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The Science of Reading: A Handbook brings together state-of-the-art reviews of reading research from leading names in the field, to create a highly authoritative, multidisciplinary overview of contemporary knowledge about reading and related skills. Provides comprehensive coverage of the subject, including theoretical approaches, reading processes, stage models of reading, cross-linguistic studies of reading, reading difficulties, the biology of reading, and reading instruction Divided into seven sections:Word Recognition Processes in Reading; Learning to Read and Spell; Reading Comprehension; Reading in Different Languages; Disorders of Reading and Spelling; Biological Bases of Reading; Teaching Reading Edited by well-respected senior figures in the field
In recent years the discpline of 'music psychology' has grown dramatically. In this volume, the two leaders in this field Isabelle Peretz and Robert Zatorre, have brought together an impressive list of contributors to present this study of the neutral correlates of music.
Empirical and theoretical foundations of a cognitive neuroscience of consciousness.
An original interdisciplinary study positioned at the intersection of literary theory and neuroscience. "Literature matters," says Paul B. Armstrong, "for what it reveals about human experience, and the very different perspective of neuroscience on how the brain works is part of that story." In How Literature Plays with the Brain, Armstrong examines the parallels between certain features of literary experience and functions of the brain. His central argument is that literature plays with the brain through experiences of harmony and dissonance which set in motion oppositions that are fundamental to the neurobiology of mental functioning. These oppositions negotiate basic tensions in the operation of the brain between the drive for pattern, synthesis, and constancy and the need for flexibility, adaptability, and openness to change. The challenge, Armstrong argues, is to account for the ability of readers to find incommensurable meanings in the same text, for example, or to take pleasure in art that is harmonious or dissonant, symmetrical or distorted, unified or discontinuous and disruptive. How Literature Plays with the Brain is the first book to use the resources of neuroscience and phenomenology to analyze aesthetic experience. For the neuroscientific community, the study suggests that different areas of research—the neurobiology of vision and reading, the brain-body interactions underlying emotions—may be connected to a variety of aesthetic and literary phenomena. For critics and students of literature, the study engages fundamental questions within the humanities: What is aesthetic experience? What happens when we read a literary work? How does the interpretation of literature relate to other ways of knowing?
These essays on a range of topics in the cognitive neurosciences report on the progress in the field over the twenty years of its existence and reflect the many groundbreaking scientific contributions and enduring influence of Michael Gazzaniga, 'the godfather of cognitive neuroscience'.
A renowned cognitive neuroscientist?s fascinating and highly informative account of how the brain acquires reading How can a few black marks on a white page evoke an entire universe of sounds and meanings? In this riveting investigation, Stanislas Dehaene provides an accessible account of the brain circuitry of reading and explores what he calls the ?reading paradox?: Our cortex is the product of millions of years of evolution in a world without writing, so how did it adapt to recognize words? Reading in the Brain describes pioneering research on how we process language, revealing the hidden logic of spelling and the existence of powerful unconscious mechanisms for decoding words of any size, case, or font. Dehaene?s research will fascinate not only readers interested in science and culture, but also educators concerned with debates on how we learn to read, and who wrestle with pathologies such as dyslexia. Like Steven Pinker, Dehaene argues that the mind is not a blank slate: Writing systems across all cultures rely on the same brain circuits, and reading is only possible insofar as it fits within the limits of a primate brain. Setting cutting-edge science in the context of cultural debate, Reading in the Brain is an unparalleled guide to a uniquely human ability.
