A fundamental goal of neuroscience is to understand how the nervous system extracts biologically relevant information from the natural environment and how it uses that information to guide and coordinate behavior necessary for reproduction and survival. The electrosensory systems of weakly electric teleost fishes and those of nonteleost fishes are attractive systems for addressing basic questions about neuronal information processing and its relationship to natural behavior. Comparative approaches in these fishes have led to the identification of fundamental mechanisms that have shaped the adaptive evolution of sensory systems across animal taxa. Understanding how sensory systems encode and integrate information about the natural world has far reaching implications for advancing our knowledge in the basic biomedical sciences and in understanding how the nervous system has evolved to control behavior.
The primary goal of this book is to provide a comparative perspective on the topic of electroreception and review some of the fundamental insights gained from studies of electrosensory and electromotor systems. Although totally independent, this book follows from volume 21 in the Springer Handbook of Auditory Research series, Electroreception (Bullock, T. H., Hopkins, C. D., Popper, A. N., and Fay, R. R., 2005, Springer-Verlag, New York).
A Brief History of Electrogenesis and Electroreception in Fishes.- The
Development and Evolution of Lateral Line Electroreceptors: Insights from
Comparative Molecular Approaches.- Electrosensory Transduction: Comparisons
Across Structure, Afferent Response Properties, and Cellular Physiology.- The
Evolution and Development of Electric Organs.- Biophysical Basis of Electric
Signal Diversity.- Hormonal Influences on Social Behavior in South American
Weakly Electric Fishes.- Evolutionary Drivers of Electric Signal Diversity.-
Using Control Theory to Characterize Active Sensing in Weakly Electric
Fishes.- Envelope Coding and Processing: Implications for Perception and
Behavior.- Evolution of Sub-millisecond Temporal Coding in Vertebrate
Electrosensory and Auditory Systems.- Influences of Motor Systems on
Electrosensory Processing.- Active Electrolocation and Spatial Learning.
Bruce A. Carlson is Professor of Biology at Washington University in St. Louis.
Joseph A. Sisneros is Professor of Psychology at the University of Washington, Seattle
Arthur N. Popper is Professor Emeritus and research professor in the Department of Biology at the University of Maryland, College Park
Richard R. Fay is Distinguished Research Professor of Psychology at Loyola
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