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Agrosphere Institute (IBG-3)
Institution
Section overview
Description
The Agrosphere Institute analyses transport and conversion processes in soils and surface near groundwater with the aim to contribute to a sustainable use of resources in agro-ecosystems.
Activities
- Research
Parent institution
Coordinated projects
- Active and passive microwave remote sensing for application on vegetation/soil and snow/soil
- Agrosystem for future: DAKIS - Digital Agricultural Knowledge and Information System
- BonaRes - (Modul A, Phase 2): Soil3-II - Sustainable subsoil management - subproject C
- BonaRes - Module A (Phase 3), Soil3-III: Sustainable subsoil management, subproject C
- BonaRes (Modul A, Phase 2): InnoSoilPhos - Innovative solutions towards a sustainable phosphorus soil management - subproject D
- BonaRes (Modul A, Phase 2): INPLAMINT - Increasing agricultural nutrient efficiency by optimizing plant-soil-microorganism-interaction - subproject A
- Carbon modeling of agricultural duration experimental areas in NRW
- Collaborative project: a contribution of viticulture to the goals of the COP21-conference in Paris: sensor utilization in viticulture with minimized CO2-footprint and fungus-resistant cultivars - subproject 2
- FACCE JPI Knowledge Hub; sub-project FORM B - CropM C 3.3.5
- GABI FUTURE - Collaborative Project: improving the resistance to stress, resource utilization and productivity of crops by reducing the Photorespiration (IMPROVE) sub-projects: FZ Juelich
- Globe: Wetlands in East Africa
- How does root slime influence soil mechanic characteristics and the penetration resistance of root growth?
- Identifying drought stress in the soil root zone by NMR imaging and relaxometry
- Innovative solutions to sustainable Soil Phosphorus management, Sub-project F
- Joint project: IG-BIOTECH: bioprospecting on Indonesian Agarwood: Innovative Biotechnological Strategies to Produce high value Indonesian Agarwood and Olfactoric Active Compounds
- Nitrification as a function of nutrient limitation and stoichiometry
- Non-invasive characterization of plant stress at the field scale
- Rhizo4Bio (Phase 1): RhizoWheat - Rhizosphere processes and yield depression in wheat rotation crop systems, TP B
- SFB/TRR 32 Project A3 Phase 1: A3 Characterization of effective hydraulic properties of unsaturated soils at the cm to m scale using electrical spectroscopic and tomographic non-invasive methods
- SFB/TRR 32 Project B1 Phase 1: Characterizing spatio-temporal patterns of water and C-fluxes at field-scale
- SFB/TRR 32 Project B4 : Upscaling of local C02, water and heat fluxes to the field scale from observed spatio-temporal patterns using an integrative 3-D mechanistic process model
- Sustainable subsoil management. Subproject 3
Work package leader of collaborative projects
Involved in research projects
- Active and passive microwave remote sensing for application on vegetation/soil and snow/soil
- ADAPTER (ADAPT TERrestrial systems) - Development and provision of innovative simulation-based information products for weather- and climateresistant agriculture
- SFB/TRR 32 Project C1 : Spatio-temporal variability of catchment properties and their effect on water, solute, and CO2 fluxes from the micro to the mesoscale
- SFB/TRR 32 Project D2 : Experimental study of spatio-temporal structures in atmosphere-land surface energy, water and CO2 exchange
- WASCAL (West African Science Service Center on Climate Change and Adapted Land Use). Work Package 6.2 Agent-based models for integrated assessment
Contact
Agrosphere Institute
(IBG-3)
Wilhelm-Johnen-Straße
52428 Jülich
North Rhine-Westphalia
Germany
Phone: 0049 2461 61 6392
Fax: 0049 2461 61 2518
Email: h.vereecken(@)fz-juelich.de