Marc Weeber
Marc Weeber MSc has more than 9 years of experience in the field of water system analysis with a focus on water quality and ecology for inland and estuarine waters. His main approach is to use system knowledge in combination with technical approaches such as tool development, data analyses and modelling. He has a Masters degree in Ecology from the Wageningen University. The overarching goal of his work is to get a better understanding of the water system and the potential ways for mitigation to enhance the environmental quality. He has experience in environmental state and impact modelling for the Water Framework Directive and international legislation, water quality/emission modelling and species spatial dispersal behavior modelling (Agent Based Modelling). He is active in the Netherlands but also in many projects abroad, especially in Argentina, Bangladesh, Belgium, New Zealand and the United States.
Marc Weeber acts as project engineer and project manager for water quality and ecology related projects.
Working experience
| 2012 - present | Deltares | Consultant Water Quality & Ecology |
| 2015 - 2017 | DairyNZ (secondment) | Water quality & Catchment modeller |
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Modelling the effect of behavior on the distribution of the jellyfish Mauve stinger (Pelagia noctiluca) in the Balearic Sea using an individual-based models
Joe El Rahi, Marc P. Weeber, Ghada El Serafy, Modelling the effect of behavior on the distribution of the jellyfish Mauve stinger (Pelagia noctiluca) in the Balearic Sea using an individual-based model, Ecological Modelling https://doi.org/10.1016/j.ecolmodel.2020.109230 14
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Characterizing export of land-based microplastics to the estuary - Part II: Sensitivity analysis of an integrated geospatial microplastic transport modeling assessment of tire and road wear particles
K.M.Unice; M.P.Weeber; M.M.Abramson; R.C.D.Reid; J.A.G.van Gils; A.A.Markus; A.D.Vethaak; J.M.Panko, Characterizing export of land-based microplastics to the estuary - Part I: Application of integrated geospatial microplastic transport models to assess tire and road wear particles in the Seine watershed,Science of Total Environment, Science of Total Environment https://doi.org/10.1016/j.scitotenv.2018.07.368 11
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Characterizing export of land-based microplastics to the estuary - Part II: Sensitivity analysis of an integrated geospatial microplastic transport modeling assessment of tire and road wear particles
K.M.Unice; M.P.Weeber; M.M.Abramson; R.C.D.Reid; J.A.G.van Gils; A.A.Markus; A.D.Vethaak; J.M.Panko, 2019. Characterizing export of land-based microplastics to the estuary - Part II: Sensitivity analysis of an integrated geospatial microplastic transport modeling assessment of tire and road wear particles, Science of Total Environment https://doi.org/10.1016/j.scitotenv.2018.08.301 10