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habitat and connectivity as streams dry out is particularly important (Dugdale et al. 2022) for process hydrology, river ecology (e.g. refugia during drought, loss of physical in-channel habitat, loss
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down the AMOC, which is highlighted as a global tipping point of major concern by the Intergovernmental Panel on Climate Change (IPCC). This project seeks to understand the operation of this sub-polar
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). There is therefore a pressing need to better understand the dynamics of tropical atmospheric rivers, their links to flooding, and their contribution to precipitation forecast skill and error. In this PhD
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Lakes are dynamic methane sources where both benthic and pelagic processes shape net emissions. Sediments are the dominant methane producers, but growing evidence shows that phytoplankton can
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affect plankton-driven processes and carbon cycling remains fragmented, with few quantitative datasets under realistic ecological conditions. This PhD project will bridge that gap by combining field
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knowledge of tsunami-generating processes and past events at identified high-risk sites through targeted fieldwork, building on recent studies of Anak Krakatau, Ruang and Awu volcanoes. Combining insights