Karel Vlaeminck
- ORCID iD
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0000-0002-5472-6371
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Ecorelevance integration report on population modeling : integration of population modeling results for 8 species into an ecological modeling based laboratory to population effect extrapolation (ECOPEX) factor to perform an ecological relevancy normalization of the HC5 for nickel
(2022) -
Ecorelevance : development of mechanistic models for metal risk assessment : population-level effects of nickel (Ni) to Ceriodaphnia dubia
(2022) -
Ecorelevance : validation of mechanistic models for nickel (Ni) risk assessment : microcosm study with Daphnia magna
(2022) -
Improving the ecological relevance of metals risk assessment : population models for lab-to-population extrapolation of silver
(2022) -
- Journal Article
- A1
- open access
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) -
Population models to improve species sensitivity distributions for Nickel : Lymnaea Stagnalis
(2021) -
- Miscellaneous
- open access
ECORELEVANCE INTEGRATION REPORT ON POPULATION MODELING: Integration of population modeling results for 11 species into an ecological modeling based laboratory to population effect extrapolation (ECOPEX) factor to perform an ecological relevancy normalization of the HC5 for copper and zinc.
(2021) -
Ecorelevance : the use of population models for Zinc risk assessment in Lymnaea Stagnalis
(2021)