- Postdoctoral Researcher
Post-doctoral scientist position at the UCLouvain, Belgium: Decadal variability of the Southern Ocean and its contribution to the predictability of the atmosphere-ocean-ice sheet system
The climate of the Polar Regions has dramatically changed over the last decades. This may have resulted from external forcing, but also from natural interactions between the components of the climate system. Quantifying the specific contribution of each individual driver is critical to understand decadal variability and predict future changes.
Based on the complementary scientific expertise of the project partners, the PARAMOUR project (http://www.climate.be/paramour ) aims at revealing fundamental drivers of climate variability and assessing the predictability in high-latitudes by using coupled regional climate models in both hemispheres.
The partners of the project invite applications for the following position:
Starting date: 1st of January 2022 but can be negotiated
Full time position for 24 months
Net monthly salary: 2300-2500 € (depending on seniority - this includes social insurances). Transportation to and from workplace is covered.
Location: Earth and Life Institute, Université catholique de Louvain, Belgium
The candidates must not have spent more than 2 years in Belgium over the last 3 years and should not have obtained their PhD more than 6 years before the starting date of the grant.
The post-doctoral scientist will contribute to advance understanding of the processes driving the recent variability of the ice-ocean system and how they could lead to predictability at interannual to decadal timescale. He/she will perform and analyse simulations with the global ocean and sea ice model NEMO-LIM and with a new coupled atmosphere-ocean-sea ice-ice sheet model covering Antarctica and the Southern Ocean, in collaboration with the other scientists working on the project. Dedicated numerical experiments will be devised and run with those models, including for example (but not limited to): activation or not of explicit melting rates at the ocean-ice shelves boundaries and impact on the ocean / sea ice state; applying a constraint on the model winds (e.g., by nudging towards climatological values) to disentangle thermodynamic from dynamic processes on the sea ice variability; supressing the feedbacks between sea ice and ocean to quantify their role in recent trends.
- To have a PhD in climatology or related field;
- To have published in peer-reviewed international journals;
- To have strong experience in programming and in managing large data sets;
- To have demonstrated verbal and written communication skills in English;
- To have interest in working in a multidisciplinary team environment.
Previous experience in polar climate dynamics is an asset.
Review of the applications will start October 15 and the call is open until the position is filled.