Abstract
We address whether robust early warning signals can, in principle, be provided before a climate tipping point is reached, focusing on methods that seek to detect critical slowing down as a precursor of bifurcation. As a test bed, six previously analysed datasets are reconsidered, three palaeoclimate records approaching abrupt transitions at the end of the last ice age and three models of varying complexity forced through a collapse of the Atlantic thermohaline circulation. Approaches based on examining the lag-1 autocorrelation function or on detrended fluctuation analysis are applied together and compared. The effects of aggregating the data, detrending method, sliding window length and filtering bandwidth are examined. Robust indicators of critical slowing down are found prior to the abrupt warming event at the end of the Younger Dryas, but the indicators are less clear prior to the Bølling-Allerød warming, or glacial termination in Antarctica. Early warnings of thermohaline circulation collapse can be masked by inter-annual variability driven by atmospheric dynamics. However, rapidly decaying modes can be successfully filtered out by using a long bandwidth or by aggregating data. The two methods have complementary strengths and weaknesses and we recommend applying them together to improve the robustness of early warnings.
Highlights
An important question in climate forecasting is whether any early warning of an approaching threshold change or ‘tipping point’ in the climate system canOne contribution of 13 to a Theme Issue ‘Climate predictions: the influence of nonlinearity and randomness’.be provided, before it is reached
We concentrate on two approaches to extracting the signal of slowing down from data using the autocorrelation function (ACF), or detrended fluctuation analysis (DFA)
We consider the analyses of palaeodata approaching abrupt transitions, where we are unsure whether there is an underlying bifurcation
Summary
An important question in climate forecasting is whether any early warning of an approaching threshold change or ‘tipping point’ in the climate system canOne contribution of 13 to a Theme Issue ‘Climate predictions: the influence of nonlinearity and randomness’.be provided, before it is reached. An important question in climate forecasting is whether any early warning of an approaching threshold change or ‘tipping point’ in the climate system can. Somewhat abrupt climate changes add to the collective concern that larger future nonlinear changes pose a significant risk to societies [2]. Recent assessments place such ‘large-scale discontinuities’ rather closer to the present state of the climate [3]. By definition, such events imply significant impacts on societies or on other living components of the Earth system. If an early warning of a climate tipping point can be achieved, it could be of considerable value to societies, at least in helping them build an adaptive capacity to cope with what is approaching
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