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Killifish

Nagase H, Hamasaki T, Sato T, Kito H, Yoshioka Y, Ose Y (1991) Structure-activity relationships for organotin compounds on the red killifish Oryzias latipes. Applied Organometallic Chemistry, 5(2) 91-97. [Pg.48]

Experimentally measured bioconcentration factors (BCFs), which provide an indication of the tendency of a chemical to partition to the fatty tissue of organisms, have been found to range between 10 and 100 for trichloroethylene in fish (Kawasaki 1980 Kenaga 1980 Neely et al. 1974 Veith et al. 1980). Barrows et al. (1980) estimated a value of 17 for bluegill sunfish. Somewhat lower BCFs were determined by Saisho et al. (1994) for blue mussel (4.52) and killifish (2.71). These numbers are suggestive of a low tendency to bioaccumulate. [Pg.210]

Weis, J.S. and P. Weis. 1977. Effects of heavy metals on development of the killifish, Fundulus heteroclitus. Jour. Fish Biol. 11 49-54. [Pg.77]

Khan, A.T. and J.S. Weis. 1987. Effect of methylmercury on egg and juvenile viability in two populations of killifish Fundulus heteroclitus. Environ. Res. 44 272-278. [Pg.433]

Weis, P. 1984. Metallothionein and mercury tolerance in the killifish, Fundulus heteroclitus. Mar. Environ. Res. 14 153-166. [Pg.441]

Burton, D.J. and D.J. Fisher. 1990. Acute toxicity of cadmium, copper, zinc, ammonia, 3,3 -dichlorobenzidine, 2,6-dichloro-4-nitroaniline, methylene chloride, and 2,4,6-trichlorophenol to juvenile grass shrimp and killifish. Bull. Environ. Contam. Toxicol. 44 776-783. [Pg.728]

Eisler, R. 1967. Acute toxicity of zinc to the killifish, Fundulus heteroclitus. Chesapeake Sci. 8 262-264. Eisler, R. 1977a. Acute toxicities of selected heavy metals to the softshell clam, Mya arenaria. Bull. Environ. Contam. Toxicol. 17 137-145. [Pg.730]

In killifish (Fundulus heteroclitus), convulsions, ChE depression, and deaths noted. ChE remained depressed for about 10 weeks after final application (Thirugnanum and Forgash 1977)... [Pg.897]

Tsuda, T., S. Aoki, T. Inoue, and M. Kojima. 1995. Accumulation and excretion of diazinon, fenthion and fenitrothion by killifish comparison of individual and mixed pesticides. Water Res. 29 455-458. [Pg.985]

AQUATIC, MARINE Fish Diamond killifish, Adiniaxenica (exposed adults) ... [Pg.1142]

Longnose killifish, Fundulus similis Mosquitofish >1.0 LC50 (48 h) 6... [Pg.1173]

Longnose killifish, Fundulus similis 57-610 Whole-body BCF of 53 after 168 h Tb 1/2 of 4.7 days. Whole-body residues up to 33 mg/kg FW 48... [Pg.1212]

Tachikawa, M. and R. Sawamura. 1994. The effects of salinity on pentachlorophenol accumulation and elimination by killifish (Oryzias latipes). Arch. Environ. Contam. Toxicol. 26 304-308. [Pg.1234]

Melius, P., D. Elam, M. Kilgore, B. Tan, and W.P. Schoor. 1980. Mixed function oxidase inducibility and polyaromatic hydrocarbon metabolism in the mullet, sea catfish, and Gulf killifish. Pages 1059-1075 in A. Bjorseth and A.J. Dennis (eds.). Polynuclear Aromatic Hydrocarbons Chemistry and Biological Effects. Battelle Press, Columbus, OH. [Pg.1404]

Sheline, J. and B. Schmidt-Nielsen. 1977. Methylmercury-selenium interaction in the killifish, Fundulus heteroclitus. Pages 119-130 in F.J. Vernberg, A. Calabrese, F.P. Thurberg and W.B. Vemberg (eds.). Physiological Responses of Marine Biota to Pollutants. Academic Press, New York. [Pg.1632]

Naphthalene and its homologs are less acutely toxic than benzene but are more prevalent for a longer period during oil spills. The toxicity of different crude oils and refined oils depends not only on the total concentration of hydrocarbons but also the hydrocarbon composition in the water-soluble fraction (WSF) of petroleum, water solubility, concentrations of individual components, and toxicity of the components. The water-soluble fractions prepared from different oils wiU vary in these parameters. Water-soluble fractions (WSFs) of refined oils (e.g.. No. 2 fuel oil and bunker C oil) are more toxic than water-soluble fraction of crude oil to several species of fish (killifish and salmon). Compounds with either more rings or methyl substitutions are more toxic than less substituted compounds, but tend to be less water soluble and thus less plentiful in the water-soluble fraction. [Pg.117]

LC50 (48-h static or semi-static conditions) for Hyale plumulosa 310 mg/L in seawater, red killifish Oryzias latipes) 350 and 94 mg/L in seawater and freshwater, respectively (Onitsuka et al, 1989). [Pg.60]

See other pages where Killifish is mentioned: [Pg.355]    [Pg.356]    [Pg.288]    [Pg.150]    [Pg.62]    [Pg.63]    [Pg.89]    [Pg.407]    [Pg.408]    [Pg.494]    [Pg.756]    [Pg.843]    [Pg.843]    [Pg.892]    [Pg.1140]    [Pg.1375]    [Pg.1409]    [Pg.1468]    [Pg.1613]    [Pg.56]    [Pg.81]    [Pg.85]    [Pg.85]    [Pg.96]    [Pg.107]    [Pg.131]    [Pg.143]    [Pg.249]    [Pg.262]    [Pg.265]    [Pg.277]   
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See also in sourсe #XX -- [ Pg.248 ]

See also in sourсe #XX -- [ Pg.249 ]

See also in sourсe #XX -- [ Pg.101 , Pg.127 , Pg.128 , Pg.144 , Pg.195 , Pg.197 , Pg.200 , Pg.202 , Pg.203 , Pg.214 , Pg.236 , Pg.514 , Pg.516 , Pg.519 , Pg.520 , Pg.522 , Pg.523 ]



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Atlantic killifish

Gulf killifish

Killifish Longnose, Fundulus similis

Longnose killifish

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