53 phd-in-computational-mechanics-"FEMTO-ST"-"FEMTO-ST" PhD positions at University of East Anglia in United Kingdom
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at the John Innes Centre, providing opportunities to develop extensive skills in a breadth of areas, including field surveys, plant pathology, molecular biology, and computational biology. Additionally, you
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papers. Attendance at summer schools, such as the National Centre for Atmospheric Science summer school , will provide additional networking opportunities. This PhD project is in a competition for a
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some important questions. Did fungi acquire this ability from bacteria by gene transfer, or have fungi evolved mechanisms to degrade DMSP? Is the interaction of fungi with marine plants symbiotic
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evolutionary ecology and conservation. The long-term study of Seychelles warblers Acrocephalus sechellensis, on Cousin Island provides an excellent system for this PhD. Our database contains data on survival and
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across different imaging devices, including future sensors with unknown spectral sensitivities. Training The student will be based at the Colour & Imaging Lab at the School of Computing Sciences which has
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oceanic primary production in the face of limited nutrients, they can be considered as a ‘climate-change coping mechanism’, because nutrient limitations are expected to become more prevalent in the future
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lead to the allocation of energy and nutrients towards AMR instead of biomass growth. This PhD project will unravel the mechanisms driving AMR in pioneer and extreme soil environments in the Arctic
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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-dioxide from the atmosphere, and also emits nitrous-oxide and methane, important greenhouse-gases...
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International Partnering Award, offering travel and training opportunities in Brazil. For information on eligibility and how to apply: http://www.uea.ac.uk/phd/mmbdtp Entry requirements At least UK equivalence
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atmosphere (1). Research Methodology: The primary objective of this PhD studentship is to develop near real-time capability for top-down ffCO2 quantification, based on synchronous changes in atmospheric CO2