Mycorrhizas for sustainable agriculture and forestry
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MSCA-2020-JRuytinx01
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Beschrijving van het project
Roughly a third of the earth’s land is degraded. Human activities including industry and overcultivation resulted in marginal soils. These soils are unbalanced in nutrients and often polluted with heavy metals. Additionally, extreme weather conditions resulted in unfertile, dry and salinized soils. Low quality of soils negatively affect plant growth and impact on food, feed and fuel quality. About 90% of plant species associates in mutual beneficial interactions with some kind of mycorrhizal fungi. These fungi provide their plant host with limited nutrients and water in exchange for sugars and/or lipids. Also, they provide benefits such as protection from biotic and abiotic stress. Effectivity by which mycorrhizal fungi balance nutrient supply and protect their host from environmental stress is different among fungal species and isolates. Molecular genetic mechanisms underlying functional diversity of mycorrhizal fungi are not yet understood. Post-doctoral research in our group could explore functional diversity and potential of mycorrhizal fungi to protect crops (rice, soybean, ...) from heavy metal pollution or micronutrient deficiency along with underlying physiological and molecular mechanisms. Other possibilities include the study of adaptive evolution towards human-induced environmental change in mycorrhizal fungi and their impact on tree survival in order to develop applications in forestry. All research includes methods in environmental, evolutionary and functional genomics.
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Research Group of Microbiology
The Research Group of Microbiology led by Prof. Eveline Peeters and Prof. Joske Ruytinx performs research in the fields of molecular microbiology, focusing on a variety of microorganisms -bacteria, archaea and fungi- with a special interest for extremophiles and plant-microbe interactions (mycorrhiza). Fundamental research questions are related to molecular mechanisms of genetic adaptation and the use of these insights for a transition to a more sustainable biobased industry.
We offer a dynamic and well-equipped research environment for state-of-the-art research in molecular microbiology and are interested in supporting the preparation of a competitive application for a MSCA postdoctoral fellowship in case a synergy can be created between the research profile and ambitions of the candidate and the research mission statement of the host research group. The abstracts presented on this website are only exemplary, please do not hesitate to contact us with your own ideas.
Website of the Research Group: https://micr.research.vub.be