- since 05/2020: Research assistant and PhD student in the working group Ecohydrology and Biogeochemistry at the Institute of Landscape Ecology at the University of Münster
- 10/2018 - 12/2018: Student assistant in the working group Ecohydrology and Biogeochemistry at the Institute of Landscape Ecology at the University of Münster
- 08/2018 - 09/2018: Student assistant in the BioGeoOmics Group at the Department of Analytical Chemistry of the Helmholtz Centre for Environmental Research in Leipzig
- 04/2018 - 04/2020: Student assistant in the Spatiotemporal Modeling Lab at the Institute for Geoinformatics at the University of Münster
- 10/2013 - 04/2020: Studies of Landscape Ecology (Bachelor of Science & Master of Science) at the University of Münster
Master thesis: Automated Identification of Stable Isotope Labeled Compounds in Direct Infusion Ultra-High Resolution Mass Spectra
- Spatiotemporal patterns in peat physicochemical properties
- Prediction of peat physicochemical properties based on infrared spectra
- Chemometric methods for analysing infrared spectra
- Bayesian statistics for integrating data and analysing uncertainty in mechanistic ecological models
- Open and reproducible science
- Identification of stable isotope labelled compounds in high resolution mass spectra
- Analysis of nomadic GPS trajectories and the relation between environmental factors and nomadic movement patterns
- 10.1002/ldr.4530. . ‘How degraded are the peatland and forest ecosystems in the Bieszczady Mountains (Central Europe)? An assessment using long-term records.’ Land Degradation and Development 34, No. 4: 1246–1262. doi:
- . . ‘Duration of extraction determines CO2 and CH4 emissions from an actively extracted peatland in eastern Quebec, Canada.’ Biogeosciences 20, No. 3: 737–751. doi: 10.5194/bg-20-737-2023.
- . . ‘Allocation of humanitarian aid after a weather disaster.’ World Development 166: 106204. doi: https://doi.org/10.1016/j.worlddev.2023.106204.
- . . ‘Improving models to predict holocellulose and Klason lignin contents for peat soil organic matter with mid-infrared spectra.’ SOIL 8, No. 2: 699–715. doi: 10.5194/soil-8-699-2022.
- . . ‘Electrochemical Properties of Peat Particulate Organic Matter on a Global Scale: Relation to Peat Chemistry and Degree of Decomposition.’ Global Biogeochemical Cycles 36, No. 2: e2021GB007160. doi: 10.1029/2021GB007160.
- . . ‘Insight into the factors of mountain bog and forest development in the Schwarzwald Mts.: Implications for ecological restoration.’ Ecological Indicators 140: 1–13. doi: 10.1016/j.ecolind.2022.109039.
- . . ‘Relations of fire, palaeohydrology, vegetation succession, and carbon accumulation, as reconstructed from a mountain bog in the Harz Mountains (Germany) during the last 6200 years.’ Geoderma 424: 115991. doi: https://doi.org/10.1016/j.geoderma.2022.115991.
- . . ‘Patterns in Mongolian nomadic household movement derived from GPS trajectories.’ Applied Geography 122, No. September 2020: 102270. doi: 10.1016/j.apgeog.2020.102270.
- . ‘Herders Mobility GPS Tracking:Insights From Novel Trajectory Data.’ contributed to the XTerM 2019, Le Havre, France, .