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Field
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still uncertain how forest structure is impacted by disturbances (locally) and how we can detect and monitor various levels of disturbance regimes using spaceborne satellite data (globally). This PhD
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uncertainties and biases in N flux monitoring, including proximal sensing, remote sensing, Eddy covariance and in-situ continuous sampling accompanied by traditional laboratory analyses. NitroScope will benefit
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environment, for improved monitoring and realizing high product quality. From the drawbacks residing in classical physics-based models and data-driven models we want to develop hybrid transformer models
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nematode community to N mineralization and N2O emissions in realistic soil conditions. In this project, we will set up unique multitrophic experiments controlling for the presence of specific trophic groups
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run-off, sea dumping operations, mining, explosions, and oil seepages—enter the marine environment. Maintaining healthy seas can only be achieved by developing an innovative monitoring strategy and