were identified only in fresh fish samples. Out of four (4) strains of Staphylococcus spp. S. xylosus was detected exclusively from spoiled fish. The higher number of bacterial micro flora in the spoiled fish gut indirectly indicated increased microbial degradation in the fish gut during spoilage process. Notably almost all the isolates were lactose degraders positive oxidizers and carbohydrate fermenters. Vibrio fluvialis Proteus mirabilis Proteus vulgaris Brucella sp. and Ochrabactrum anthropi were the human pathogenic bacteria found in marine fish Lates calcarifer (Sea perch). While Vibrio fluvialis Proteus mirabilis and Proteus vulgaris were detected in Lutjanus sanguineus (Red snapper). The study portrays that the existing postharvest handling techniques could be a vital factor for degrading hygienic conditions of fish in local fish markets. Nevertheless a long term monitoring is an urgently needed for sustaining the quality flesh of fish towards the betterment of the consumers health.

Additional Metadata

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Item Type: Article
AGROVOC Term: Lates calcarifer
AGROVOC Term: Lutjanus
AGROVOC Term: Pangasius pangasius
AGROVOC Term: Marine fishes
AGROVOC Term: Freshwater fishes
AGROVOC Term: Aquatic animals
AGROVOC Term: Pathogenic bacteria
AGROVOC Term: Contamination
AGROVOC Term: Isolation
AGROVOC Term: Organoleptic properties
Depositing User: Ms. Suzila Mohamad Kasim
Last Modified: 24 Apr 2025 06:28
URI: http://webagris.upm.edu.my/id/eprint/23946

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