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Doctoral position "Modelling water quality in rivers"
University of Tübingen
"Modelling water quality in rivers"
in the Research Training Group (RTG) Integrated Hydrosystem Modelling and at the interface to the Collaborative
Research Centre CAMPOS at the University of Tübingen, Department of Geosciences, Environmental Systems Analysis/Environmental
Toxicology in strong cooperation with the University of Waterloo, Canada, Earth and Environmental Sciences. The
position can be filled as early as possible, but not later than October 1, 2018 (duration: 3 years). The salary
is based on the public-service regulations of the state of Baden-Württemberg (TV-L E13, 75%).
Motivation. Surface waters receive a diversity of micropollutants (e.g. pesticides, pharmaceuticals, personal
care products) from diffuse sources like agriculture and point sources like wastewater treatment plants. These pollutants may
change the water quality and impact aquatic organisms and ecosystems. Thus, it is of fundamental importance to understand processes
and parameters that determine pollutant fate on a catchment scale in order to identify potential contaminant long-term sources and
develop effective measures for river management. In addition to chemical analysis, toxicity may also serve as an indicator to monitor
water quality from wastewater to drinking water. Applying cell-based bioassays allows investigating the cumulative effects of
chemicals that exhibit the same mode of toxic action as addressed by the selected bioassays. The resulting effect-scaled
concentrations, so-called bioanalytical equivalent concentrations (BEQs), can be used to understand the fate and effects
of micropollutants in a river system by developing an effect-balance model that is based on the mass balance concept.
Approach. Data for substance concentrations are measured with chemical and bioanalytical tools in the
catchment of the River Ammer, a tributary of the Neckar River in southwestern Germany, by colleagues within the Collaborative
Research Center "CAMPOS - Catchments as Reactors" of the Center for Applied Geosciences
In addition, environmental parameters like discharge, main ions, DOC, and electrical conductivity are determined. The substances
include pharmaceuticals (e.g. carbamazepine, diclofenac), pesticides (e.g. mecoprop, DEET), flame-retardants (e.g. TCPP, TDCPP),
and fragrants (e.g. OTNE, HHCB). A chemical fate model is currently under development and includes one-dimensional stream flow,
particle transport and reactive solute transport simulated by the advection-dispersion-reaction equation. This will be the basis
to develop a new model concept that describes the fate of bioanalytical equivalent concentrations (BEQ) to simulate (eco)toxicological
effects of chemical mixtures based on a mass balance approach. The main objective of this project is to expand the mechanistic numerical
fate model for the Ammer River as outlined above by a module for toxicity equivalents. These models will be used to interpret both, the
measured concentrations of dissolved and particle-associated micropollutants as well as the toxicity equivalents in the river. This will
help to explain differences in pollutant fate and attenuation processes and allow the transfer of the new modelling concept to other rivers.
The potential candidate should have a Diploma or Master Degree in Hydrology, Environmental Engineering, Physics, Applied Mathematics, Systems
Science, Geoecology, or Environmental Sciences and shall provide an excellent understanding of transport and transformation processes of chemical compounds within the
Faculty of Science Center for Applied Geosciences
environment. Knowledge of mathematical modelling and experience with software for numerical computing (e.g. Matlab, R) are required.
The main work place is in Tübingen; a six months research stay at the University of Waterloo, Canada, is integral part of the training.
The RTG, CAMPOS and the participating Universities offer structured PhD programs with joint international training and supervision that
support PhD candidates in their career phase as well as programs to support women in research and teaching and thus encourage applications
from qualified female scientists. In the case of equivalent qualified and experienced candidates, physically challenged applicants are given
Further information on the RTG (including the application form) can be viewed at www.hydromod.uni-tuebingen.de
or will be provided by: Prof. Dr. Christiane Zarfl (firstname.lastname@example.org; phone: +49 (0) 7071/29-76076) or Prof.
Dr. Beate Escher (email@example.com).
Please submit applications to firstname.lastname@example.org (ONE pdf-file,
max. 5MB). Applications should include a letter of motivation, a CV, transcripts or degree certificates including grades,
proof of special qualifications, prints of publications if applicable, the filled out application form and a list of at
least three referees.