Eu risk assessment [copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide] cas [7440-50-8, 7758-98-7




НазваниеEu risk assessment [copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide] cas [7440-50-8, 7758-98-7
страница19/19
Дата конвертации29.10.2012
Размер0.8 Mb.
ТипДокументы
1   ...   11   12   13   14   15   16   17   18   19
.

Webelements (2003). Website, as available on 21/01/2003 (http://www.webelements.com/webelements/elements/text/Cu/phys.html).

Webster, N. S., R. I. Webb, M. J. Ridd, R. T. Hill and A. P. Negri. 2001. The effects of copper on the microbial community of a coral reef sponge. Environ. Microbiol. 3(1): 19-31.

Weckwerth (2001). Verification of traffic emitted aerosol components in the ambient air of Cologne (Germany). Atmospheric environment 35, 5525-5536.

Weis K.C. & Linder M.C. (1985). Copper transport in rats involving a new plasma protein. Am. J. Physiol. Z49: E788; Not GLP; Published.

Weis, P.; Weis, J.S. (1999). Accumulation of metals in consumers associated with chromated copper arsenate-treated wood panels. Elsevier Science Ltd. - Marine Environmental Research 48 : 73-81.

WEKA (1999). Richtiger Umgang mit Abfällen. In: Praxis Handbuch Plus. Fachverlag für technische Führungskräfte GmbH, Augsburg, Germany, Section 3.2.11 (in German).

Wells M.L. et al (2005) Domoic acid: Thesynergy of iron, copper, and the toxicity of diatoms. Limnol. Oceanogr., 50(6) 1908-1917.

Welsh P., Lipton J., Cacela D., Podrabsky T., Hudson R. and Mastrine J. (1997). Calcium concentration vs water hardness: modifiers of metal toxicity to aquatic organisms. In: Abstract Book, SETAC 18th Annual Meeting. SETAC press, Pensacola, Florida.

Welsh P.G., Parrott J.L., Dixon D.G., Hodson P.V., Hutchinson N.J. and Hickie B.E. (1996). Estimating acute copper toxicity to larval fathead minnow (Pimephales promelas) in soft water from measurements of dissolved organic carbon, calcium and pH. Can. J. Fish. Aquat. Sci. 53, 1263-1271.

Welsh P.G., Skidmore J.F., Spry D.J., Dixon D.G., Hodson P.V., Hutchinson N.J. and Hickie B.E. (1993). Effect of pH and dissolved organic carbon on the toxicity of copper to larval fathead minnow (Pimephales promelas) in natural lake waters of low alkalinity. Can. J. Fish. Aquat. Sci. 50, 1356-1362.

Welslau G. and Kraus H.H. (1998). Elektronik Schrott (WEEE). Europäisches Parlament, Direktion B, Abteilung für Umwelt, Energie und Forschung, Luxemburg (in German).

Wenholz M and R Crunkilton, 1995. Use of toxicity identification evaluation procedures in the assessment of sediment pore-water toxicity froim an urban stormwater retention pond in Padison, Wisconsin. Bulletin of Environmental Contamination and Toxicology 54(5), 676-682.

Wenning RJ, Batley GE, Ingersoll CG and DW Moore DW, (2005). Use of Sediment Quality Guidelines and Related Tools for the Assessment of Contaminated Sediments. SETAC Press, Pensacola, FL. 783 pp.

Wentsel R, McIntosh A and G Atchison, (1977). Sublethal effects of heavy metal contaminated sediment on midge larvae (Chironomus tentans). Hydrobiologia 56, 53-156.

Wentsel R, McIntosh A and V Anderson, (1977a). Sediment contamination and benthic invertebrate distribution in a metal-impacted lake. Environmental Pollution 14, 187-193.

Wentsel RA, McIntosh A and PC McCafferty, (1978). Emergence of the midge Chironomus tentans when exposed to heavy metal contaminated sediments. Hydrobiologia 57, 195-196.

