Georg Sebastian Voelker
Seestrasse 15
D-18119 Rostock
I am a research assistant at the Leibniz Institute for Baltic Sea Research and work on climate prediction for the Baltic Sea region. I focus in particular on the climate models used and their impact on the lives of people in the region.
Expertise
- dynamics of the atmosphere
- dynamics of the ocean
- regional and global climate dynamics and variability
- cliamte communication
- science-policy interfaces
Dynamics of the Earth system - from weather to climate
The Earth system, with its atmosphere, oceans, land and ice masses, and almost ubiquitous flora and fauna, is one of the most complex systems we know. Yet we are constantly dependent on it. Not only does it form the basis of our lives, it also shapes our culture, our society and its development, and our prosperity.
Understanding the climate is therefore crucial for our society, both on a large and small scale. Global Earth system models are often created with grid sizes of more than 100 km and cannot cover regional changes. In addition, so-called parameterizations, i.e., the integration of simplified models of effects that the model cannot represent, are often subject to uncertainty.
That is why I focus on three core topics
- Model development and the representation of subgrid-scale dynamics are key components in improving the accuracy of our models and understanding and reducing the systematic uncertainties associated with them.
- Calibrating our Earth system model is the most important step in understanding the relationships within the system and reducing errors.
- Using calibrated models, we can apply global climate predictions to the Baltic Sea region and make more accurate predictions for local conditions. The primary focus here is on the practical usefulness of the predictions.
Science, policy and society
The climate, especially in its interaction with human life, is a complex system comprising all kinds of interdependent phenomena. Due to the interdependence of these parts of the system, it is usually difficult to assess the effects of individual parts on the system as a whole. Various perspectives are needed to approach this. Scientific perspectives offer an important source of information for individuals, businesses, and governments when making decisions about how to act.
The communication of current knowledge and specialist content is therefore particularly important. One of the key prerequisites is trust in information sources. It should also be noted that the communicated content is usually only passed on to a small group; many people only come into contact with the information indirectly, in a form that has already been processed and reproduced. Thus, the socio-political context has a major influence on how the information is perceived and used.
Interfaces between politics and science are a special form of science communication. They are subject to the same conceptual conditions. Consideration of the socio-political context and transparent communication with politics, administration, business, and the public that is adapted to the context are important aspects of this work. Institutional interfaces between science, society, and politics are therefore tailored to the relevant context in terms of their effectiveness right from the design stage. For example, the interface needs to be equipped with appropriate resources and guidelines or specifications.
Work experience
Research associate (tenure track)
since July 2024
Leibniz Institute for Baltic Sea Research Warnemuende
Dynamik regionaler Klimasysteme
Research associate (postdoc)
Feb 2018 - Jun 2024
Goethe University Frankfurt
Institute for Atmospheric and Environmental Sciences (IAU)
Theory of Atmospheric Dynamics and Climate
Research associate (Ph.D.)
Nov 2013 - Mar 2017
Bremen University
Center for Marine Environmental Science (MARUM)
Institute for Environmental Physics (IUP), work group for physical oceanography
Education
Doctorate (Dr. rer. nat.)
Nov 2013 - Mar 2017
Bremen University, Center for Marine Environmental Science (MARUM), Institute for Environmental Physics (IUP), International Research Training Group ArcTrain
"Process Studies on the Generation of Near-Inertial Internal Gravity Waves by Wind"
Zertifikat Umweltphysik
Oct 2012 - Sep 2013
Bremen University, Institute for Environmental Physics (IUP), Postgraduate Program Environmental Physics (PEP)
B.Sc. in Physik
Oct 2009 - Sep 2012
Leipzig University, Faculty of Physics, International Physics Studies Program (IPSP), Thesis at Leibniz Institute for Tropospheric Research (TROPOS), Physics Department - Clouds
"Theoretical Investigations into the Optimization of an Optical Particle Spectrometer for the Detection of Ice at LACIS"
Publications
2026
- Banerjee, T., Y. H. Kim, G. S. Voelker, S. Borchert, A. Kosareva, D. Kunkel, G. T. Masur, Z. Prochazkova, J. Schmidli and U. Achatz (2026). The Impact of Non-Orographic Gravity Waves on Transport and Mixing: Effects of Oblique Propagation and Coupling to Turbulence. J. Geophys. Res.-Atmos. 131: e2025JD045270, doi: 10.1029/2025JD045270
- Kühner T., G. S. Voelker, U. Achatz (0). Impact of Non-Classical Gravity-Wave Dynamics on Middle-Atmosphere Mean Flow and Solar Tides. JGR Atmospheres : , doi:10.1029/2025JD045506
2025
- Jochum, F., R. Chew, F. Lott, G. S. Voelker, J. Weinkaemmerer and U. Achatz (2025). The Impact of Transience in the Interaction between Orographic Gravity Waves and Mean Flow. J. Atmos. Sc. 82: 425-442, doi: 10.1175/JAS-D-24-0158.1
- Quinn, B., C. Eden, D. Olbers, G. S. Voelker and U. Achatz (2025). The Transient IDEMIX Model as a Nonorographic Gravity Wave Parameterization in an Atmospheric Circulation Model. J. Adv. Model. Earth Syst. 17: e2023MS004121, doi: 10.1029/2023MS004121