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The use of mechanistic population models in metal risk assessment : combined effects of copper and food source on Lymnaea stagnalis populations

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Copper (metals), Lymnaea stagnalis (mollusk), Dynamic energy budget, Individual-based model, Population dynamics, Metal risk assessment, Ecological modeling, Population model, WATER PULMONATE SNAIL, ENERGY BUDGET THEORY, TOXICITY, GROWTH, LEAD, REPRODUCTION, INDIVIDUALS, INHIBITION, CLADOCERAN, RESPONSES

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Citation

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MLA
Vlaeminck, Karel et al. “The Use of Mechanistic Population Models in Metal Risk Assessment : Combined Effects of Copper and Food Source on Lymnaea Stagnalis Populations.” ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY 38.5 (2019): 1104–1119. Print.
APA
Vlaeminck, K., Viaene, K. P., Van Sprang, P., Baken, S., & De Schamphelaere, K. (2019). The use of mechanistic population models in metal risk assessment : combined effects of copper and food source on Lymnaea stagnalis populations. ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY, 38(5), 1104–1119.
Chicago author-date
Vlaeminck, Karel, Karel PJ Viaene, Patrick Van Sprang, Stijn Baken, and Karel De Schamphelaere. 2019. “The Use of Mechanistic Population Models in Metal Risk Assessment : Combined Effects of Copper and Food Source on Lymnaea Stagnalis Populations.” Environmental Toxicology and Chemistry 38 (5): 1104–1119.
Chicago author-date (all authors)
Vlaeminck, Karel, Karel PJ Viaene, Patrick Van Sprang, Stijn Baken, and Karel De Schamphelaere. 2019. “The Use of Mechanistic Population Models in Metal Risk Assessment : Combined Effects of Copper and Food Source on Lymnaea Stagnalis Populations.” Environmental Toxicology and Chemistry 38 (5): 1104–1119.
Vancouver
1.
Vlaeminck K, Viaene KP, Van Sprang P, Baken S, De Schamphelaere K. The use of mechanistic population models in metal risk assessment : combined effects of copper and food source on Lymnaea stagnalis populations. ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY. 2019;38(5):1104–19.
IEEE
[1]
K. Vlaeminck, K. P. Viaene, P. Van Sprang, S. Baken, and K. De Schamphelaere, “The use of mechanistic population models in metal risk assessment : combined effects of copper and food source on Lymnaea stagnalis populations,” ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY, vol. 38, no. 5, pp. 1104–1119, 2019.
@article{8605213,
  author       = {Vlaeminck, Karel and Viaene, Karel PJ and Van Sprang, Patrick and Baken, Stijn and De Schamphelaere, Karel},
  issn         = {0730-7268},
  journal      = {ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY},
  keywords     = {Copper (metals),Lymnaea stagnalis (mollusk),Dynamic energy budget,Individual-based model,Population dynamics,Metal risk assessment,Ecological modeling,Population model,WATER PULMONATE SNAIL,ENERGY BUDGET THEORY,TOXICITY,GROWTH,LEAD,REPRODUCTION,INDIVIDUALS,INHIBITION,CLADOCERAN,RESPONSES},
  language     = {eng},
  number       = {5},
  pages        = {1104--1119},
  title        = {The use of mechanistic population models in metal risk assessment : combined effects of copper and food source on Lymnaea stagnalis populations},
  url          = {http://dx.doi.org/10.1002/etc.4391},
  volume       = {38},
  year         = {2019},
}

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