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modelling of nitrogen fluxes in agricultural systems, starting 01-07-2026 or as soon as possible thereafter. The position will be available for a period of 2 years. Food security, climate change and loss
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tests in heat transfer models to predict the long-term behavior of the façade-TEG composites. At DTU Energy, you will have access to excellent facilities and competences for characterization and modelling
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The Department of Agroecology at Aarhus University, Denmark, is offering a postdoctoral position in merging soil physics knowledge and data-driven modeling of soil processes and properties, starting
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description You will be contributing to developing and implementing novel algorithms at the intersection of computational physics and machine learning for the data-driven discovery of physical models. You will
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disequilibrium, lacking historical baselines, or predictable succession pathways. The project will assess how these conditions influence vegetation dynamics, species diversity, functional trait composition, and
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of biodiversity and model the potential future biodiversity recovery given during land use transformation and restoration in Denmark. This involves spatial and temporal optimisation and prioritisation of land for
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Aarhus University’s Department of Ecoscience invites applications for a 2-year postdoc to co-develop a spatially-explicit individual-based dynamic energy budget model (DEB-IBM) for high-Arctic
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for catalysis and electrocatalysis. You will develop a research activity within experimental characterization of electrocatalyst model catalysts using electrocatalysis workstations, scanning probe microscopy and
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Postdoc position to support international research and capacity-building projects employing elect...
of processing and modelling workflows that integrate EM data with other hydrogeological datasets. Collaboration with Ethiopian and Danish researchers to tailor EM methodologies to Ethiopia’s geological settings
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developing countries, and a potential for a new future crop in Scandinavia. Using sweet potato as a physiological model, the research will identify key metabolic bottlenecks in the plant’s source–sink