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Reconstructing two millennia of copper and silver metallurgy in the Lake Titicaca region (Bolivia/Peru) using trace metals and lead isotopic composition
Guédron, S., Tolu, J., Delaere, C., Sabatier, P., Barre, J., Heredia, C., … Amouroux, D. (2021). Reconstructing two millennia of copper and silver metallurgy in the Lake Titicaca region (Bolivia/Peru) using trace metals and lead isotopic composition. Anthropocene, 34, 100288 (12 pp.). https://doi.org/10.1016/j.ancene.2021.100288
Natural organic matter, orthophosphate, pH, and growth phase can limit copper antimicrobial efficacy for <em>Legionella</em> in drinking Water
Song, Y., Pruden, A., Edwards, M. A., & Rhoads, W. J. (2021). Natural organic matter, orthophosphate, pH, and growth phase can limit copper antimicrobial efficacy for Legionella in drinking Water. Environmental Science and Technology, 55(3), 1759-1768. https://doi.org/10.1021/acs.est.0c06804
Substance flow analysis as tool for sustainable urban water management regarding xenobiotics
Chèvre, N., Guignard, C., Copin, P. J., Bader, H. P., Scheidegger, R., & Rossi, L. (2010). Substance flow analysis as tool for sustainable urban water management regarding xenobiotics (p. (6 pp.). Presented at the International conference on xenobiotics in the urban water cycle (Xenowac 2009). .
Tolerance of <I>Oocystis nephrocytioides</I> to copper: intracellular distribution and extracellular complexation of copper
Soldo, D., Hari, R., Sigg, L., & Behra, R. (2005). Tolerance of Oocystis nephrocytioides to copper: intracellular distribution and extracellular complexation of copper. Aquatic Toxicology, 71(4), 307-317. https://doi.org/10.1016/j.aquatox.2004.11.011
Speciation of copper and zinc in natural freshwater: comparison of voltammetric measurements, diffusive gradients in thin films (DGT) and chemical equilibrium models
Meylan, S., Odzak, N., Behra, R., & Sigg, L. (2004). Speciation of copper and zinc in natural freshwater: comparison of voltammetric measurements, diffusive gradients in thin films (DGT) and chemical equilibrium models. Analytica Chimica Acta, 510(1), 91-100. https://doi.org/10.1016/j.aca.2003.12.052
Adsorption of copper, nickel, and cadmium on goethite in the presence of organic ligands
Buerge-Weirich, D., Behra, P., & Sigg, L. (2003). Adsorption of copper, nickel, and cadmium on goethite in the presence of organic ligands. Aquatic Geochemistry, 9(2), 65-85. https://doi.org/10.1023/B:AQUA.0000019455.82756.ac
Analytical electron microscopy and focused ion beam: complementary tool for the imaging of copper sorption onto iron oxide aggregates
Mavrocordatos, D., Steiner, M., & Boller, M. (2003). Analytical electron microscopy and focused ion beam: complementary tool for the imaging of copper sorption onto iron oxide aggregates. Journal of Microscopy, 210, 45-52. https://doi.org/10.1046/j.1365-2818.2003.01168.x
Copper and zinc content of periphyton from two rivers as a function of dissolved metal concentration
Behra, R., Landwehrjohann, R., Vogel, K., Wagner, B., & Sigg, L. (2002). Copper and zinc content of periphyton from two rivers as a function of dissolved metal concentration. Aquatic Sciences, 64(3), 300-306. https://doi.org/10.1007/s00027-002-8074-9
Diffuse emission and control of copper in urban surface runoff
Boller, M. A., & Steiner, M. (2002). Diffuse emission and control of copper in urban surface runoff. Water Science and Technology, 46(6-7), 173-181. https://doi.org/10.2166/wst.2002.0677
The contemporary European copper cycle: statistical entropy analysis
Rechberger, H., & Graedel, T. E. (2002). The contemporary European copper cycle: statistical entropy analysis. Ecological Economics, 42(1-2), 59-72. https://doi.org/10.1016/S0921-8009(02)00102-7
Different expression patterns of heat shock proteins hsp 60 and hsp 70 in zebra mussels (<I>Dreissena polymorpha</I>) exposed to copper and tributyltin
Clayton, M. E., Steinmann, R., & Fent, K. (2000). Different expression patterns of heat shock proteins hsp 60 and hsp 70 in zebra mussels (Dreissena polymorpha) exposed to copper and tributyltin. Aquatic Toxicology, 47, 213-226. https://doi.org/10.1016/S0166-445x(99)00022-3
OH radical-initiated oxidation of organic compounds in atmospheric water phases: part 2. Reactions of peroxyl radicals with transition metals
Stemmler, K., & von Gunten, U. (2000). OH radical-initiated oxidation of organic compounds in atmospheric water phases: part 2. Reactions of peroxyl radicals with transition metals. Atmospheric Environment, 34(25), 4253-4264. https://doi.org/10.1016/S1352-2310(00)00219-3
Combinations of chlorocatechols and heavy metals cause DNA degradation in vitro but must not result in increased mutation rates in vivo
Schweigert, N., Belkin, S., Leong-Morgenthaler, P., Zehnder, A. J. B., & Eggen, R. I. L. (1999). Combinations of chlorocatechols and heavy metals cause DNA degradation in vitro but must not result in increased mutation rates in vivo. Environmental and Molecular Mutagenesis, 33(3), 202-210. https://doi.org/10.1002/(SICI)1098-2280(1999)33:3<202::AID-EM4>3.0.CO;2-C
Adsorption and uptake of copper by the green alga <I>Scenedesmus subspicatus</I> (Chlorophyta)
Knauer, K., Behra, R., & Sigg, L. (1997). Adsorption and uptake of copper by the green alga Scenedesmus subspicatus (Chlorophyta). Journal of Phycology, 33(4), 596-601. https://doi.org/10.1111/j.0022-3646.1997.00596.x
Effects of free Cu<SUP>2+</SUP> and Zn<SUP>2+</SUP> ions on growth and metal accumulation in freshwater algae
Knauer, K., Behra, R., & Sigg, L. (1997). Effects of free Cu2+ and Zn2+ ions on growth and metal accumulation in freshwater algae. Environmental Toxicology and Chemistry, 16(2), 220-229. https://doi.org/10.1002/etc.5620160218
The role of copper and oxalate in the redox cycling of iron in atmospheric waters
Sedlak, D. L., & Hoigné, J. (1993). The role of copper and oxalate in the redox cycling of iron in atmospheric waters. Atmospheric Environment, 27A(14), 2173-2185. https://doi.org/10.1016/0960-1686(93)90047-3
Binding of Cu(II) to algae in a metal buffer
Xue, H. B., & Sigg, L. (1990). Binding of Cu(II) to algae in a metal buffer. Water Research, 24(9), 1129-1136. https://doi.org/10.1016/0043-1354(90)90176-7