Multiscale detection of abrupt climate changes: application to River Nile flood levels

The historical ¯ood-level time series of the River Nile (AD 622±1470) is chosen to identify abrupt climate changes by applying global and local analysis techniques: the Mann±Kendall test and a non-hierarchical cluster analysis method to improve the Mann±Kendall test; a multiscale moving t-test with correction to the degree of freedom and an antisymmetric wavelet transform. The global estimates show three distinct epochs, AD 622±1078, 1079±1325 and 1326±1470, coinciding with larger scale climate changes: a relatively cool age, the Little Climatic Optimum of the Middle Ages, and an interim period before the Little Ice Age. The local estimates reveal the following results. The reference time of abrupt changes can be clearly identi®ed, the associated time-scale coincides with the persistent anomaly period, and the maximum absolute t-value is statistically signi®cant. There are about eight almost synchronous abrupt changes in the minimum and maximum River Nile ¯ood levels, many of them are associated with 35±45 year persistence time-scales. An association of these short time-scales with those of interdecadal variability reported for the mid-and high-latitude sea-surface temperature of the North Atlantic is suggested, although information on phase coherence is not available.