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Field
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and interdisciplinary team of researchers specialized in benthic foraminifera and sediment biogeochemistry from Sweden, France (LPG University of Angers) and Germany (University of Hamburg) and will be
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to bridge this knowledge and competence gap and develop the first model capable of accurately simulating both on and offshore transport of sediments and microplastic particles without case-specific
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as a post-doctoral researcher with the Sediment Management Research Group at the University of Kansas, with research funded by the State of Kansas to determine environmentally-driven operational
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capturing the impact of storm events and seasonal variations. Field work to collect information on soil properties, sedimentation rates, and vegetation densities for selected cascading waterways. Establish
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water quantity and quality across cascading waterways capturing the impact of storm events and seasonal variations. Field work to collect information on soil properties, sedimentation rates, and
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deliveries of water, sediments, carbon and nutrients also the C cycling in the connected lakes. Analysis of lake sediment cores will allow for reconstructing changes in land cover and erosions rates over
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for continuous and campaign-style recordings; perform time-series and spectral analyses. Integrate seismic signals with tides, water-level anomalies, and wave forcing; evaluate controls of sediment properties
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cycling responds to enhanced terrestrial weathering, with a focus on changes in aquatic geochemistry and carbon fluxes within the interconnected river–lake–groundwater–atmosphere–sediment system
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will be placed on the use of remote sensing data. Other relevant data types are geological maps, geophysical surveys (gravity, electromagnetic, seismic), and soil or stream sediment geochemistry. In
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burial in sediments of inland waters, excellent written and verbal communication skills, good ability to carry out year-round fieldwork in Arctic and alpine environments, driver’s license for cars, ability