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Human intracranial electroencephalographic recordings reveal the electrophysiological properties and hierarchical organization of spontaneous neuronal oscillations in the human insula and show that these oscillations are traveling waves, thus providing new insights into intrainsular and interinsular communication.

Complex motor behaviors can be assembled from simpler repeating elements controlled by pattern-generation circuits operating at different time scales.

Representations in the subcortical sensory pathway do not only adapt to stimulus properties but also rely on the observer’s subjective model of the world.

An oscillating computational model combined with a predictive internal linguistic model can track naturally timed speech in which pseudo-rhythmicity is related to the predictability of words within their sentence context.

Invasive electrophysiological recording measures neuronal transmembrane current timescales across human cortex, which lengthens from sensory to association regions, follows variations in ion channel expressions, and alters with behavior and aging.

In the human brain, default mode network BOLD deactivations can be accompanied by both increases and decreases in glucose metabolism, depending on the respective metabolic demands of task-positive cognitive control and attention networks.

Alpha oscillations represent an intermediate stage of evidence accumulation that is influenced by self-regulation in value-based decision making.

Individuals differ in how their leaf-out and flowering are regulated by abiotic stimuli and, under climate warming, this leads to reduced within-population phenological synchrony, impacting mutualistic and antagonistic community interactions.

Aging and the duration of epilepsy can intensify the high-frequency desynchronization between the epileptogenic zone and the rest of the brain in early to mid-seizure.

Naturalistic animal behavior exhibits a complex organization in the temporal domain, whose variability stems from hierarchical, contextual, and stochastic sources and can be naturally explained in terms of metastable attractor models.