P1 Assessing Pollutant Turnover in Rivers by Target, Non-Target, and Toxicity Analysis
People Involved
Principal Investigators
Prof. Dr. Christiane Zarfl
University of Tübingen, Environmental Systems Analysis
Dr. Marc Schwientek
University of Tübingen, Hydrogeochemistry (until 2020)
Prof. Dr. Beate Escher
University of Tübingen, Environmental Toxicology & Helmholtz Center for Environmental Research (UFZ), Cell Toxicology
Prof. Dr. Christian Zwiener
University of Tübingen, Environmental Analytical Chemistry
Researchers
Dr. Martina Werneburg
PostDoc, University of Tübingen, Environmental Analytical Chemistry (until 2019)
Dr. Maximilian Müller
PhD candidate, University of Tübingen, Environmental Analytical Chemistry & Environmental Toxicology (graduated 2020)
Dr. Clarissa Glaser
PhD candidate, University of Tübingen, Environmental Systems Analysis (graduated 2020)
Ran Wei (associated)
PhD candidate, University of Tübingen, RTG Hydrosystem Modelling
Research Questions and General Approach
Research Questions
Rivers integrate pollutants’ emissions and processes of the whole catchment. They also receive a broad spectrum of pollutants via direct and indirect inputs. In-stream processes such as sorption to particles, sedimentation, and transformation, both biotic and abiotic, modify pollutant signals. However, toxic effects of mixtures are largely unknown.
Thus the objectives of project P1 “Rivers” are:
- To distinguish dominant input sources (diffuse vs. point, surface vs. subsurface) for a large set of chemical pollutants and their degradation products in rivers.
- To quantify transformation processes within studied river channels compared to turnover in other compartments of the catchment
- To identify important driving factors of natural attenuation processes in different river reaches.
- To define suitable indicator chemicals or pollutant patterns that can be used as proxies for relevant environmental processes.
General Approach of P1
In the “River” project P1 we combine the following methods to answer the research questions:
- Lagrangian sampling of river segments of contrasting characteristics
- Non-target screening with high resolution mass spectrometry (HRMS) to detect pollutant patterns and transformation products
- Cell-based bioassays for different modes of toxic action as risk-scaled sum parameters of mixtures of pollutants
- Mass-balance models using chemical and bioanalytical equivalent concentrations (BEQ)