Home System concept Launch of a new generation of climate science

Launch of a new generation of climate science


image: 15 international doctoral students are trained in an international network of 11 leading universities and research institutes across Europe, supported by 8 additional partners in universities, industry, governmental and non-governmental institutions.
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Credit: NBI / HP

The study of critical transitions or tipping points in the Earth system involves increasingly complex mathematical techniques and an understanding of the Earth system. Critical earth, a Marie Skłodowska-Curie Actions – The innovative training network program for young scientists, aims to prepare the next generation of climate scientists for this important task. The training of 15 international doctoral students in 17 European research institutes begins this week, with a kick-off meeting in Denmark, organized by Critical earth partner the University of Copenhagen (Department of Ice, Climate and Earth Physics at the Niels Bohr Institute).

Climate change is a worrying concept. Abrupt transitions lead to accelerated climate change because the climate system or parts of it shift from one stable state to another. Assessing the risk of encountering climate tipping points due to anthropogenic global warming is one of the most pressing challenges in climate science today.

Analyzing a complex system like Earth’s climate with high enough precision for predicting critical transitions involves very different mathematical concepts like stochasticity, chaos theory, and dynamical systems theory. Equally pressing is the demand for an expert understanding of the physical behavior of the climate system.

The study of tipping points and critical transitions therefore drives climate science into an increasingly advanced field of mathematics and physics, creating a need for highly qualified specialists. The upstart of the Critical earth I hope the project will facilitate this essential task.

Critical earthThe network of 15 PhD Fellows will be trained in new research methods to assess the mechanisms and risks associated with critical climate transitions.

The focus will be on studying how complex mathematics can be used to predict and avoid irreversible climate change. The positions will provide students with an excellent experience, working within a strong interdisciplinary network among 11 leading universities and research institutes across Europe, and supported by 8 additional partners in universities, industry, institutions governmental and non-governmental.

Professor Peter Ditlevsen, who is the head of the Critical earth project : “It is extremely important that we fill the knowledge gap in the mathematical understanding of tipping points and abrupt climate change. This is a formidable scientific challenge for the next generation of climatologists and the reason why the European Commission is investing in the training of 15 excellent young researchers. I am really excited by the project and delighted to see the development of these great young scientists and the constitution of the international scientific network of CriticalEarth.

A Marie Skłodowska-Curie Actions – Innovative Training Network is one of the most prestigious and competitive science programs of the EU’s Horizon 2020 program which funds Critical earth with more than 4 million euros.

For more information contact Peter Ditlevsen, [email protected] or Henrik Prætorius [email protected]

CriticalEarth (grant agreement 956170) is funded by EU Marie Skłodowska-Curie

Actions ITN research networks – Innovative training networks For more details, please refer to:

ITN https://ec.europa.eu/research/mariecurieactions/actions/get-funding/innovative-trainingnetworks

Contributing universities and scientific institutions.

Niels Bohr Institute, University of Copenhagen, Denmark.

Department of Mathematics, Technische Universität München, Germany.

Department of Mathematics, Norges Arktiske Universitet, Norway.

Department of Physics, University of Utrecht, The Netherlands.

Department of Mathematics, University of Exeter, Great Britain.

Department of Physics, University of Reading, Great Britain.

Department of Environmental Engineering, Politecnico di Torina, Italy.

Department of Atmospheric Sciences, Koninklijk Meteorologisch Instituut, The Netherlands.

Physics laboratory, ENS de Lyon, France.

Department of Earth Physics and Astrophysics, Universidad Complutense Madrid, Spain.

Institute of Marine Environmental Chemistry and Biology, Carl von Ossietzky Universität Oldenburg, Germany.

Partner organizations

Mathematics and Computer Science Department, Freie Universität Berlin, Germany.

Catholic University of Louvain, Belgium

Consiglio Nazionale delle Ricerche, France

Danish Meteorological Institute, Denmark

Potsdam Institute for Climate Impact Research, Germany
Climate risk analysis, Mudelsee, Germany
Climate Amigo, Italy

David Trads Consulting and management, Denmark

Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of any press releases posted on EurekAlert! by contributing institutions or for the use of any information via the EurekAlert system.

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