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project uses a novel experimental community model system of wild Drosophila species and their parasitoids from tropical Australia. We are able to perform multigenerational laboratory microcosm experiments
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or accepted). Experience with morphometric analysis, climatic niche modelling and/or significant fieldwork experience in tropical mountains is advantageous. Benefits: 5 weeks of paid holiday yearly, subsidized
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AID with advanced fluorescence microscopy and collaborating with theoretical biophysicists to model IFT dynamics. Key responsibilities Develop and optimize the AID2 system in C. elegans to control
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, field ecology, mathematical modelling, etc.) and a combination of analytical and holistic approaches to problem-solving. Core facilities with shared equipment support all research groups. About the
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the green multicellular alga Draparnaldia as a new model system to study developmental complexity and adaptations to terrestrial habitats in green algae. We now have strong evidence that Draparnaldia could
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investigating the global drivers of phytochemical diversity. This project aims to uncover how the remarkable diversity of plant metabolites relates to biotic and abiotic stress across the globe. As a model system
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the globe. As a model system, we focus on the Salicaceae family, which provides an exceptional opportunity to study phytochemical evolution thanks to its broad geographic distribution, ecological diversity
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the green multicellular alga Draparnaldia as a new model system to study developmental complexity and adaptations to terrestrial habitats in green algae. We now have strong evidence that Draparnaldia could