Bazaraa,, W. (2003). INCIDENCE OF PATHOGENIC VIBRIOS AND OTHER RELATED SPECIES IN FRESH SHAOOR FISH FROM THE EGYPTIAN RED SEA FISHERIES.. Journal of Food and Dairy Sciences, 28(8), 6247-6255. doi: 10.21608/jfds.2003.245083
W. A. Bazaraa,. "INCIDENCE OF PATHOGENIC VIBRIOS AND OTHER RELATED SPECIES IN FRESH SHAOOR FISH FROM THE EGYPTIAN RED SEA FISHERIES.". Journal of Food and Dairy Sciences, 28, 8, 2003, 6247-6255. doi: 10.21608/jfds.2003.245083
Bazaraa,, W. (2003). 'INCIDENCE OF PATHOGENIC VIBRIOS AND OTHER RELATED SPECIES IN FRESH SHAOOR FISH FROM THE EGYPTIAN RED SEA FISHERIES.', Journal of Food and Dairy Sciences, 28(8), pp. 6247-6255. doi: 10.21608/jfds.2003.245083
Bazaraa,, W. INCIDENCE OF PATHOGENIC VIBRIOS AND OTHER RELATED SPECIES IN FRESH SHAOOR FISH FROM THE EGYPTIAN RED SEA FISHERIES.. Journal of Food and Dairy Sciences, 2003; 28(8): 6247-6255. doi: 10.21608/jfds.2003.245083
INCIDENCE OF PATHOGENIC VIBRIOS AND OTHER RELATED SPECIES IN FRESH SHAOOR FISH FROM THE EGYPTIAN RED SEA FISHERIES.
Food Science and Technology Department, Faculty of Agriculture, Cairo University, Giza, Egypt.
Abstract
The occurrence and distribution of pathogenic vlbrios and other related species in skin, gut and gills of shaoor fish (LetMnus nebulosus) from the east coast of Egypt were studied. Microorganisms were enumerated uSing the most probable number (MPN) technique Isolated species were identified using API 20E and 810LOG biotyping systems. In skin samples, the highest incidence was observed for Aeromonas media-like DNA group 5 (70% of the samples). Vibrio damsela and V. anguil/arum were the most frequently isolated species from gut (70%) and gills (50'10), respectively. Vibrio cholera was detected in both skin and gills at the frequency of 5%, each. Vibrio c8rcharlae was only present in 5% of the liills samples, whereas V. alginolyticus was only detected in skin samples at the same frequency. The high incidence of vibrios highlights potential risks of food borne diseases associated with Ihe consumption of raw or undercooked fish.