Postdoctoral Lecturer Qualification
Högy, Petra, 2013. Effects of atmospheric CO2 enrichment on yield and yield quality of selected C3 crops. Faculty of Agricultural Sciences, University of Hohenheim (Project P4)
Rasche, Frank, 2014. Organic resource driven microbial community dynamics in soil and plant ecosystems. Faculty of Agricultural Sciences, University of Hohenheim (Project P3)
PhD theses of PAK 346 and FOR 1695
Ali, Rana Shabaz, 2018. Microbial regulation of soil organic matter decomposition at the regional scale. University of Hohenheim, Faculty of Agricultural Sciences, 207 pp., link to dissertation (Projects P9/P3)
Biernath, Christian Jörg, 2013. Modeling climate change impacts on the yield and quality of crops based on leaf photosynthesis with the acclimation to elevated CO2. Technical University of Munich, Center of Life and Food Sciences Weihenstephan, 109 pp., link to dissertation (Projects P5/P4)
Demyan, Scott Michael, 2013. Development of coupled mid-infrared spectroscopic and thermal analytical approaches for the characterization and modeling of soil organic matter dynamics of arable soils. University of Hohenheim, Faculty of Agricultural Sciences, 177 pp., link to dissertation (Project P3)
Heinlein, Florian, 2017. Der Wasserfluss in Einzelpflanze und Bestand: Modellierung und Messung. Technical University of Munich, Center of Life and Food Sciences Weihenstephan, 221 pp., link to dissertation (Project P5)
Milovac, Josipa, 2016. Studies of soil-vegetation-atmosphere feedback processes with WRF on the convection permitting scale. University of Hohenheim, Faculty of Natural Sciences, 137 pp., link to dissertation (Project P1)
Mirzaeitalarposhti, Reza, 2014. Development of MidDRIFTS methodologies to support mapping of physico-chemical soil properties at the regional scale. University of Hohenheim, Faculty of Agricultural Sciences, 162 pp., link to dissertation (Project P3)
Oehme, Viktoriya, 2012. Effects of elevated atmospheric CO2 concentrations on insects and pathogens of spring wheat (Triticum aestivum L. cv. Triso) and oilseed rape (Brassica napus cv. Campino). University of Hohenheim, Faculty of Agricultural Sciences, 90 pp., link to dissertation (Project P4)
Parker, Phillip Simon, 2016. Simulation of daily field management and crop performance in Southwest Germany under climate and technological change. Justus Liebig University of Giessen, 90 pp., link to dissertation (Project P7)
Poltoradnev, Maksim, 2018. Measuring and modelling of soil water dynamics in two German landscapes. University of Hohenheim, Faculty of Agricultural Sciences, 68 pp., link to dissertation (Projects P2/P1)
Reinmuth, Evelyn, 2017. Land use management under climate change: a microeconomic analysis with emphasis on risk. University of Hohenheim, Faculty of Agricultural Sciences, 76 pp., link to dissertation (Projects P7/P6)
Troost, Christian, 2014. Agent-based modeling of climate change adaptation in agriculture: A case study in the Central Swabian Jura. University of Hohenheim, Faculty of Agricultural Sciences,, 280 pp., link to dissertation (Projects P6/P8/P2)
Master and diploma theses of PAK 346 and FOR 1695
Backes, Diana, 2011. Einfluss von erhöhtem CO2 und erhöhter Temperatur auf Photosynthese, Biomasse und Phänologie von Raps (Brassica napus). Institute of Landscape and Plant Ecology, University of Hohenheim (Project P4)
Chavez Rodriguez, Luciana, 2017. Calibration and validation of the XN-GECROS model with soybean (Glycine max) and durum (Triticum durum) data from Southwest Germany. Institute of Soil Science and Land Evaluation, University of Hohenheim (Projects P2/P3)
Csaba Törös, Adam, 2019. A meta-modeling approach to summarize the results of an agent-based model of climate change adaptation in Germany. Institute of Agricultural Sciences in the Tropics, University of Hohenheim (Project P8)
Eisele, Marius, 2011. Analysis of the impact of risk and risk preferences on farmers` land use and investment decisions. Institute of Agricultural Sciences in the Tropics, University of Hohenheim (Projects P6/P7)
