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Research Infrastructure? No Offer Description Are you fascinated by the world of microbiology and environmental sciences? Do you thrive in the dynamic blend of laboratory experiments and fieldwork adventures
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PhD thesis. The research is embedded in the Molecular Ecology group within the Laboratory of Microbiology. Your promotor will be Prof. dr. Hauke Smidt and Dr. Paul van der Wielen from KWR Water Research
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candidate will have the following skills: MSc in Environmental/Chemical Engineering, Microbiology or Bioinformatics Demonstrable background and strong interest in biological processes and biotechnologies
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Apply now The Faculty of Science / the Institute for Biology is looking for a : PhD student in Plant – Microbe symbiosis (cycad – cyanobacteria) Vacancy number: 14971 Key responsibilities Develop
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animals) and spans nearly all levels of biological organisation. The institute is organised in four departments: Ecology; Plant & Animal Biology; Environmental Science; and Microbiology. The Plant & Animal
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Phd Position in Multiscale Spatiotemporal Modelling of Microbiome During the First 1000 Days of Life
with the Swammerdam Institute for Life Sciences (SILS) at UvA, is seeking a motivated PhD candidate to join our team focused on multiscale spatiotemporal modelling of the human microbiome. The successful candidate
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originates from biological conversions in natural and engineered ecosystems. Despite decades of research, the environmental conditions controlling the underlying microbiology remain largely unknown. This PhD
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to environmental biology (e.g. biodiversity, environmental toxicology, ecology). Supervise BSc. and MSc. students in their thesis work, and PhD students in their projects. Selection criteria Team player and a
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has two Departments: Industrial Ecology (CML-IE) and Environmental Biology (CML-EB). Presently, about 140 fte (including postdocs and PhDs) are employed at CML. CML further collaborates with TU Delft
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, the environmental conditions controlling the underlying microbiology remain largely unknown. This PhD project aims to advance our fundamental understanding of biological N2O formation as a basis for robust emission