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this ecosystem particularly interesting for studying and modeling biogeochemical cycles (Cornut et al. 2021), and poses important challenges in finding the right levels of fertilization to limit
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. Within this project, work package 1 focuses on the resilience of the marine sinks of heat and carbon, using Earth system and biogeochemical models, observational data, and scenario analysis to identify
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. Within this project, work package 1 focuses on the resilience of the marine sinks of heat and carbon, using Earth system and biogeochemical models, observational data, and scenario analysis to identify
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to transform the way environmental and social data are integrated into fisheries management by combining advanced ocean forecasting, species-specific modeling, and social science to develop adaptive strategies
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on advancing the science of biogeochemical process modeling—specifically related to carbon and nitrogen cycling (e.g., soil organic carbon and N2O fluxes) in U.S. agricultural lands. This role requires strong
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complementary expertise in the use and development of low-cost sensors, hydrological and biogeochemical models, and stable isotopes. The consortium’s complementary expertise enables us to work at the catchment
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focuses on the resilience of the marine sinks of heat and carbon, using Earth system and biogeochemical models, observational data, and scenario analysis to identify early-warning signals and tipping points
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focuses on the resilience of the marine sinks of heat and carbon, using Earth system and biogeochemical models, observational data, and scenario analysis to identify early-warning signals and tipping points
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for two years, with the possibility of extension for up to one additional year. Starting date: Starting date as agreed upon. Job description Bacteria are major drivers of biogeochemical cycles in
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: Using biogeochemical evolutionary models to simulate lifeless and inhabited worlds, and Developing disequilibrium-, redox-, and information-based metrics to understand and quantify the influence of life