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that the light- driven degradation of MeHg is the quantitatively most important sink for MeHg in forest-wetland-lake ecosystems. The degradation process decreases the lake water concentration and thus
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groups with a focus on Soil Biology, Soil Nutrient Cycling, Soil Chemistry, Agricultural Water Management, Soil and Environmental Physics, Soil Mechanics and Soil Management, and the Biogeochemistry
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employees. Our research is carried out in seven subject groups with a focus on Soil Biology, Soil Nutrient Cycling, Soil Chemistry, Agricultural Water Management, Soil and Environmental Physics, Soil
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change adaptation and high-versus low intensity forestry. We use empirical and process based modelling, with input data from the National Forest Inventory and long-term experiments. Your profile
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will work with material preparation and pre-treatments, characterisation of feedstock, the use of bench-scale pyrolysis systems, the mapping and testing of activation methods (e.g. thermal/physical and
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subjects. The position requires a PhD in quantitative disciplines, such as earth and earth or environmental sciences, atmospheric sciences, ecology, applied mathematics or physics, or related fields