Wesselink (1995). Relatie uitlooggedrag laboratorium-praktijk bij wegenbouwkundige projecten. Geo-chemische modellering uitlooggedrag vliegas Vondelingenweg en AVI-bodemas Coloradoweg, Rotterdam. RIVM report 771402016.

Westerlund (2001). Metal emissions from Stockholm traffic – wear of brake linings. Stockholm Env. Adm.

Wheeler J.R.; Leung K.M.Y.; Morritt D.; Sorokin N.; Rogers H.; Toy R.; Holt M.; Whitehouse P.; Crane M. (2002) Freshwater to Saltwater toxicity extrapolation using Species Sensitivity Distributions; Environmental Toxicology and Chemistry, Vol 21 N° 11, pp. 2459-2467; Not GLP; Published.

Whitaker P & McArdle H.J. (1997) Iron Inhibits copper uptake by rat hepatocytes by down-regulating the plasma membrane NADH Oxidase in Fisher P.W. L’Abbe M.R. Cockell K.A. et al (Eds). Trace Elements in Man and Animals . (TEMA9). NRC Research Press Ottawa pp237-239; Not GLP; Published.

White S.L. & Rainbow P.S. (1982). Regulation and accumulation of copper, zinc and cadmium by the shrimp palaemon elegans. Marine Ecology Progress Series 8; 95-101; Not GLP; Published.

WHO (1990). Environmental Health Criteria 70, Principles for the Safety Assessment of Food Additives and Contaminants in Food. International Programme on Chemical Safety; Not GLP, Published.

WHO (1998). Copper. Environmental Health Criteria 200. Inernational Programme on Chemical Safety; Not GLP; Published.

Wieser, W. 1961. Copper in isopods. Nature (London) 191: 1020.

Wiklund, AK, Sundelin B. (2002). Bioavailability of metals to the amphipod Monoporeia affinis: Interactions with authigenic sulfides in urban brackish-water and freshwater sediments. Environ Toxicol Chem 21, 1219-1228.

Williams P.T. (1998). Waste Ttreatment and Disposal. John Wiley and Sons. 407 p.

Williams T.D.; Hayfield A.J. (2006). Copper effects on the survival, development and reproduction of the marine copepod Tisbe battagliai; BEL report N° BL8295/B;GLP; Unpublished.

Wilson R.W. and Taylor E.W. (1993). The physiological response of freshwater rainbow trout Oncorhynchus mykiss during acutely lethal copper exposure. Journal of Comparative Physiology B, 163, 38-47.

Winger P.V., Imlay M.J., McMillan W.E., Martin T.W., Takekawa J. and Johnson W.W. (1984). Field and laboratory evaluation of the influence of copper-diquat on apple snails in southern Florida. Environmental Toxicology and Chemistry 3, 409-424.

Winks K. (1990). Effects of metal mixtures on Pimephales promelas larval growth in water and sediment exposures. MS Thesis. Wright State University, Dayton, OH USA.

Winner R.W. (1981). A comparison of body length, brood size and longevity as indices of chronic copper and zinc stresses in Daphnia magna. Environmental Pollution. Series A. Ecological and Biological 26, 33-37.

Winner R.W. (1984). Selenium effects on antennal integrity and chronic copper toxicity in Daphnia pulex (de Geer). Bulletin of Environmental Contamination and Toxicology 33(5), 605-611.

Winner R.W. (1984). The Toxicity and Bioaccumulation of Cadmium and Copper as Affected by Humic Acid. Aquatic Toxicology 5:267-274; Not GLP; Published.

Winner R.W. (1985). Bioaccumulation and toxicity of copper as affected by interactions between humic acid and water hardness. Water Research 19(4), 449-455.

Winner R.W. and Farrell M.P. (1976). Acute and chronic toxicity of copper to four species of Daphnia. Journal of the Fisheries Research Board of Canada 33, 1685-1691.

Winner R.W. and Gauss J.D. (1986). Relationship between chronic toxicity and bioaccumulation of copper, cadmium and zinc as affected by water hardness and humic acids. Aquatic Toxicology 8, 149-161.

