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Field
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characteristics of obligate intracellular bacteria, including Ehrlichia and Neorickettsia spp. We use a mouse model to study the disease pathogenesis in the mammalian hosts. We also work with blood samples
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farm-scale modelling of nutrient flows. Food security, climate change and loss of biodiversity represent three of today’s major societal challenges. Finding solutions for all these challenges requires
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goals utilize the model to analyze environmental and climate policies, assessing their impact on global public good provision, local costs/benefits, and welfare effects utilize the model to assess
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“Maine Won’t Wait” Climate Action Plan, the U.S. Department of Commerce awarded a $69 million grant to the Governor’s Office of Policy Innovation and the Future through the Inflation Reduction Act. The
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of obligate intracellular bacteria, including Ehrlichia and Neorickettsia spp. We use a mouse model to study the disease pathogenesis in the mammalian hosts. We also work with blood samples collected from
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socio-economic challenges across the climate, energy and marine spaces. MaREI is also funded by SEAI, EI, EPA, ERDF, EU, HEA, Marine Institute, DCCAE and IRC, as well as through contributions from our
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and ultimately accelerate these activities to combat climate change. Our approach combines science and engineering, beginning with the study of fundamental microbial metabolic processes that can be
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economic factors to enhance urban resilience to water-related challenges. Key Responsibilities Develop models to simulate urban water flows, assess climate change impacts, and test innovative solutions
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and ultimately accelerate these activities to combat climate change. Our approach combines science and engineering, beginning with the study of fundamental microbial metabolic processes that can be
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Demonstrated ability to compile, modify, and run complex models (e.g., WRF or other weather/climate models) Knowledge of atmospheric trace gases and aerosols Excellent communication skills, both written and