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drier with global warming. However, particularly in the vulnerable subtropical and mid-latitude regions, the state-of-the-art climate models produce simulations that differ not only in the magnitude, but
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-resolution, open-access climate projection ensembles with statistical and machine learning-based resampling techniques (e.g., k-nearest neighbours) to simulate weather-dependent energy supply and demand
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study, you will develop a model for the dynamic methane cycling in global inland waters. This model will build on our pioneering model framework and simulate the changes in cycling fluxes of major carbon
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interact to shape an entire simulated organ. To calibrate and parametrize the models, you will have access to data from experimental collaborators (Boxem Lab). In turn, your models will help our experimental
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access to world-class laboratories like Geolab external link and Earth Simulation Lab external link , and to excellent high-performance computing facilities. We are a lively department that hosts
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sea ice melting along these paths; performing numerical model simulations to explore how changes in winds, ocean temperatures, and other factors affect sea ice in the present and future. You will be
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Earth Simulation Lab external link . We also have excellent High- Performance Computing facilities. The department and its facilities are located at Utrecht Science Park. Utrecht is the fourth largest
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densification model forced by high resolution output from the regional climate model RACMO to simulate the evolution of the Larsen C firn layer in the recent past (1950 to present) and into the future (up to 2100
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teleconnections and of changing spatial heterogeneities in both the AMOC and the Amazon. In the specific sub-project at IMAU, existing GCM simulations in which AMOC undergoes a collapse will be analysed