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and loss of migration across western Europe. Benefitting from the strong expertise of the supervisory team in stork ecology, movement analysis and spatial models, the project will leverage large
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) criteria. Using systems engineering, digital engineering, and lifecycle modelling, the research will reveal interdependencies and trade-offs to support responsible decision-making in mission design and
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speed of initial GIS growth, it would be valuable in calibrating model forecasts of melt. Reconstructing growth of the GIS is a 10s-of-million-dollar endeavour that requires deep drilling of marine
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movement and flood potential. A stronger conceptual understanding of the region’s geology, particularly the heterogeneity and connectivity of Quaternary sediments and the interface between bedrock and
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weather variability and persistence —the key drivers of future droughts. Using conceptual river models which are unsuitable for a changing climate, as they are calibrated to historical data. This PhD will
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for groundwater, with the nature and structure of the superficial deposits influencing water movement and flood potential. A stronger conceptual understanding of the region’s geology, particularly the heterogeneity
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: adapting existing models of bird movement and migration to test hypotheses about the ecological processes shaping observed connectivity patterns. Identify species and populations that have the highest