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Postdoctoral in Water Resources Engineering with focus on the hydrologic cycle at catchment scale (10167) Mohammed VI Polytechnic University - Benguerir - Morocco Geology & Sustainable Mining
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agricultural cropping systems across Africa. The primary goal is to identify the tipping points of soil erosion in Africa and propose enhancements in cropping systems to mitigate erosion caused by wind and water
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research: Plant phenotyping, germplasm screening, trait discovery, stress resistance, water saving traits , plant-environment interaction, About UM6P: Mohammed VI Polytechnic University (UM6P,https
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obstacles to Morocco’s development is the management of water resources. The countryfaces very severe hydroclimatic conditions, characterised by low precipitation with high inter-annualvariability
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across several UM6P Programs. Research within the center is organized around several major areas that aim to ensure the challenging Food and Water security goal in Africa, with a special focus on
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productivity. The platform includes: An outdoor system with a (i) a fully automated lysimetric system with 1400 large container (mini-plots) to study water dynamics and drought scenarios simulation under
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Postdoc for the synthesis of MOFs from inorganic by-products for different applications in catalysis
. Familiar with using materials in adsorption or water purification and catalysis…etc About CBS department: Research within CBS is organized around two main areas: Chemistry with its main chemical engineering
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automated lysimetric system with 1400 large container (mini-plots) to study water dynamics and drought scenarios simulation under close-to-field conditions, and (ii) a fully autonomous phenotyping robot
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) to study water dynamics and drought scenarios simulation under close-to-field conditions, and (ii) a fully autonomous phenotyping robot, Phenomobile.v2+, equipped with a set of sensors (LiDAR, RGB, IR, and
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1400 large container (mini-plots) to study water dynamics and drought scenarios simulation under close-to-field conditions, and (ii) a fully autonomous phenotyping robot, Phenomobile.v2+, equipped with a