Evolution of Nervous Systems: Edition 2
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In the first edition of this important reference work, over 100 distinguished neuroscientists assembled the current state-of-the-art knowledge on how nervous systems have evolved throughout the animal kingdom. This second edition remains rich in detail and broad in scope, outlining the changes in brain and nervous system organization that occurred from the first invertebrates and vertebrates, to present day fishes, reptiles, birds, mammals, and especially primates, including humans.
The book also includes wholly new content, fully updating the chapters in the previous edition and offering brand new content on current developments in the field. Each of the volumes has been carefully restructured to offer expanded coverage of non-mammalian taxa, mammals, primates, and the human nervous system.
The basic principles of brain evolution are discussed, as are mechanisms of change. The reader can select from chapters on highly specific topics or those that provide an overview of current thinking and approaches, making this an indispensable work for students and researchers alike.
- Presents a broad range of topics, ranging from genetic control of development in invertebrates, to human cognition, offering a one-stop resource for the evolution of nervous systems throughout the animal kingdom
- Incorporates the expertise of over 100 outstanding investigators who provide their conclusions in the context of the latest experimental results
- Presents areas of disagreement and consensus views that provide a holistic view of the subjects under discussion
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Kaas's major research interests are in the evolution and functional organization of sensory-perceptual, cognitive, and motor systems, especially in primates, in the development of these systems, and in how these systems are plastic in response to injury and use in developing and adult brains. Special research emphasis is placed on studying visual, auditory and somatosensory systems, but current studies are also concerned with multimodal and sensorimotor integration in parietal and frontal cortex. Research questions are addressed with a range of electrophysiological, neuroanatomical, biochemical, and behavioral techniques. Teaching interests are in neuroscience, biological psychology, and animal behavior. Current Research: • Single and multielectrode recordings of neurons in primary somatosensory cortex of monkeys. • Optical imaging of functional subdivisions of visual cortex in monkeys. • Studies of anatomical connections of neural networks in brain systems devoted to somatosensory, visual, auditory, motor, and gustatory functions in monkeys. • Studies of brain architecture.
Dr. Rubenstein is a Professor in the Department of Psychiatry at the University of California, San Francisco. He also serves as a Nina Ireland Distinguished Professor in Child Psychiatry at the Nina Ireland Laboratory of Developmental Neurobiology. His research focuses on the regulatory genes that orchestrate development of the forebrain. Dr. Rubenstein's lab has demonstrated the role of specific genes in regulating neuronal specification, differentiation, migration and axon growth during embryonic development and on through adult life. His work may help to explain some of the mechanisms underlying human neurodevelopmental disorders such as autism.
