Dr
Julius Kühn Institute (JKI) – Federal Research Centre for Cultivated Plants, Institute for Strategies and Technology Assessment
Author in the following contributions
- Utilizing multispectral vegetation indices to predict spring barley yield using remote sensing under different drought conditions and sowing patterns
- Coupling a crop-soil model and life cycle assessment to reduce GHG emissions of crop rotations
- Evaluating the impact of soil uncertainty on $\text{N}_{2}\text{O}$ emissions from winter oilseed rape cultivation in Germany using large-scale crop model simulations
- Yield gap assessment of spring barley in Germany using STICS, DSSAT and APSIM multi-model ensemble
- Assessing the carbon footprint of wine production in Germany to identify additional climate change mitigation potentials in viticulture
- Development of on-farm and experimental cereal yields in Germany under climate change
- Environmental and economic assessment of German oat milk value chain using an integrated LCA-LCC approach
- Leveraging plant variety trials for parameterization of DSSAT wheat models in Germany
- Contribution of agroforestry to climate change mitigation: a case study from Wendhausen, Germany
- Spatiotemporal suitability analysis of sorghum in Germany under climate change
- Site conditions determine heat and drought induced yield losses in wheat and rye in Germany
- Developing Hi-sAFe-machine learning hybrid approach as a field-specific decision support system for agroforestry systems
- Impact of heat and drought stress on yield and subsequent germination of oilseed rape (Brassica napus L.) seeds
- Calibrating CERES-Barley for ideotyping climate-smart spring barley under German growing environments
- Rye in a changing climate: insights from crop modelling in key northern hemisphere regions utilizing DSSAT-CSM-CERES-Rye
- The carbon footprint of narrow-leaved lupin (Lupinus angustifolius) in Germany