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- Czech Technical University in Prague
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- Institute of Molecular Genetics of the Czech Academy of Sciences
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Field
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microbial species distributions respond to ongoing climate change. The four-year project will build on time series data on microbial biodiversity changes across large temporal and geographical extents, based
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to climate change and variability Hydrological processes in organosols and peat-affected soils Modeling Hydrological Extremes Using Machine Learning Spatial and time distribution of precipitation within
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research and applications of advanced spatial data analysis methods, data collection, and interpretation of remote sensing data, database system theory, mapping, spatial data distribution, development of new
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: Mathematical modeling and statistical data analysis. Evaluating data as potential predictors explaining the spatial distribution of archaeological or epigraphic finds (e.g., analysis of variance, correlation
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analysing protocols for entanglement distribution using eletrooptic interfaces. The successful candidate will work closely with other team members and our external collaborators including experimental teams
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activity and identify factors responsible for specific distribution of cytidine deamination and high error rate of DNA repair in SHM-targeted regions. Our study will provide a novel insight into the
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changes in the statistical distribution of selected climatic variables. Consequences of revealed changes for the occurrence of extreme climatic events will also be investigated. The research will focus
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MXenes with engineered morphologies and to understand how these structural variations affect surface chemistry, defect distribution, and overall functional properties. This project offers an exciting
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animals and humans, contacts with the environment are not avoided and sometimes even actively sought. We will deploy this inspiration from biology to design truly robust machines with distributed control
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, the dielectric properties of the material affect surface charge distribution and the overall electric field. The research on the influence of electrode material on the efficiency of ozone generation in SDBD