Karel Vlaeminck
- ORCID iD
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0000-0002-5472-6371
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Predicting combined effects of chemical stressors : population‐level effects of organic chemical mixtures with a dynamic energy budget individual‐based model
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- Journal Article
- A1
- open access
Effects of microplastic on the population dynamics of a marine copepod : insights from a laboratory experiment and a mechanistic model
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Development, validation, and application of mechanistic models to predict population-level effects of chemical pollutant mixtures
(2022) -
- Journal Article
- A1
- open access
Development and validation of a mixture toxicity implementation in the dynamic energy budget-individual-based model : effects of copper and zinc on Daphnia magna populations
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- Conference Paper
- C3
- open access
Unexpected recovery and non-effects predicted with a mixture toxicity implementation in a population model
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- Journal Article
- A1
- open access
A generalized bioavailability model (gBAM) for predicting chronic copper toxicity to freshwater fish
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Mixture toxicity with the dynamic energy budget (DEB) theory and individual-based models (IBM) : effects of Cu and Zn on Daphnia magna populations
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- Conference Paper
- C3
- open access
Mechanistic models to predict pesticide stress on Daphnia magna populations : an intermediate tier tool for ecological risk assessment
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The unexpected absence of nickel effects on a Daphnia population at three temperatures is correctly predicted by a dynamic energy budget individual-based model (DEB-IMB)
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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