Winner R.W. and Owen H.A. (1991a). Toxicity of copper to Chlamydomonas reinhardtii (Chlorophyceae) and Ceriodaphnia dubia (Crustacea) in relation to changes in water chemistry of a freshwater pond. Aquatic Toxicology 21, 151-170.

Winner R.W. and Owen H.A. (1991b). Seasonal variability in the sensitivity of freshwater phytoplankton communities to a chronic copper stress. Aquatic Toxicology 19, 73-88.

Winner R.W., Keeling T., Yeager R. and Farrell M.P. (1977). Effect of food type on the acute and chronic toxicity of copper to Daphnia magna. Freshwater Biology 7, 343-349.

Winner R.W., Owen H.A. and Moore M.V. (1990). Seasonal variability in the sensitivity of freshwater lentic communities to a chronic copper stress. Aquatic Toxicology 17, 75-92.

Winner R.W., Van Dyke J.S., Caris N. and Farrel M.P. (1975). Response of the macroinvertebrate fauna to a copper gradient in an experimentally-polluted stream. Verh. Internat. Verein. Limnol. 19, 2121-2127.

Wirth W.L. & Linder M.M. (1985). Distribution of Copper Among Components of Human Serum. JNCI 75:277-284; Not GLP; Published.

Wittassek, R. 1987. Investigations on Distribution of Copper in Soil, Vegetation and Soil Fauna of a Vineyard Ecosystem. Ph D Thesis Landwirtschaftliche Fakutaet , Bonn Univ; Bonn, Germany 181 pp NTIS TIB-B89-80261; or DE89-770222.

Wong S.L., Nakomoto L. and Wainwright J.F. (1994). Identification of toxic metals in affected algal cells in assays of wastewaters. Journal of Applied Phycology 6, 405-414.

Wong, S. L. 1985. Algal assay evaluation of trace contaminants in surface water using the nonionic surfactant, triton X-100. Aquat; Toxicol (Amsterdam) 6: 115-131.

Wong, S. L. 1985. Algal assay evaluation of trace contaminants in surface water using the nonionic surfactant, triton X-100. Aquat; Toxicol (Amsterdam) 6: 115-131.

Woolliams, C, J Woolliams and G Wiener. 1983. Mortality in lambs selected for low & high copper status. p 40 In: Agricultural Research Council (ed) Animal Breeding Research Organisation Report Anim Breed Res Organ; Edinurgh, England; 48 pp.

Woolliams, C., N. F. Suttle, J. A. Woolliams, D. J. Jones, and G. Wiener. 1986. Studies on lambs genetically selected for low and high copper status. 1. Differences in mortality.Anim. Prod. 43:293–301.

Woolliams, J A, N F Suttle, G Wiener, A C Field and C Woolliams. 1983. The long-term accumulation and depletion of copper in the liver of different breeds of sheep fed diets of differing copper content. J Agric Sci; 100: 441-449.

Woolliams, J A; Suttle, N F; Wiener, G; Field, A C; Wooliams, Carol (1982). The effect of breed of sire on the accumulation of copper in lambs, with particular reference to copper toxicity. Anim. Prod. 35 : 299-307.

WRAP (2003). A strategy for construction, demolition and excavation waste as recycled aggregates. DTI/WRAP (Waste and Resources Action Programme) aggregates research programme, United Kingdom, September 2003.

WRc (2003). Collection of UK tap water quality data.

Wright JF, Sutcliffe DW and MT Furse (eds.), (2001). Assessing the biological quality of freshwaters. RIVPACS and other techniques. Ambleside, UK: Freshwater Biological Association, United Kingdom.

Wright JF, Blackburn JH, Gunn RJM, Furse MT, Armitage PD, Winder JM, Symes KL and D Moss, (1996). Macroinvertebrate frequency data for the RIVPACS III sites in Great Britain and their use in conservation evaluation. Aquatic Conservation 6, 141-167.

