SciELO - Scientific Electronic Library Online

SciELO - Scientific Electronic Library Online

Referencias del artículo

SHEN, KAILI et al. Hormesis response of marine and freshwater luminescent bacteria to metal exposure. Biol. Res. [online]. 2009, vol.42, n.2, pp.183-187. ISSN 0716-9760.

    ARUFE MJ, ARELLANO J, MORENO MJ, SARASQUETE C (2004) Toxicity of a commercial herbicide containing terbutryn and triasulfuron to seabream (Sparus aurata L.) larvae: a comparison with the Microtox test. Ecotoxicol Environ Saf 59: 209-216 [ Links ]

    CALABRESE EJ (1999a) Evidence that hormesis represents an overcompensation response to a disruption in homeostasis. Ecotoxicol Environ Saf 42: 135-137 [ Links ]

    CALABRESE EJ, BALDWIN LA, HOLLAND CD (1999b) Hormesis: A highly generalizable and reproducible phenomenon with important implications for risk assessment. Risk Anal 19: 261-281 [ Links ]

    CHINA-NEPA (1995) Water quality-determination of the acute toxicity-luminescent bacteria test. GB/T 15441-1995 [ Links ]

    CHRISTOFI N, HOFFMANN C, TOSH L (2002) Hormesis responses of free and immobilized light-emitting bacteria. Ecotoxicol Environ Saf 52: 227-231 [ Links ]

    FARGASOV A (1994) Comparative toxicity of five metals on various biological subjects. Bull Environ ContamToxicol53: 317-324 [ Links ]

    FULLADOSA E, MURAT JC, BOLLINGER JC, VILLAESCUSA I (2007a) Adverse effects of organic arsenical compounds towards Vibrio fischeri bacteria. Sci Total Environ 377: 207-213 [ Links ]

    FULLADOSA E, MURAT JC, MARTINEZ M, VILLAESCUSA I (2005a) Patterns of metals and arsenic poisoning in Vibrio fischeri bacteria. Chemosphere 60: 43-48 [ Links ]

    FULLADOSA E, MURAT JC, VILLAESCUSA I (2005b) Effect of Cadmium (II), Chromium (VI) and Arsenic (V) on long-term viability- and growth- inhibition assays using Vibrio fischeri marine bacteria. Arch Environ Contam Toxicol 49: 299-306 [ Links ]

    FULLADOSA E, VILLAESCUSA I, BOLLINGER JC, MURAT JC (2007b) Effect of arsenic compounds on Vibrio fischeri light emission and butyrylcholinesterase activety. Environ Chem Lett 5: 115-119 [ Links ]

    GELLERT G (2000) Sensitivity and significance of luminescent bacteria in chronic toxicity testing based on growth and bioluminescence. Ecotoxicol Environ Saf 45: 87-91 [ Links ]

    GHOSH SK, DOCTOR PB, KULKARNI PK (1996) Toxicity of zinc in three microbial test systems. Environ Toxic Water 11: 13-19 [ Links ]

    HINWOOD AL, MCCORMICK MJ (1987) The effect of ionic solutes on EC50 values measured using the Microtox test. Toxic Assess 2: 449-461 [ Links ]

    MA M, TONG Z, WANG Z, ZHU W (1999) Acute toxicity bioassay using the freshwater luminescent bacterium Vibrio-qinghaiensis sp. Nov.-Q67. Bull Environ Contam Toxicol 62: 247-253 [ Links ]

    RADIX P, LEONARD M, PAPANTONIOU C, ROMAN G, SAOUTER E, GALLOTTI-SCHMITT S, THIBAUD H, VASSEUR P (2000) Comparison of four chronic toxicity tests using algae, bacteria, and invertebrates assessed with sixteen chemicals. Ecotoxicol Environ Saf 47: 186-194 [ Links ]

    TEEGUARDEN JG, DRAGAN YP, PITOT HC (1998) Implications of hormesis on the bioassay and hazard assessment of chemical carcinogens. Human Exp Toxicol 17: 254-258 [ Links ]

    ZHU WJ, WANG J, CHEN XY, ZHAXI CR, YANG Y, SONG Y (1994) A new species of luminous bacteria Vibrio qinghaiensis sp. NOV. Oceanologa et Limnologia Sinica 25: 273-279 (Chinese article).
    [ Links ]