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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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of the following characteristics: You like working hands-on with scientific instruments in a laboratory, as well as with wet chemistry and microbial culture experiments; You are interested in participating in
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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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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