• 9 September 2022

A recently published article by Armstrong Mckay et al. in Science updates the assessment of major climate tipping elements and their possible tipping points first proposed by Lenton et al. (2008). "Climate tipping points occur when change in a part of the climate system becomes self-sustaining, locking in major negative impacts affecting millions of people. Our results provide strong scientific support for rapid emission cuts in line with the Paris Agreement's more ambitious aim of limiting warming to 1.5°C, which would reduce the chances of triggering multiple climate tipping points" says lead-author Armstrong McKay. There have been major scientific advances since the original paper and several new tipping elements have been proposed (e.g. the East Antarctic ice sheet). The article identifies nine global “core” tipping elements and seven regional “impact” tipping elements, along with their climate tipping point thresholds. With further warming heading towards 1.5 - 2°C above preindustrial levels, the authors determine that at least six of these tipping elements will likely pass their critical thresholds. These include the collapse of the Greenland and West Antarctic ice sheets, the demise of low-latitude coral reefs and widespread abrupt permafrost thaw.

References

Armstrong McKay, D.I., Staal, A., Abrams, J.F., Winkelmann, R., Sakschewski, B., Loriani, S., Fetzer, I., Cornell, S.E., Rockström, J., Lenton, T.M., 2022. Exceeding 1.5°C global warming could trigger multiple climate tipping points. Science 377, eabn7950. doi:10.1126/science.abn7950 Lenton, T.M., Held, H., Kriegler, E., Hall, J.W., Lucht, W., Rahmstorf, S., Schellnhuber, H.J., 2008. Tipping elements in the Earth’s climate system. Proceedings of the National Academy of Sciences 105, 1786–1793. doi:10.1073/pnas.0705414105

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Climate Scientists win Nobel Prize for Physics

• 5 October 2021

Climate system is one of the most complex physical systems on this planet. To understand what changes in our climate system can trigger an event, we require excellent understanding of various sub-systems of Earth, an outstanding modelling framework that combines these sub-systems, and enormous computational power. Today we have several coupled Earth system models that can simulate the climate of our planet. This would not have been possible without the pioneering efforts of Prof. Syukuro Manabe and Prof. Klaus Hasselmann, who have driven the climate research and demonstrated that the greenhouse gas emissions is responsible for climate change. For their ground-breaking research that has helped us model and understand one of the most complex systems on this planet, both of them have been awarded 1/4th of the 2021 noble prize for Physics.

This is for the first time that climate scientists have been awarded the most prestigious award in sciences. As climate scientists, we are proud and thrilled to receive this news. The award is timely and it demonstrates the importance of climate research for society. We hope that this award will ignite and enhance public debate on climate change, which should push our leaders to take strong steps in reducing the greenhouse gas emissions, protecting the vulnerable, and ensuring a safer planet for everyone. More news can be found here: EGU press release (7.10.2021) and in a blog post of NP division