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through soil, surface water, and groundwater systems. By validating model simulations with in-situ measurements (e.g., soil moisture, groundwater levels, surface water) and geospatial datasets (e.g
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dissecting RNA structure ensembles in living cells. Particularly, you will: Develop novel methods (both wet and computational) for the accurate interrogation of RNA 2D and 3D structures in living cells. Apply
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is an important control on hydrology. The latter will determine water supply, food security and sanitation to human communities. The paradigm is that wet regions become wetter and dry regions become
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, and are motivated to understand and re-engineer complex biological systems. Additionally, you bring: a MSc degree in (bio)physics, (bio)chemistry, or a related field; experience working in a wet lab and
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convection while also capturing the large-scale global circulation. Further into the project, there is the possibility to work with moisture or cloud tracking algorithms, regional models, and validation with
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and strategies for non-breeding areas. The main objective is to boost the populations of wet grassland breeding birds by increasing reproduction rates and improving return rates from wintering areas
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restoration plans and strategies for non-breeding areas. The main objective is to boost the populations of wet grassland breeding birds by increasing reproduction rates and improving return rates from wintering
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prior knowledge in these domains are encouraged to apply For these PhD student positions, genuine interest in structural biology, NMR, and lipid biochemistry (wet lab work in general) is required. Prior
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global effects. For instance, it could lead to additional atmospheric CO2 , changes in moisture transport into and/or out of the region, and alterations to large-scale atmospheric circulation patterns