Our group is interested in the manifold processes affecting sediments on our Earth’s surface, and how sediments interact with the atmosphere, biosphere and anthroposphere. In particular, we aim to understand and quantify the nature of land surface change in response to climatic and other drivers, and to understand the thresholds and causes of those changes. We are also involved in investigating the interactions between people and their environments, focusing on abrupt environmental changes (including hazards) that may influence behavioral changes by people, and vice versa on instances where people may overwhelmingly contribute to a breach of environmental thresholds, leading to landscape instability.
Our group is particularly interested in applying these research directions to loess piedmont and desert margin regions at risk of desertification. To investigate these questions, we combine the geochronological method of luminescence (and other trapped-charge) dating with sedimentological, geomorphological and geochemical approaches. In addition, we are increasingly integrating remote sensing and climate trajectory models into our research. We actively engage with complementary scientific disciplines (atmospheric sciences and meteorology, archaeology, physics, paleoecology, and biogeochemistry).
Ongoing research activities
We are currently undertaking active research in the following themes and regions:
Spatial variability in long-term aeolian accumulation across continental scales using
Geochronology, age modelling, and calculation of sedimentation rates
Climate reanalysis and Lagrangian trajectory analysis
Hydroclimatic variability on dryland margins using
Sedimentological facies analysis, particle characterisation and micromorphology, combined with stratigraphy
Geomorphology and digital elevation models
Geochronological frameworks based on luminescence dating
Quantitative reconstruction of past climates in aeolian deposits, making use of the following methods
Morphologic variability in desert dune fields on large scales using
Remote sensing and GIS
Machine learning and semi-automated mapping algorithms
Interaction between humans and dryland environments – particularly with respect to chronological frameworks for human occupation and dispersal, combined with sedimentology and geomorphology
Investigation of trapped-charge in quartz and feldspar as potential provenance tools, using
Our work currently includes sites in the following countries:
Australia
China
Germany
Kazakhstan
Kyrgyzstan
Tajikistan
Ireland
Italy
Our research is currently funded by the Deutsche Akademische Austauschdienst (DAAD), the UK Royal Geographical Society and the Deutsche Forschungsgemeinschaft (DFG).