Fon, Louis, 2014. Quantifying differently stabilized soil organic matter in cropland at the regional scale: integrating size/density separation with chemical oxidation. Institute of Agricultural Sciences in the Tropics, University of Hohenheim (Project P3)
Gebser, Florian, 2014. Potential effects of climatic and technological change on field cropping. Institute of Farm and Agribusiness Management, Justus Liebig University of Gießen (Project P7)
Greve, Peter, 2012. Evaluating soil water content in a WRF-NOAH downscaling experiment. IFM-Geomar, Kiel, external thesis conducted at the Institute of Physics and Meteorology, University of Hohenheim (Project P1)
Guzman, Ivan, 2010. Auswirkungen von erhöhter CO2-Konzentration und unterschiedlichen klimatischen Bedingungen auf die Photosynthese von Raps (Brassica napus). Institute of Landscape and Plant Ecology, University of Hohenheim (Project P4)
Gwinner, Annika, 2015. Anwendung der Fourier-Gleichung der Wärmeleitung zur Korrektur der Phasenschiebung von Bodenwärmeflüssen. Institute of Physics and Meteorology, University of Hohenheim (Projects P1/P2)
Horsche, Anna, 2013. Contribution of low frequency turbulent fluxes to energy balance closure at a winter wheat site in southwest Germany. Institute of Soil Science and Land Evaluation, University of Hohenheim (Projects P2/P1)
Ibrahim, Yara, 2012. Effect of climate change on carbohydrate content in wheat (Triticum aestivum L.). Institute of Landscape and Plant Ecology, University of Hohenheim (Project P4)
Klein, Jonas, 2015. CO2 -Effekte auf die Biomasseallokation und das Kornproteom von Weizen. Institute of Landscape and Plant Ecology, University of Hohenheim (Project P4)
Kottmann, Lorenz, 2009. Einfluss von erhöhtem CO2 und Temperatur auf Photosynthese, Wachstum und Biomasse von Sommerweizen (Triticum aestivum L.). Institute of Landscape and Plant Ecology, University of Hohenheim (Project P4)
Latysheva, Viktoryia, 2012. Adaptation to climate change on the Central Swabian Alps, Germany: sensitive analysis with application of agent-based mathematical programming model. Institute of Agricultural Sciences in the Tropics, University of Hohenheim (Projects P6/P8)
Liu, He, 2009. CO2, water and energy exchange between maize canopy and the atmosphere. Institute of Soil Science and Land Evaluation, University of Hohenheim (Projects P2/P4)
Lünsmann, Dagmar, 2011. Freilandversuch mit Sommerraps (Brassica napus L.) unter dem Aspekt künftiger Kohlendioxidkonzentrationen: Phänologische Entwicklung, Blatt- und Korneigenschaften. Institute of Landscape and Plant Ecology, University of Hohenheim (Project P4)
Mendoza Tijerino, Francisco, 2016. Farmers' behavior in land markets in the context of agricultural structural change in Germany: The case of the Central Swabian Jura. Institute of Agricultural Sciences in the Tropics, University of Hohenheim (Project P8)
Poferl, Philipp, 2010. Response of crop growth to climate change on the Swabian Alb: Simulations with GECROS and CERES. Institute of Soil Science and Land Evaluation, University of Hohenheim (Projects P2/P5)
Probst, Klaus, 2014. Vergleich des Einflusses von Agrarpolitik und versunkenen Kosten auf die Agrarstruktur am Beispiel der mittleren Schwäbischen Alb. Institute of Agricultural Sciences in the Tropics, University of Hohenheim (Projects P6/P8)
Rabe, Jonas, 2017. Erweiterung und Kalibration des Pflanzenwachstumsmodells GECROS für Zuckerrübe (Beta vulgaris L.). Institute of Soil Science and Land Evaluation, University of Hohenheim (Projects P2/P3)
Scherzer, Christiane, 2010. Entwicklung von Biomasse, Phänologie und Seneszenzverhalten von Raps (Brassica napus L.) in Abhängigkeit von Klima und CO2. Institute of Landscape and Plant Ecology, University of Hohenheim (Project P4)
Schütt, Marianne. Study of different soil organic matter stabilities: Assessment by fractionation. Institute of Agricultural Sciences in the Tropics, University of Hohenheim (Project P3)
Sen, Debjani, 2015. Effect of elevated carbon dioxide on carbohydrate metabolism in wheat. Institute of Landscape and Plant Ecology, University of Hohenheim (Project P4)
