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Mercury apples

Kirschner DS, Billau RL, MacDonald TJ. 1988. Fluorescent light tube compaction Evaluation of employee exposure to airborne mercury. Appl Ind Hyg 3(4) 129-131. [Pg.620]

Bae, W., Mehra, R. K., Mulchandani, A., and Chen, W. (2001). Genetic engineering of Escherichia coliior enhanced uptake and bioaccumulation of mercury. Appl. Environ. Microbiol. 67, 5335-5338. [Pg.80]

BaekayT, Gillman M and Turner RR (1997) Effects of dissolved organic carbon and salinity on bioavailability of mercury. Appl Environ Microbiol 63 4267-4271. [Pg.985]

Gustin MS, Lindberg SE, Weisberg PJ (2008) An update on the natural sources and sinks of atmospheric mercury. Appl Geochem 23 482 93... [Pg.94]

SmitJisonian Tables, Table 269. For a detailed discussion of mercury data, see Cook, Biit. J. Appl. Fhys., 7,285 (1956). For data on nitrogen and argon, see Johnson (ed.), WADD-TR-60-56, 1960. [Pg.175]

Basol BB, Tseng ES (1986) Mercury cadmium telluiide solar cell with 10.6% efficiency. Appl Phys Lett 48 946-948... [Pg.152]

De Marco R, Pejcic B, Prince K, van Riessen A (2003) A multi-technique surface study of the mercury(ll) chalcogenide ion-selective electrode in saline media. Analyst 128 742-749 Pejcic B, De Marco R (2004) Characterization of an AgBr-Ag2S-As2S3-Hgl2ion-selective electrode membrane a X-ray photoelectron and impedance spectroscopy approach. Appl Surf Sci 228 378-400... [Pg.348]

Choi S-C, TT Chase, R Bartha (1994) Metabolic pathways leading to mercury methylation in Desulfovibrio desulfuricans LS. Appl Environ Microbiol 60 4072-4077. [Pg.177]

Ekstrom EB, FM Morel, JM Benoit (2003) Mercury methylation independent of the acetyl-coenzyme A pathway in sulfate-reducing bacteria. Appl Environ Microbiol 69 5414-5422. [Pg.177]

Fleming EJ, EE Mack, PG Green, DC Nelson (2006) Mercury methylation from unexpected sources molybdate-inhibited freshwater sediments and an iron-reducing bacterium. Appl Environ Microbiol 72 457-464. [Pg.177]

King JK, JE Kostka, ME Frischer, FM Saunders (2000) Sulfate-reducing bacteria methylate mercury at variable rates in pure culture and in marine sediments. Appl Environ Microbiol 66 2430-2437. [Pg.178]

Pak K-R, R Bartha (1998) Mercury methylation and demethylation in anoxic lake sediments by strictly anaerobic bacteria. Appl Environ Microbiol 64 1013-1017. [Pg.594]

Edner H, Paris GW, Sunesson A, Svanberg S. 1989. Atmospheric atomic mercury monitoring using differential adsorption LIDAR technique. Appl Opt 28 921. [Pg.42]

Furutani A, Rudd JWM. 1980. Measurement of mercury methylation in lakewater and sediment samples. Appl Environ Microbiol 40 770-776. [Pg.83]

Basu N, Stamler CJ, Loua KM, Chan HM. 2005a. An interspecies comparison of mercury inhibition on muscarinic acetylcholine receptor binding in the cerebral cortex and cerebellum. Toxicol Appl Pharmacol 205 71-76. [Pg.167]

Eaton RDP, Secord DC, Hewitt P. 1980. An experimental assessment of the toxic potential of mercury in ringed-seal Ever for adult laboratory cats. Toxicol Appl Pharmacol 55 514-521. [Pg.173]

Eisemann JD, Beyer WN, Bermetts RE, Morton A. 1997. Mercury residues in South Florida apple snails Pomacea paludosa). Bull Environ Contam Toxicol 58 739-743. [Pg.173]

Farris FF, Dedrick RL, Allen PV, Smith JC. 1993. Physiological model for the pharmacokinetics of methyl mercury in the growing rat. Toxicol Appl Pharmacol 119 74-90. [Pg.174]

Thompson DR, Becker PH, Furness RW. 1993. Long-term changes in mercury concentrations in herring gulls Lams argentatus and common terns Sterna hirundo from the German North Sea coast. J Appl Ecol 30 316-320. [Pg.186]

Thompson DR, Furness RW, Walsh PM. 1992. Historical changes in mercury concentrations in the marine ecosystem of the north and northeast Atlantic Ocean as indicated by seabird feathers. J Appl Ecol 29 79-84. [Pg.186]

