PhD student position in climate sciences, fully-funded for 4 years
100%

Are you passionate about using cutting-edge technology to explore the secrets of Earth's past climate and environment? Do you thrive on interdisciplinary challenges and big data? Join our team at the University of Bern for an exciting PhD position exploring the ancient world of lake sediments through the lens of modern imaging methodologies and data science. As the saying goes, "the past is the key to the future."

Lake sediments are natural archives of Earth's history, but traditional analysis methods often fall short of capturing their full story. This project, titled Pixel2Paleo, represents a pioneering effort to use a "deductive approach" to reveal the complex interplay of environmental variables. We will use a powerful combination of high-resolution imaging techniques-µXRF elemental mapping, Mass Spectrometry Imaging (MSI), and Hyperspectral Imaging (HSI)-to explore the biogeochemical fingerprints of past environments. This includes elemental composition, mineralogy, as well as organic compounds such as alkenones, and bacterial and algal pigments
A key part of the project involves connecting these sedimentary signals to real-world, modern data. We will analyze the most recent sediment layers (from the last ~200 years) from a network of Swiss lakes that are actively monitored. By correlating the high-resolution data from the selection of Swiss lake sediments with existing observational and monitoring data on factors like water temperature, nutrient levels, and lake productivity, we will build a foundation for our fingerprint database. This will allow us to evaluate the reliability of our proxies and apply this knowledge to reconstruct older, pre-anthropogenic climate conditions.

The ultimate goal of the project is to build a publicly accessible database that correlates biogeochemical sediment composition with specific climate and environmental conditions, setting a new standard for paleoclimate research. This is part of a larger effort to establish a PaleoIMAGING community and ensure all data and code are open and adhere to FAIR data principles (Findable, Accessible, Interoperable, Reusable).