Smidt, Jamie Lauren, 2014. Eddy covariance measurements over a maize field: The contribution of minor flux terms to the energy balance gap. Institute of Soil Science and Land Evaluation, University of Hohenheim (Projects P2/P1)
Steffens, Karin, 2009. Eddy covariance measurements of surface energy, water and carbon dioxide fluxes between a winter wheat stand and the atmosphere. Institute of Soil Science and Land Evaluation, University of Hohenheim (Projects P2/P1)
Witte, Irene, 2014. Simulation der Bodenwasserdynamik unter dem Footprint einer Eddy-Kovarianz-Station im Kraichgau. Institute of Soil Science and Land Evaluation, University of Hohenheim (Project P2)
Yazdan-Bakhsh, Sara, 2017. Farm-level modeling of the adoption of new crops under climate change - A case study for the Kraichgau (Southwest Germany). Institute of Agricultural Sciences in the Tropics, University of Hohenheim (Project P8)
Zinkeng, A. R., 2012. Short term changes of soil organic matter studied by thermal evolved gas analyses. Institute of Agricultural Sciences in the Tropics, University of Hohenheim (Project P3)
Bachelor theses
Assenmacher, N., 2015. Gaswechsel und morphologische Entwicklung zweier Weizensorten unter erhöhter CO2-Konzentration - Ein FACE-Versuch. Institute of Landscape and Plant Ecology, University of Hohenheim (Project P4)
Benzing, Jörg, 2012. Beobachtung des Oasis-Effekts über landwirtschaftlich genutzten Flächen. Institute of Physics and Meteorology, University of Hohenheim (Project P1)
Bergström, Inga, 2017. Validating crop growth dynamics of winter wheat simulated with Expert-N-GECROS by using a dynamic crop rotation approach - Initial consideration of root development. Institute of Soil Science and Land Evaluation, University of Hohenheim and Wageningen University (Project P2)
Hallmann, Anita, 2012. Kartierung von Eddy-Kovarianz-Untersuchungsgebieten auf der Schwäbischen Alb und Footprint-Analyse. Institute of Physics and Meteorology, University of Hohenheim (Project P1)
Jach, L. L., 2015. Einfluss der Heterogenität der Landoberfläche auf Simulationen von latenten und sensiblen Wärmeflüssen mit NOAH. Institute of Physics and Meteorology, University of Hohenheim (Project P1)
Jansen, Nils, 2015. Vergleich mittels Harmonischer Analyse ausgewerteter experimenteller Bodenwärmeflüsse mit Modellergebnissen. Institute of Physics and Meteorology, University of Hohenheim (Project P1)
Klein, Jonas, 2013. Folgen erhöhter CO2-Konzentration auf Biomasseallokation bei Weizenpflanzen und Phytinsäurekonzentration in Weizenkörnern. Institute of Landscape and Plant Ecology, University of Hohenheim (Project P4)
Lackus, Tobias, 2011. Statistische Untersuchung der Niederschlags- und Temperaturentwicklung in Südwestdeutschland. Institute of Physics and Meteorology, University of Hohenheim (Project P1)
Müller, Gudrun, 2017. Untersuchung von Wachstum und Qualität der Wurzelbiomasse von Winterweizen und Modellierung mit DAISY. Institute of Soil Science and Land Evaluation, University of Hohenheim (Project P2)
Neumann, Anja, 2017. Footprintanalyse der Eddy-Kovarianz-Messungen während SABLE, CAOS2015 und in den Vereinigten Arabischen Emiraten. Institute of Physics and Meteorology, University of Hohenheim (Project P1)
Oldenbürger, Marian, 2018. Hitzetage während der Blütezeit des Sommerweizens in Deutschland - ein Risiko im 21. Jahrhundert? Institute of Physics and Meteorology, University of Hohenheim (Project P1)
Pesch, Charles, 2011. Eddy-Kovarianz Messungen im Kraichgau und der Mittleren Schwäbischen Alb im Vergleich. Institute of Physics and Meteorology, University of Hohenheim (Project P1)
Schuldeis, Oxana, 2013. Methodenentwicklung (MUF) und die Auswirkungen der Feuchtigkeit auf die Bodenenzymaktivität - ß-Glucosidase. Institute of Soil Science and Land Evaluation, University of Hohenheim (Project P9)
Seeger, Ann-Kathrin, 2016. Abhängigkeit der Energiebilanzschließung eines Eddy-Kovarianz-Systems von meteorologischen Parametern. Institute of Physics and Meteorology, University of Hohenheim (Project P1)
Zimmerman, Sonja, 2012. Effekte erhöhter atmosphärischer CO2-Konzentration auf Biomasseproduktion und Phytinsäuregehalt von Weizen. Institute of Landscape and Plant Ecology, University of Hohenheim (Project P4)