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Find a PhD Project
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Projects by Research Area
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Chemical Sciences
Projects by Research Area
Title
A seismic study of the continent-ocean transition southwest of the UK
Are forever chemicals really forever? Determining PFAS cycling in the environment.
Assessing sedimentary Blue Carbon to inform marine management *
Building a new window into coral and foraminiferal biomineralisation
Calming effect of group living in social fishes
Controls on organic carbon transport and burial in deep-sea basins in the Atlantic Ocean
Coupled biological-physical controls on estuarine flocculation
Dissolved Organic matter subduction and transport along the east Greenland MArgin
Does organic carbon burial explain the ‘greenhouse’ to ‘icehouse’ transition?
Evolution of symbiosis in a warming world
Functional ecophysiology of Atlantic mesopelagic fishes
Geochemical signatures of mantle magmatism in plume-ridge contexts: a long-distance relationship
How do foraminifera grow? Determining the role of cellular ion transport processes in biogenic marine calcite formation
Impacts on the marine ecosystem of dietary biomolecules
It’s getting hot, sour and breathless – impacts of climate change on carbon(ate) fixation by foraminifera
Keeping up with ocean change: Using robots to push the envelope in ocean carbon observing *
Mapping the biological pump: ocean carbon storage from space to seafloor
Micro-AUVs for biogeochemical measurements
Microplastics and carbon sequestration: identifying links and impacts
Microplastics in the Southern Ocean: sources, fate and impacts. *
Nutrient limitation in a changing Arctic Ocean
Ocean physics and ecology: can robots disentangle the mix?
Physical and biogeochemical responses to Antarctic sea ice loss: what are the implications for ocean carbon uptake? *
Reconstructing major volcanic eruptions from their deep-sea records *
Reconstructing the history of submarine volcanoes using sediment biogeochemistry and modelling
Southern Ocean Iron Supply: Does Size Fractionation Matter?
The Acid Test – high-resolution records of climate change across the PETM and other hyperthermals
Towards a mechanistic understanding of how chemical contaminants affect marine invertebrates, using a common jellyfish as a model organism.
Tracking nutrient and metal exchange during Ocean Alkalinity Enhancement *
Tracking the fate of natural and geoengineered ocean carbon sequestration
Understanding variability in Earth’s climate and magnetic field using new archives from the Iberian Margin
Up, up and away – the fate of upwelled nutrients in an African upwelling system and the biogeochemical and phytoplankton responses
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