The ice-sheet model developed in the context of the project, really advances our capability to perform large-ensemble, glacial cycle simulations of the ice sheets. It is designed to facilitate broad testing of both parameter values and different parameterizations. Furthermore, it will be easy to incorporate new model physics as our understanding of the importance of different processes improves. We used the model to show that interactions between the Greenland ice sheet and the ocean are critical to its evolution on glacial time scales, something that has not been accounted for in simulations until now.
The analysis of the AMOC performed with collaborators in Germany showed that the oceanic circulation is already slowing down, most likely as a consequence of global warming. The results of our study were confirmed by an independent analysis that came out at the same time. Therefore, confidence in the` results is very high, and this slowdown has broad implications for society as a whole. The Atlantic circulation plays an important role in the redistribution of heat globally, particularly bringing warm water from the equator towards the North Atlantic, which has a stabilizing effect on the European climate. It is not known what the long-term impacts of such a slowdown, and potential shutdown, of the circulation will be, but our study makes it clear that understanding the system better is an urgent and high priority issue.