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References 1. Farmer JJ. 3rd Vibrio (“Beneckea”) vulnificus, the bacterium associated with sepsis, septicemia, and the sea. Lancet 1979; 2: 903. 10.1016/S0140-6736(79)92715-6 2. Hsueh PR, Lin CY, Tang HJ, Lee HC, Liu JW, Liu YC, et al. Vibrio vulnificus in Taiwan. Emerg Infect Dis. 2004; 10:1363-8. 3. Liu JW, Lee IK, Tang HJ, Ko WC, Lee HC, Liu YC, et al. Prognostic factors and antibiotics in Vibrio vulnificus septicemia. Arch Intern Med. 2006; 166: 2117-23. 4. Haq SM, Dayal HH. Chronic liver disease and consumption of raw oysters: a potentially lethal

Ehrlichia ruminantium . BMC Microbiology 2010, 10:296. 16. Lee SW, Kim TJ, Park SY, Song CS, Chang HK, Yeh JK, Park HI, Lee JB. 2001. Prevalence of porcine proliferative enteropathy its control with tylosin in Korea. J Vet Sci 2001, 2:209-212. 17. Chu JQ, Hu XM, Kim MC, Park CS, Jun MH. 2010. Detection and genetic characterization of Lawsonia intracellularis from swine in Korea. Korean J Vet Serv 2010, 33(3):223-231. 18. Han F, Ge B. Quantitative detection of Vibrio vulnificus in raw oysters by real-time loopmediated isothermal amplification. Int J Food Microbiol 2010

of Brassica juncea L. to enhance metal accumulation and extraction properties. Plant Cell Reports, 26, 429-437. Nowakowska J., Oliver J.D. 2013. Resistance to environmental stresses by Vibrio vulnificus in the viable but nonculturable state. FEMS Microbiology ecology, 84, 213-222. Page V., Weisskopf L., Feller U. 2006. Heavy metals in white lupin: uptake, root-to-shoot transfer and redistribution within the plant. New Phytologist, 171, 329-341. Patterson III W.A., Olson J.J. 1983. Effects of heavy metals on radicle growth of selected woody species germinated on

., Dong, L., Xu, M., Wang, Z. (2014). Dietary supplementation of Bacillus subtilis and fructooligosaccharide enhance the growth, nonspecific immunity of juvenile ovate pompano, Trachinotus ovatus and its disease resistance against Vibrio vulnificus. Fish Shellfish Immunol. 38, 7-14. PMid:24614017 6. Reverter, M., Bontemps, N., Lecchini, D., Banaigs, B., Sasal, P. (2014). Use of plant extracts in fish aquaculture as an alternative to chemotherapy: current status and future perspectives. Aquaculture 433, 50-61. https

bacteria Listeria monocytogenes in water environment and sewage. Journal of Environmental Studies 1:31-37. Callol A., Pajuelo D., Ebbesson L., Teles M., MacKenzie S., Amaro C., 2015. Early steps in the European eel (Anguilla anguilla)-Vibrio vulnificus interaction in the gills: role of the RtxA13 toxin. Fish Shellfish Immunology 43:502-509. Carpenter David O., 2011. Health effects of persistent organic pollutants: the challenge for the Pacific Basin and for the world. Rev Environ Health 26(1): 61-69 Cioca Ana-Andreea, Heemken Olaf, Mihaiu Marian. (2017a). The Rate of

oreochromis ) on metabolic parameters in rabbits. International Journal of Applied Biology and Pharmaceutical Technology, 4, 317-321. Chen, C. Y., Wooster, G. A., Bowser, P. R. (2004): Comparative blood chemistry and histopathology of tilapia infected with Vibrio vulnificus or streptococcus iniae or exposed to carbon tetrachloride, gentamicin, or copper sulphate. Aquaculture, 239, 421-443. Crichton, C. A., Conrad, A. U., Baird, D. J. (2004): Assessing stream grazer response to stress: Apost-exposure feeding bioassay using the freshwater snail Lymnaea peregra (Muller

.6) 10.5 (10.5, 13)      Serratia marcescens 3 (0.6) 18 (17, 29)      Neisseria gonorrhoeae 2 (0.4) 29.5 (29,30)      Vibrio vulnificus 2 (0.4) 8.5 (8.5, 8.5)      Campylobacter spp. 1 (0.2) 45     Unidentified Gram-negative bacilli 7 (1.4) 32 (28.5, 43) Yeast and other fungi 57 (11.6) 27.5 (22, 38)     Candida spp. 55 (11.2) 27 (22, 36.5)        Candida tropicalis 14 (2.9) 19.8 (19, 22)        Candida albicans 10 (2.0) 40.5 (34, 54)        Candida parapsilosis 3 (0.6) 41.5 (26.5, 87.5)        Candida guilliermondii 3 (0.6) 28 (26, 30