Identification Of Vibrio Species Occurring In Food Fishes And Studies On Their Antibiotic Resistances
Crustaceans suitable for aquaculture, shrimp plays an important role. To increase production, aquacultures have resorted to high stocking densities leading to diseases resulting in heavy losses to aquaculture industry. Among the various pathogens, Vibrio has been found to be one of the most studied...
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| Language: | unknown |
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Zenodo
2018
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| Online Access: | https://dx.doi.org/10.5281/zenodo.1339360 https://zenodo.org/record/1339360 |
| Summary: | Crustaceans suitable for aquaculture, shrimp plays an important role. To increase production, aquacultures have resorted to high stocking densities leading to diseases resulting in heavy losses to aquaculture industry. Among the various pathogens, Vibrio has been found to be one of the most studied and diverse genus of microorganisms found in the aquatic systems. Hence, the present study was attempted to identify the different species of Vibrio that occurs in fishes and shrimps grown in this part of the country during the different seasons. A total of 11 species of Vibrio could be isolated of which four species dominated during the rainy season and two species each during the pre-summer and summer season. The differences in the distribution and occurrence of these species is attributed to the changes in the physico-chemical and climatic conditions during each season. Studies on antibiotic resistance reveals that among the various substances tested, herbal extract appeared to be the most effective. : {"references": ["Austin, B. (2010). Vibrios as causal agents of zoonoses. Veterinary Microbiology, 140(3-4), 310-317.", "Austin, B., & Austin, D. (2007). Characteristics of the diseases. Bacterial Fish Pathogens: Diseases of Farmed and Wild Fish, 15-46.", "Cano-Gomez, A., H\u00f8j, L., Owens, L., & Andreakis, N. (2011). Multilocus sequence analysis provides basis for fast and reliable identification of Vibrio harveyi-related species and reveals previous misidentification of important marine pathogens. Systematic and Applied Microbiology, 34(8), 561-565.", "Gomez Gil, B., Roque, A., & Turnbull, J. F. (2000). The use and selection of probiotic bacteria for use in the culture of larval aquatic organisms. Aquaculture, 191(1-3), 259-270.", "Heran, M., Surendran, V., Madusudhan Reddy, K., & Subba Rao, V. (1992). A success story on scientific shrimp farming. Fishing Chimes, 34.", "Horii, T., Morita, M., Muramatsu, H., Monji, A., Miyagishima, D., Kanno, T., & Maekawa, M. (2005). Antibiotic resistance in Aeromonas hydrophila and Vibrio alginolyticus isolated from a wound infection: a case report. Journal of Trauma and Acute Care Surgery, 58(1), 196-200.", "Kishishita, M., Matsuoka, N., Kumagai, K., Yamasaki, S., Takeda, Y., & Nishibuchi, M. (1992). Sequence variation in the thermostable direct hemolysin-related hemolysin (trh) gene of Vibrio parahaemolyticus. Applied and Environmental Microbiology, 58(8), 2449-2457", "Le Roux, F., Gay, M., Lambert, C., Waechter, M., Poubalanne, S., Chollet, B., Berthe, F. (2002). Comparative analysis of Vibrio splendidus-related strains isolated during Crassostrea gigas mortality events. Aquatic Living Resources, 15(4), 251-258.", "Lee, K.-K., Yu, S.-R., Chen, F.R., Yang, T.I., & Liu, P.C. (1996). News & notes: Virulence of Vibrio alginolyticus isolated from diseased tiger prawn, Penaeus monodon. Current Microbiology, 32(4), 229-231.", "Lekshmy, S., Nansimole, A., Mini, M., Athira, N., & Radhakrishnan, T. (2014). Occurrence of Vibrio cholerae in shrimp culture environments of Kerala, India. Indian Journal of Scientific Research, 5(2), 151", "Ramaiah, N. (2006). A review on fungal diseases of algae, marine fishes, shrimps and corals. Indian Journal of Geo-Marine Sciences,35(4), 380-387.", "Simidu, U., & Tsukamoto, K. (1985). Habitat segregation and biochemical activities of marine members of the family Vibrionaceae. Applied and Environmental Microbiology, 50(4), 781-790.", "Thompson, F. L., Iida, T., & Swings, J. (2004). Biodiversity of vibrios. Microbiology and Molecular Biology Reviews, 68(3), 403-431."]} |
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