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Field
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they affect local and regional flood risk. This PhD project will explore how riverbeds in large tropical systems respond to the pressures of sand mining, and whether disturbed beds recover once mining stops
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levees by drying out soils, causing shrinkage, cracking, and weakening of protective grass cover, ultimately reducing their resilience. This PhD project offers the opportunity to spearhead cutting-edge
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; elsewhere, exposure sustains disinvestment. This PhD investigates these dynamics, known as hazard gentrification, and asks how cities can design adaptation that is resilient and socially just. You will build
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, migration, invasion, and genetic instability. Although PBF’s primary function remains unclear, our recent data reveal a physiological role in cell adhesion and motility. Tyrosine phosphorylation is a key
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Sand is the world’s most used resource after water and intensive extraction is reshaping major rivers and deltas. This PhD will quantify how sand mining alters globally relevant river channels
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an individual Resistant, Tolerant, or Susceptible (R/T/S) to a virus? That is the key question we aim to answer in this PhD study. We have gathered data on viral outbreaks over ~20 years and sequenced hundreds
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The PhD studentship will be based at the University of Cambridge in the Department of Materials Science and Metallurgy as part of the Structural Materials Group. The Structural Materials Group is a
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(Quince). For information on eligibility and how to apply: http://www.uea.ac.uk/phd/mmbdtp Entry requirements At least UK equivalence Bachelors (Honours) 2:1. English Language requirement (MED/SCI
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Primary supervisor - Dr Dominic Cram This exciting PhD will examine how parental age and the social environment interact to shape offspring health in a wild mammal, by combining epigenetic
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The interplay of TCS with Harmonic analysis and additive combinatorics There will be opportunities for collaboration with faculty members and PhD students and to engage with the broader quantum computing and