Thompson DR, Hamer KC, Furness RW. 1991. Mercury accumulation in great skuas, Cathar-acta skua of known age and sex and its effects upon breeding and survival. J Appl Ecol 28 672-684. [Pg.186]

F. F. Farris, R.L. Dedrick, P.V. Allen and J.C. Smith, Physiological model for the pharmacokinetics of methyl mercury in the growing rat. Toxicol. Appl. Pharmacol., 119 (1993) 74—90. P. Franklin, An Introduction to Fourier Methods and the Laplace Transformation. Dover, New York, 1958. [Pg.505]

Wireman, J., Liebert, C., Smith, T., and Summers, A., Association of mercury resistance with antibiotic resistance in the gram-negative fecal bacteria of primates, Appl Environ Microbiol, 63 (11), 4494-4503, 1997. [Pg.425]

Rasmussen, L.D., Zawadsky, C., Binnerup, S.J., Oregaard, G., Sprensen, S.J., and Kroer, N., Cultivation of hard-to-culture subsurface mercury-resistant bacteria and discovery of new merA gene sequences, Appl Environ Microbiol, 74 (12), 3795-3803, 2008. [Pg.425]

Baldrian, P., der Wiesche, C., Gabriel, J., Nerud, E, and Zadrazil, F., Influence of cadmium and mercury on activities of ligninolytic enzymes and degradation of polycyclic aromatic hydrocarbons by Pleurotus ostreatus in soil, Appl Environ Microbiol, 66 (6), 2471-2478, 2000. [Pg.426]

Pan-Hou HSK, Hosono M, Imura N. 1980. Plasmid-controlled mercury biotransformation by Clostridium cochlearium T-2. Appl Environ Microbiol 40 1007-1011. [Pg.197]

Blakley BR, Sisodia CS, Mukkur TK. 1980. The effect of methyl mercury, tetraethyl lead, and sodium arsenite on the humoral immune response in mice. Toxicol Appl Pharmacol 52 245-254. [Pg.494]

Congiu L, Corongiu FP, Dore M, et al. 1979. The effect of lead nitrate on the tissue distribution of mercury in rats treated with methylmercury chloride. Toxicol Appl Pharmacol 51 363-366. [Pg.503]

Mykkanen H, Rasanen L, Ahola M, et al. 1986. Dietary intakes of mercury, lead, cadmium, and arsenic by Finnish children. Hum Nutr Appl Nutr 40 32-39. [Pg.553]

Monkeys, Macaca fascicularis adults age 7-10 years Monkeys, Macaca fascicularis female adults Monkeys, Macaca spp. Exposed in utero maternal doses of 0, 50, 70, or 90 pg methylmercury/ kg BW daily resulted in blood mercury levels in treated infants of 1.0-2.5 mg/L offspring were conditioned and tested for ability to respond to a lit button for an apple juice reward and other tasks Daily dose of methylmercury chloride in apple juice for 150 days equivalent to daily doses of 0.0, 0.4, 4.0, or 50.0 pg methylmercury/kg BW Various... [Pg.414]

Compeau, G. and R. Bartha. 1984. Methylation and demethylation of mercury under controlled redox, pH, and salinity conditions. Appl. Environ. Microbiol. 48 1202-1207. [Pg.427]

Sellinger, M., N. Ballatori, and J.L. Boyer. 1991. Mechanism of mercurial inhibition of sodium-coupled alanine uptake in liver plasma membrane vesicles from Raja erinacea. Toxicol. Appl. Pharmacol. 107 369-376. [Pg.439]

Wu, M-F., J.R. Ison, J.R. Wecker, and L.W. Lapham. 1985. Cutaneous and auditory function in rats following methyl mercury poisoning. Toxicol. Appl. Pharmacol. 79 377-388. [Pg.442]

Hultman, P., and Enestrom, S., Dose-response studies in murine mercury-induced autoimmunity and immune-complex disease. Toxicol. Appl. Pharmacol., 113, 199, 1992... [Pg.483]

Wechsler, J. (2001). Clinical trial safety and oversight top policy agenda. Appl. Clinical Trials, January 2001, pp. 18-21. www.actmagazine.com/articles/act/act0101 jill.pdf Willman, D. (2000). Quickened pace of drug approvals by FDA taking toll. San Jose Mercury News, Dec. 28, 2000. [Pg.830]

M4. Medley, J. A., The electrostatic charging of some polymers by mercury, Brit. J. Appl. Rhys., Suppl. 2, S28 (1953). [Pg.95]

See other pages where Mercury apples is mentioned: [Pg.497]    [Pg.497]    [Pg.497]    [Pg.497]    [Pg.135]    [Pg.161]    [Pg.425]    [Pg.234]    [Pg.340]   
See also in sourсe #XX -- [ Pg.247 ]



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