PREDICTING CLIMATE TIPPING AS A NOISY BIFURCATION: A REVIEW

Author:

THOMPSON J. MICHAEL T.12,SIEBER JAN3

Affiliation:

1. Department of Applied Mathematics & Theoretical Physics, Cambridge University, Centre for Mathematical Sciences, Wilberforce Road, Cambridge, CB3 0WA, UK

2. School of Engineering (Sixth Century Professor), Aberdeen University, UK

3. Department of Mathematics, University of Portsmouth, Portsmouth, PO1 3HF, UK

Abstract

There is currently much interest in examining climatic tipping points, to see if it is feasible to predict them in advance. Using techniques from bifurcation theory, recent work looks for a slowing down of the intrinsic transient responses, which is predicted to occur before an instability is encountered. This is done, for example, by determining the short-term autocorrelation coefficient ARC(1) in a sliding window of the time-series: this stability coefficient should increase to unity at tipping. Such studies have been made both on climatic computer models and on real paleoclimate data preceding ancient tipping events. The latter employ reconstituted time-series provided by ice cores, sediments, etc., and seek to establish whether the actual tipping could have been accurately predicted in advance. One such example is the end of the Younger Dryas event, about 11 500 years ago, when the Arctic warmed by 7°C in 50 yrs. A second gives an excellent prediction for the end of "greenhouse" Earth about 34 million years ago when the climate tipped from a tropical state into an icehouse state, using data from tropical Pacific sediment cores. This prediction science is very young, but some encouraging results are already being obtained. Future analyses will clearly need to embrace both real data from improved monitoring instruments, and simulation data generated from increasingly sophisticated predictive models.

Publisher

World Scientific Pub Co Pte Ltd

Subject

Applied Mathematics,Modeling and Simulation,Engineering (miscellaneous)

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