TY - JOUR T1 - Long-Range Temporal Correlations in Resting-State Alpha Oscillations Predict Human Timing-Error Dynamics JF - The Journal of Neuroscience JO - J. Neurosci. SP - 11212 LP - 11220 DO - 10.1523/JNEUROSCI.2816-12.2013 VL - 33 IS - 27 AU - Dirk J. A. Smit AU - Klaus Linkenkaer-Hansen AU - Eco J. C. de Geus Y1 - 2013/07/03 UR - http://www.jneurosci.org/content/33/27/11212.abstract N2 - Human behavior is imperfect. This is notably clear during repetitive tasks in which sequences of errors or deviations from perfect performance result. These errors are not random, but show patterned fluctuations with long-range temporal correlations that are well described using power-law spectra P(f)∝1/fβ, where β is the power-law scaling exponent describing the decay in temporal correlations. The neural basis of temporal correlations in such behaviors is not known. Interestingly, long-range temporal correlations are a hallmark of amplitude fluctuations in resting-state neuronal oscillations. Here, we investigated whether the temporal dynamics in brain and behavior are related. Thirty-nine subjects' eyes-open rest EEG was measured. Next, subjects reproduced without feedback a 1 s interval by tapping with their right index finger. In line with previous reports, we found evidence for the presence of long-range temporal correlations both in the amplitude modulation of resting-state oscillations in multiple frequency bands and in the timing-error sequences. Frequency scaling exponents of finger tapping and amplitude modulation of oscillations exhibited large individual differences. Neuronal dynamics of resting-state alpha-band oscillations (9–13 Hz) recorded at precentral sites strongly predicted scaling exponents of tapping behavior. The results suggest that individual variation in resting-state brain dynamics offer a neural explanation for individual variation in the error dynamics of human behavior. ER -