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Phenorob, we develop novel agrogeophysical methods to obtain noninvasive subsoil information that can be used to advance root phenotyping and soil functions. Soil-root interactions will be analyzed across
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physiological processes of plant growth, development, reproduction and interaction with other organisms. In a plant’s life, interactions occur at multiple levels: among others, between its plastids and the
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used to advance root phenotyping and soil functions. Soil-root interactions will be analyzed across management scenarios using geophysics and numerical modeling. High-resolution subsoil characterization
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physiological processes of plant growth, development, reproduction and interaction with other organisms. In a plant’s life, interactions occur at multiple levels: among others, between its plastids and the
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complexity and design solutions for a sustainable bioeconomy. The four PhD projects are: 1. MISOWASP: Linking Molecular scale Interactions of Soil Organic matter with Water retention in Soil-Plant systems
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, model data integration, data mining, land surface models, ecosystem fluxes, isotope methods, biodiversity, organismic interactions, biological mineral formation, palaeoclimatology, micropalaeontology and
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plant genetic mechanisms that coordinate mycorrhizal interactions with plant P and water status, root system development, and soil microbial communities. Using maize and rice as models, we will: Determine
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? How is epigenetic information established and transmitted and how do epigenetic processes impact on plant development? How do plants and soil fungi interact to establish arbuscular mycorrhiza (AM
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interactions to illuminate carbon and energy fluxes in arable soils. We invite applications for a 3-year doctoral position foreseen to start at around April/May 2025. We are looking for a highly motivated, co