How do Slow Earthquakes work? Using field, microstructural and -chemical evidence in combination with targeted experiments to gain a deep understanding of Slow Earthquakes Theme(s): Tectonics, Volcanology and Solid Earth Geophysics Primary Supervisor: Sandra Piazolo <[email protected]> Institution: University of Leeds (School of Earth and Environment)
Predicting Abrupt Atlantic Ocean Circulation Changes Theme(s): Climate, Climate Impacts, Glacial/Cryosphere Primary Supervisor: Ruza Ivanovic <[email protected]> Institution: University of Leeds (School of Earth and Environment)
Earth’s Great Oxidation: Redox and nutrient controls on the transition to a permanently oxygenated atmosphere Theme(s): Chemistry of the Earth, Palaeoenvironments and Palaentology Primary Supervisor: Simon Poulton <[email protected]> Institution: University of Leeds (School of Earth and Environment)
Finding earthquakes and studying the Earth using light-based seismic sensors across the North Sea Theme(s): Applied Geoscience, Dynamic Earth & Natural Hazards, Tectonics, Volcanology and Solid Earth Geophysics Primary Supervisor: Andy Nowacki <[email protected]> Institution: University of Leeds ([email protected])
Characterising glacial lake moraine dams in high-mountain regions of the world Theme(s): Applied Geoscience, Climate, Dynamic Earth & Natural Hazards, Glacial/Cryosphere, Sedimentology, geomorphology and basin analysis Primary Supervisor: Duncan Quincey <[email protected]> Institution: University of Leeds (School of Geography)
Aeolian sediment transport and desertification in marginal desert areas in response to climate change Theme(s): Applied Geoscience, Climate Impacts, Dynamic Earth & Natural Hazards, Sedimentology, geomorphology and basin analysis Primary Supervisor: Na Yan <[email protected]> Institution: Institute of Applied Geoscience (School of Earth and Environment)
