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regional ocean/ice/biogeochemistry models (OBMs) applied to Arctic coastal seas, the properties of terrigenous sediments are rarely integrated into physical and biogeochemical processes. To address this gap
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., Pettersson, H., Behrens, A., Männik A., 2018. Comparing a 41-year model hindcast with decades of wave measurements from the Baltic Sea. Ocean Engineering, 152, 57–71. https://doi.org/10.1016/j.oceaneng
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someone with experience in research on ocean-atmosphere interactions, through conducting observational, modeling, or experimental studies, to complement our existing strength in climate-related research
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expertise lies in machine learning, artificial intelligence, data mining, signal processing, or statistical modeling, with an interest in applying these skills to ocean science. You have strong organizing
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with offshore extreme sea levels. The project aims at applying physics-based modelling and advanced analysis to mitigate an environmental challenge with direct implications for coastal risk management
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activities will include (but not be limited to) understanding dynamic sea level changes, modeling vertical land movements, and quantifying gravitational changes caused by present and future changes in land
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the eastern coast of the Baltic Sea. Journal of Marine Systems., 129, 96–105, https://doi.org/10.1016/j.jmarsys.2013.02.001 Soomere, T., Viška, M., 2014. Simulated wave-driven sediment transport along
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. This is done through collaborative data acquisition, analysis and modelling on local and European scale. VLIZ is hiring, for immediate employment, a researcher/research project manager to coordinate and
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to enable convergence between the IPSL Earth System model and observations (natural and instrumental archives). · Evaluate the mechanisms of internal ocean-atmosphere coupled dynamics and feedbacks in
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exchanges in the next generation of Earth System Models, for the OptimESM project. - Implementation, testing and evaluation of new parameterizations of air-sea carbon exchanges - Development of diagnostics