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how ongoing ocean deoxygenation impacts microbial nitrogen transformations and thereby the future availability of nitrogen to support oceanic primary production and carbon sequestration. The project
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marine and freshwater systems, which are highly sensitive to climate change. The MERS strategic research areas include: land-ocean and wetland-atmosphere interaction processes, application of radionuclides
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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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to build a microscopic-to-global understanding of ice formation, plume processes and ocean–surface transport. Their combined efforts will generate new laboratory data, physical models and spectroscopic tools
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modelling to understand how changes in sea ice thickness, mobility, and open-water formation influence atmosphere-ice sheet interactions. Your work will include: analysing data from airborne campaigns by
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potentially severe long-term demographic consequences. In addition, temperature-driven changes in ocean conditions influence maternal migration and nesting behaviour, further impacting population viability
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intensifying upper ocean mixing processes. However, major gaps in our understanding remain due to challenges in observing and modelling the Arctic Ocean. Research Methodology The aim of this project is to
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Primary supervisor – Prof Parvadha Suntharalingham BACKGROUND The ocean plays a key role in controlling atmospheric greenhouse-gas levels. It removes a significant fraction of anthropogenic carbon
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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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Primary Supervisor - Prof Ian Renfrew Scientific background Arctic climate change and the associated sea-ice retreat are having significant impacts on both the atmosphere, the ocean and their