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mass balance of the northern Greenland Ice Sheet. You will combine airborne observations, satellite remote sensing, and regional climate modelling to understand how changes in sea ice thickness, mobility
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Sheet. You will measure sea ice change with satellites, and assess its impact on the northern Greenland Ice Sheet with coupled models. You will collaborate with leading scientists in Germany and The
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toolsets: generating proxy data reflecting surface ocean changes, and simulations of sea level changes using comprehensive ice sheet models. The sea level in the Eemian was much higher than today, 3 to 6 m
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proxy data reflecting surface ocean changes, and simulations of sea level changes using comprehensive ice sheet models. The sea level in the Eemian was much higher than today, 3 to 6 m or even higher
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. You will work on the project: Novel experimental turbidity currents in the TurbiFlume. Your job More than 10,000 submarine canyons connect the continents to the deep ocean. These canyons
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, funded by NWO, EMBRACER brings together a wide range of world-leading climate experts with the aim to address existing uncertainties about climate feedbacks at the boundaries between oceans, land, ice, and
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canyons connect the continents to the deep ocean. These canyons are the conduits for transport of land-derived materials to the ocean floor in avalanche-like events called turbidity currents. Turbidity
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PhD position on Land-ocean interaction across the K/Pg boundary Faculty: Faculty of Geosciences Department: Department of Earth Sciences Hours per week: 36 to 40 Application deadline: 4 January
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PhD: Integrated Assessment Modelling of Climate Feedbacks, Tipping Points Faculty: Faculty of Geosciences Department: Department of Sustainable Development Hours per week: 36 to 40 Application
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, Environmental Sciences, Biology, Chemistry, or other appropriate fields. You will work on the project: Land-ocean interaction across the K/Pg boundary. Your job The Cretaceous/Paleogene (K/Pg) boundary marks a