Wright, D A. 1995. Trace metal and major ion interactions in aquatic animals. Mar Pollut Bull; 31(1-3): 8-18.

Wu J.T.; Hsieh M-T.; Kow L.C. (1998) Role of proline accumulation in response to toxic copper in chlorella sp. (Chlorophyceae) cells. Journal of Phycology,n Volume 34 p113.

Wuest (2001). Bauabfaelle Schweiz – Mengen, Perspektiven und Entsorgungswege. Umwelt Materialien 131, Abfall, Band 1, Published by the Bundesamt fuer Umwelt, Wald und Landschaft (BUWAL), Switzerland, 2001.

Wunderli-Ye Haibo H. and M. Solioz. 1999. “Copper Homeostasis in Enterococcus Hirae” in Copper Transport and its disorders, edited by Leone and Mercer, Kluwer Acadamic, New York, NY, USA : 484 – 486.

Wurts W.A. and Perschbacher P.W. (1994). Effects of bicarbonate alkalinity and calcium on the acute toxicity of copper to juvenile catfish Ictalurus punctatus. Aquaculture 125, 73-79.

Xin Z.; Waterman D.F.; Hemken R.W.; Harmon R.J.; Jackson J.A. (1991). Effects of copper sources and dietary cation-anion balance on copper availability and acid-base status in dietary calves. J. Dairy Sci. 74: 3167-3173; Not GLP; Published.

Xue, Hanbin; Sunda, William G. (1997). Comparison of [Cu2+] Measurements in Lake Water Determinated by Ligand Exchange and Cathodic Stripping Voltammetry and by Ion-Selective Electrode. Environmental Science Technology - American Chemical Society 31 (7) : 1902-1909.

Yläranta T. (1994). Effect of road traffic on heavy metal concentrations of plants. Agricultural Science in Finland 4, 35-48.

Young J.S.; Buschbom R.L.; Gurtisen J.M. & Joyce S.P. (1979) Effects of Copper on the Sabellid Polychaete, Eudistylia vancouveri: I Concentration Limits for Copper Accumulation. Archives of Environmental Contamination and Toxicology 8:97-106; Not GLP; Published.

Young, J.S., Gurtisen, J.M., Apts, C.W., Crecelius, E.A.(1979).The Relationship Between the Copper Complexing Capacity of Sea Water and Copper Toxicity in Shrimp Zoeae. Mar. Environ. Res. 2: 344-348

Yu KC, Tsai LJ, Chen SH and ST Ho, (2001). Chemical binding of heavy metals in anoxic river sediments. Water Research 35(17), 4086-4094.

Yu KC, Tsai LJ, Chen SH, Chang DJ and ST Ho, (2001). Multivariate correlations of geochemical binding phases of heavy metals in contaminated river sediment. Journal of Environmental Science and Health – Part A – Toxic/Hazardous substances and Environmental Engineering 36(1), 1-16.

Zaroogian G.E. & Johnston (1983). Copper Accumulation in the Bay Scallop, Argopecten irradians. Arch. Environ. Contam. Toxicol. 12:127-133; Not GLP; Published.

Zessner M. (1999). Bedeutung und Steuerung van Nährstoff- und Schwermetallflüssen des Abwassers. Wiener Mitteilungen Wasser Abwasser Gewässer, 157, Insitut für Wassergüte und Abfallwirtschaft, TU Wien.

Zhang H, Davison W, Miller S and W Tyck, (1995). In situ high resolution measurements of fluxes of Ni, Cu, Fe, and Mn and concentration of Zn and Cd in porewaters by DGT. Geochim Cosmochim Acta 59, 4181-4192.

Zhang M.; Wang J. Bao J. (1992). Study on the relationship between speciation of heavy metals and their ecotoxicity. I. Toxicity of Cu, Cd, Pb and Zn in sea water to three marine algae in the presence of different complexation agents. Chin. J. Oceanol. Limnol., 10:215-222.

