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Field
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densification model forced by high resolution output from the regional climate model RACMO to simulate the evolution of the Larsen C firn layer in the recent past (1950 to present) and into the future (up to 2100
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, and excellence in teaching and research. About the Role We are looking for a Research Assistant to support delivery of a British Council/STDF-funded research project titled “Climate Resilient Energy
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objective is to find the best way to embed simple partial differential equations into AI-based models to solve fluid sensing problems in a robust and efficient manner. Your role may include developing new
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central to national and international climate strategies, yet its role remains contested, particularly regarding timing, scale, equity, and sustainability. Questions around the fair distribution of CDR
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adaptation by strengthening energy system resilience against growing climate-related risks. Modeling energy systems presents numerous challenges, which become increasingly intricate when applied at urban
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prone to change and decline. One project component analyses and models the effects of climate-induced cryospheric changes on water flows. The other project component, to which you will contribute
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-supply of evaporation amidst deforestation, global warming, and drought. Our approach will integrate global climate model (CESM) simulations under varying vegetation scenarios with state-of-the-art
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activities Curious mind-set with a strong interest in ice flow and climate physics and numerical modelling Good language skills in oral and written English
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microbial communities. In this role, you will develop hybrid species distribution models that combine climate and landscape data to predict how microbial taxa niches shift under changing land use and
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aspects of the research project(s), including design, fabrication, characterization, and modeling of metamaterial fibers and textiles. Develop and optimize fabrication processes for fibers and textiles