The study of how the brain processes time is becoming one of the most important topics in systems, cellular, computational, and cognitive neuroscience, as well as in the physiologic bases of music and language. During the last and current decade, interval timing has been intensively studied in humans and animals using increasingly sophisticated approaches. This new edition of the Neurobiology of Interval Timing integrates the current knowledge of animal behavior and human cognition of the passage of time in different behavioral contexts, including the perception and production of time intervals, as well as rhythmic activities. The chapters are written by the leading experts in the fields of psychophysics, functional imaging, systems neurophysiology, and musicology. The new edition features a complete updating of the content with many new chapters. The main updates are the remarkable advances in our understanding of the neural basis of temporal processing in monkeys, rodents, and humans. The notion is that the neural clock depends on the dynamics of neural populations in the motor system, and that this general internal time representation interacts with the sensory and cognitive systems depending on the timing requirements and the behavioral contingencies of a specific task. Also, this edition delineates a clearer distinction between interval-based and beat-based timing in humans.
Part I: Neurobiology of interval timing.- A second introduction to the
Neurobiology of Interval Timing.- Creating a home for timing researchers:
Then, now, and the future.- The processing of short time intervals: Some
critical issues.- Models of Interval Timing: Seeing the forest for the
trees.- Part II: Neurophysiology of timing.- Neural sequences and the
encoding of time.- Temporal information processing in the cerebellum and
basal ganglia.- Diverse time encoding strategies within the medial premotor
areas of the primate.- Interactions of temporal and sensory representations
in the basal ganglia.- Estimating time and rhythm by predicting external
stimuli.- Cognition of time and thinkings beyond.- Part III: Timing in
humans.- The motor of time: Coupling action to temporally predictable events
heightens perception.- Coordinate-Based Meta-Analyses of the Time Perception
Network.- Probing beat perception with event-related potentials (ERPs) in
human adults, newborns, and non-human primates.- Rhythms in speech.- Timing
patterns in the extended basal ganglia system.
Hugo Merchant, PhD, is Professor of Neurobiology and Systems Neuroscience, Institute of Neurobiology, Universidad Nacional Autonoma de Mexico, Juriquilla, Mexico. His research focuses on the neural basis of time. He has served as Associate Editor of the Journal of Neuroscience of and the Journal of Neurophysiology, and on the Editorial Boards of eLife, Frontiers in System Neuroscience, and Frontiers in Integrative Neuroscience.
Victor de Lafuente, PhD, is Professor of Neurobiology, Institute of Neurobiology, Universidad Nacional Autonoma de Mexico, Queretaro, Mexico. His research interests are centered around the neuronal correlates of sensory perception, motor planning, and decision making. He is on the Board of Senior Editors for Neuroscience and is on the Editorial Boards of Frontiers In Molecular Neurobiology and Frontiers in Systems Neuroscience