Zhang S. and Forssberg E. (1999). Intelligent liberation and classification of electronic scrap. Sweden Powder Technol. 105, 295–301.

Zhou B. & Gitschier J. (1997). hCTR1; A Human Gene for Copper Uptake Identified by Complementation in Yeast. Proc. Nati. Acad. Sci. USA. 94:7481-7486; Not GLP; Published.

Zhou JL, Liu YP, Abrahams PW, (2003).Trace metal behaviour in the Conwy estuary, North Wales. Chemosphere 51, 429-440.

Zhou Y., Zhou R. and Yin Y. (1992). Acute toxicity of copper to the grass carp, silver carp and loach under different water hardness. Journal of Jinan University 13, 62-67.

Zhuang Y, Allen HE and G Fu, (1994). Effect of aeration on cadmium binding. Environmental Toxicology and Chemistry 13, 717.

Zitko V. and Carson W.G. (1976). A mechanism of the effects of water hardness on the lethality of heavy metals to fish. Chemosphere 5, 299-303.

Zobrist J., Müller R., Ammann A., Bucheli T.D., Mottier V., Ochs M., Schoenenberger R., Eugste J. and Boller M. (2000). Quality of roof runoff for groundwater infiltration. Wat. Res. 34(5), 1455-1462.

Zuurdeeg B.W., van Enk R.J. and Vriend S.P. (1992). Natuurlijke achetrgrondgehalten van zware metalen en enkele andere sporenelementen in Nederlands oppervlaktewater. VROM/DGM/AMS 361346.

ZVEI (1992). Entsorgung von gebrauchten elektrischen und elektronischen Geräten–Leitfaden zur Entwicklung eines Konzeptes. Zentralverband Elektrotechnik- und Elektronikindustrie e.V. (ZVEI), Frakfurt/Main (in German).




rapporteur [Italy] Cu-RA

1   ...   11   12   13   14   15   16   17   18   19

Похожие:

Eu risk assessment [copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide] cas [7440-50-8, 7758-98-7 iconEu risk assessment [copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide] cas [7440-50-8, 7758-98-7

Eu risk assessment [copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide] cas [7440-50-8, 7758-98-7 iconVoluntary Risk assessment of copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide

Eu risk assessment [copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide] cas [7440-50-8, 7758-98-7 iconVoluntary Risk assessment of copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide

Eu risk assessment [copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide] cas [7440-50-8, 7758-98-7 icon“The effect of reversing current on the properties of copper and electrolytic copper powder II. The apparent density and flowability of powders”
«The influece of Si on oxidation resistance of aluminide coating on TiAl alloy», Journal of Achievements in Materials and Manufacturing...

Eu risk assessment [copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide] cas [7440-50-8, 7758-98-7 iconCopper as a colorant

Eu risk assessment [copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide] cas [7440-50-8, 7758-98-7 iconPhotochromic coatings containing copper bromidenanocrystals and zn

Eu risk assessment [copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide] cas [7440-50-8, 7758-98-7 iconPreparation, Characterization and Radiolysis of Copper(II) Complexes Containing Mixed Ligand

Eu risk assessment [copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide] cas [7440-50-8, 7758-98-7 iconEffects of Copper phase on co oxidation over Supported Wacker-type Catalysts

Eu risk assessment [copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide] cas [7440-50-8, 7758-98-7 iconGE’s HardFiber™ System Dramatically Reduces Protection and Control Installation and Maintenance Costs by Up to 50% Through Eliminating Copper Wiring

Eu risk assessment [copper, copper II sulphate pentahydrate, copper(I)oxide, copper(II)oxide, dicopper chloride trihydroxide] cas [7440-50-8, 7758-98-7 iconEu risk assessment chloroform cas 67-66-3 cover


Разместите кнопку на своём сайте:
lib.convdocs.org


База данных защищена авторским правом ©lib.convdocs.org 2012
обратиться к администрации
lib.convdocs.org
Главная страница