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- NORWEGIAN UNIVERSITY OF SCIENCE & TECHNOLOGY - NTNU
- NTNU Norwegian University of Science and Technology
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Field
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use sedimentological and palaeoecological proxy methods (including invertebrate and isotope analysis) to understand both modern day and historical methane emissions from these lakes. There will be
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palaeoarchives. In the project, we will identify developing thaw lakes, measuring methane, and use sedimentological and palaeoecological proxy methods (including invertebrate and isotope analysis) to understand
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measurement methods (side-scan sonar, multibeam echo sounder, sediment echo sounder) and the corresponding data processing and interpretation is desirable. Basic knowledge of sedimentology, Baltic Sea geology
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integrating diverse type of data, such as processing and interpretation of digital outcrop models, structural data, sedimentological data, seismic interpretation, or borehole data analysis as well as in 3D data
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of data, such as processing and interpretation of digital outcrop models, structural data, sedimentological data, seismic interpretation, or borehole data analysis as well as in 3D data visualization
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GIS software (QGIS, ArcGIS). Previous experience in integrating diverse type of data, such as processing and interpretation of digital outcrop models, structural data, sedimentological data, seismic
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for interdisciplinary collaboration across various scientific fields, including Sedimentology, Quaternary Geology, Engineering Geology, Geotechnical Engineering, Computer science and Chemistry. You will report to
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understanding of intrinsically coupled hydrological and human systems. At the CAT group we rely on our competences in hydrology, geochemistry, sedimentology and environmental systems engineering for gaining a
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REV scales for geomechanical and fluid flow properties. This will result in an ensemble of high-resolution models (i.e., with millions of grid cells) that preserve the sedimentological and diagenetic
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-resolution models (i.e., with millions of grid cells) that preserve the sedimentological and diagenetic heterogeneities identified for the Dutch Rotliegend. These models will be built in the Rapid Reservoir