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This is the first book on the neurobiology of learning and memory that covers comprehensively all levels of analysis, from molecules to brain, in both invertebrates and vertebrates, from molluscs to man. The book addresses in a provocative, stimulating, and lucid manner the major questions, concepts, and experimental approaches in the biology of learning and memory, and describes, analyses, and integrates recent findings and hypotheses. The result is a fascinating, clear, and balanced picture of the state of the art at one of the frontiers of brain research.
This is an innovative and engaging companion to the language of memory research. It consists of over 130 entries, bound within a coherent conceptual framework. Each entry starts with a definition, or a set of definitions, followed by an in-depth and provocative discussion of the origin, meaning, usage and aplicability of ideas and problems central to the neuroscience of memory and scientific culture at large. The entries, linked by webs of associations, can be read and enjoyed, and provide a versatile tool kit: a source for definitions, information and further reading; a trigger for contemplation, discussion and experimentation; and an aid to study, teaching and debate in classes and seminars. The text is supported by an extensive reference listing, and there is a comprehensive subject index, incorporating a much wider range of terms relevant to the field.
Scientists currently study memory from many different perspectives: neurobiological, ethological, animal conditioning, cognitive, behavioral neuroscience, social, and cultural. The aim of this book is to help initiate a new science of memory by bringing these perspectives together to create a unified understanding of the topic. The book began with a conference where leading practitioners from all these major approaches met to analyze and discuss 16 concepts that are crucial to our understanding of memory. Each of these 16 concepts is addressed in a section of the book, and in the 66 succinct chapters that fill these sections, a leading researcher addresses the section's concept by clearly st...
We learn and remember information by modifying synaptic connections in the neuronal networks of our brain. Depending on the type of information being stored, these changes occur in different regions and different circuits of the brain. The underlying circuit mechanisms are beginning to be understood. These mechanisms are capable of storing or reconstructing memories for periods ranging up to a lifetime, but they are also error-prone, as memories can be distorted or lost. Written and edited by experts in the field, this collection from Cold Spring Harbor Perspectives in Biology examines important aspects of the neurobiology of learning and memory. Contributors review the various types of memo...
When one is immersed in the fascinating world of neuroscience findings, the brain might start to seem like a collection of "modules," each specializes in a specific mental feat. But just like in other domains of Nature, it is possible that much of the brain and mind's operation can be explained with a small set of universal principles. Given exciting recent developments in theory, empirical findings and computational studies, it seems that the generation of predictions might be one strong candidate for such a universal principle. This is the focus of Predictions in the brain. From the predictions required when a rat navigates a maze to food-caching in scrub-jays; from predictions essential i...
In this wide-ranging book, one of the boldest thinkers in modern neuroscience confronts an ancient philosophical problem: can we know the world as it really is? Drawing on provocative new findings about the psychophysiology of perception and judgment in both human and nonhuman primates, and also on the cultural history of science, Jean-Pierre Changeux makes a powerful case for the reality of scientific progress and argues that it forms the basis for a coherent and universal theory of human rights. On this view, belief in objective knowledge is not a mere ideological slogan or a naive confusion; it is a characteristic feature of human cognition throughout evolution, and the scientific method its most sophisticated embodiment. Seeking to reconcile science and humanism, Changeux holds that the capacity to recognize truths that are independent of subjective personal experience constitutes the foundation of a human civil society.
Could we understand, in biological terms, the unique and fantastic capabilities of the human brain to both create and enjoy art? In the past decade neuroscience has made a huge leap in developing experimental techniques as well as theoretical frameworks for studying emergent properties following the activity of large neuronal networks. These methods, including MEG, fMRI, sophisticated data analysis approaches and behavioral methods, are increasingly being used in many labs worldwide, with the goal to explore brain mechanisms corresponding to the artistic experience. The 37 articles composing this unique Frontiers Research Topic bring together experimental and theoretical research, linking st...
The last 20 years have seen an explosion of research and development in the neurosciences. Indeed, some have called this first decade of the 21st century 'the decade of the mind'. An all-encompassing term, the neurosciences cover such fields as biology, psychology, neurology, psychiatry and philosophy and include anatomy, physiology, molecular biology, genetics and behaviour. It is now a major industry with billions of dollars of funding invested from both public and private sectors. Huge progress has been made in our understanding of the brain and its functions. However, with progress comes controversy, responsibility and dilemma. The New Brain Sciences: Perils and Prospects examines the implications of recent discoveries in terms of our sense of individual responsibility and personhood. With contributing chapters from respected and influential names in neuroscience, law, psychology, philosophy and sociology, The New Brain Sciences should kick-start a discussion of where neuroscience is headed.
With contributions from Patrick Bateson, Robert Hinde, Eric Kandel and James McGaugh, this is an authoritative and comprehensive overview of current knowledge of the essential neural mechanisms of perception, learning and memory.