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Mixture toxicity of nickel and zinc to Daphnia magna is noninteractive at low effect sizes but becomes synergistic at high effect sizes

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Keywords
Mixture, Metal, Toxicity, Risk assessment, Daphnia, BIOTIC LIGAND MODEL, ENVIRONMENTAL RISK-ASSESSMENT, STABLE-ISOTOPE EXPERIMENT, DISSOLVED ORGANIC-MATTER, METAL MIXTURES, CONFIDENCE-INTERVAL, CERIODAPHNIA-DUBIA, BINARY-MIXTURES, HYALELLA-AZTECA, SURFACE WATERS

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Citation

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MLA
Nys, Charlotte et al. “Mixture Toxicity of Nickel and Zinc to Daphnia Magna Is Noninteractive at Low Effect Sizes but Becomes Synergistic at High Effect Sizes.” ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY 34.5 (2015): 1091–1102. Print.
APA
Nys, C., Asselman, J., Hochmuth, J., Janssen, C., Blust, R., Smolders, E., & De Schamphelaere, K. (2015). Mixture toxicity of nickel and zinc to Daphnia magna is noninteractive at low effect sizes but becomes synergistic at high effect sizes. ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY, 34(5), 1091–1102.
Chicago author-date
Nys, Charlotte, Jana Asselman, Jennifer Hochmuth, Colin Janssen, Ronny Blust, Erik Smolders, and Karel De Schamphelaere. 2015. “Mixture Toxicity of Nickel and Zinc to Daphnia Magna Is Noninteractive at Low Effect Sizes but Becomes Synergistic at High Effect Sizes.” Environmental Toxicology and Chemistry 34 (5): 1091–1102.
Chicago author-date (all authors)
Nys, Charlotte, Jana Asselman, Jennifer Hochmuth, Colin Janssen, Ronny Blust, Erik Smolders, and Karel De Schamphelaere. 2015. “Mixture Toxicity of Nickel and Zinc to Daphnia Magna Is Noninteractive at Low Effect Sizes but Becomes Synergistic at High Effect Sizes.” Environmental Toxicology and Chemistry 34 (5): 1091–1102.
Vancouver
1.
Nys C, Asselman J, Hochmuth J, Janssen C, Blust R, Smolders E, et al. Mixture toxicity of nickel and zinc to Daphnia magna is noninteractive at low effect sizes but becomes synergistic at high effect sizes. ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY. 2015;34(5):1091–102.
IEEE
[1]
C. Nys et al., “Mixture toxicity of nickel and zinc to Daphnia magna is noninteractive at low effect sizes but becomes synergistic at high effect sizes,” ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY, vol. 34, no. 5, pp. 1091–1102, 2015.
@article{5943129,
  author       = {Nys, Charlotte and Asselman, Jana and Hochmuth, Jennifer and Janssen, Colin and Blust, Ronny and Smolders, Erik and De Schamphelaere, Karel},
  issn         = {0730-7268},
  journal      = {ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY},
  keywords     = {Mixture,Metal,Toxicity,Risk assessment,Daphnia,BIOTIC LIGAND MODEL,ENVIRONMENTAL RISK-ASSESSMENT,STABLE-ISOTOPE EXPERIMENT,DISSOLVED ORGANIC-MATTER,METAL MIXTURES,CONFIDENCE-INTERVAL,CERIODAPHNIA-DUBIA,BINARY-MIXTURES,HYALELLA-AZTECA,SURFACE WATERS},
  language     = {eng},
  number       = {5},
  pages        = {1091--1102},
  title        = {Mixture toxicity of nickel and zinc to Daphnia magna is noninteractive at low effect sizes but becomes synergistic at high effect sizes},
  url          = {http://dx.doi.org/10.1002/etc.2902},
  volume       = {34},
  year         = {2015},
}

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