The author of the acclaimed Proust and the Squid follows up with a lively, ambitious, and deeply informative book that considers the future of the reading brain and our capacity for critical thinking, empathy, and reflection as we become increasingly dependent on digital technologies. A decade ago, Maryanne Wolf’s Proust and the Squid revealed what we know about how the brain learns to read and how reading changes the way we think and feel. Since then, the ways we process written language have changed dramatically with many concerned about both their own changes and that of children. New research on the reading brain chronicles these changes in the brains of children and adults as they learn to read while immersed in a digitally dominated medium. Drawing deeply on this research, this book comprises a series of letters Wolf writes to us—her beloved readers—to describe her concerns and her hopes about what is happening to the reading brain as it unavoidably changes to adapt to digital mediums. Wolf raises difficult questions, including: Will children learn to incorporate the full range of "deep reading" processes that are at the core of the expert reading brain? Will the mix of a seemingly infinite set of distractions for children’s attention and their quick access to immediate, voluminous information alter their ability to think for themselves? With information at their fingertips, will the next generation learn to build their own storehouse of knowledge, which could impede the ability to make analogies and draw inferences from what they know? Will all these influences change the formation in children and the use in adults of "slower" cognitive processes like critical thinking, personal reflection, imagination, and empathy that comprise deep reading and that influence both how we think and how we live our lives? How can we preserve deep reading processes in future iterations of the reading brain? Concerns about attention span, critical reasoning, and over-reliance on technology are never just about children—Wolf herself has found that, though she is a reading expert, her ability to read deeply has been impacted as she has become increasingly dependent on screens. Wolf draws on neuroscience, literature, education, and philosophy and blends historical, literary, and scientific facts with down-to-earth examples and warm anecdotes to illuminate complex ideas that culminate in a proposal for a biliterate reading brain. Provocative and intriguing, Reader, Come Home is a roadmap that provides a cautionary but hopeful perspective on the impact of technology on our brains and our most essential intellectual capacities—and what this could mean for our future.
“Wolf restores our awe of the human brain—its adaptability, its creativity, and its ability to connect with other minds through a procession of silly squiggles.” — San Francisco Chronicle How do people learn to read and write—and how has the development of these skills transformed the brain and the world itself ? Neuropsychologist and child development expert Maryann Wolf answers these questions in this ambitious and provocative book that chronicles the remarkable journey of written language not only throughout our evolution but also over the course of a single child’s life, showing why a growing percentage have difficulty mastering these abilities. With fascinating down-to-earth examples and lively personal anecdotes, Wolf asserts that the brain that examined the tiny clay tablets of the Sumerians is a very different brain from the one that is immersed in today’s technology-driven literacy, in which visual images on the screen are paving the way for a reduced need for written language—with potentially profound consequences for our future.
Providing up-to-date and authoritative coverage of key topics in the new discipline of cognitive neuroscience, this book will be essential reading in cognitive psychology, neuropsychology and neurophysiology. Striking a balance between theoretical and empirical approaches to the question of how cognition is supported by the brain, it presents the major experimental methods employed by cognitive neuroscientists and covers a representative range of the subjects currently exciting interest in the field. The nine chapters of the book have been written by leading authorities in their fields. The individual chapters provide "state-of-the-art" reviews of their respective attempts to build bridges between domains of enquiry that, until quite recently, were largely independent of one another. The chapters include two describing the different methods that are now available for non-invasive measurement of human brain activity; another two that discuss various current theoretical approaches to the problem of how information is coded in the nervous system; and single contributions dealing with the neural mechanisms of long-term memory and of movement, the functional and neural architecture of working memory, the organization of language in the brain, and the relationship between perception and consciousness. Cognitive Neuroscience will appeal to advanced undergraduate and graduate students interested in the relationship between the brain and higher mental functions, as well as to established researchers in cognitive neuroscience and related fields.
This special issue of Scientific Studies of Reading highlights the great deal of progress that has been made recently in understanding the neurobiological foundations of basic processes in reading. The papers demonstrate how functional neuroimaging techniques have provided novel insights into how reading works in the brain, and how these processes may be disorganized in reading disorders. Importantly, they illustrate that understanding how reading works in the brain is not a simple end-goal, but rather reveals new phenomena that will serve to constrain theories of reading. Although these articles make clear that full understanding of these processes is well off in the distance, the editors hope that they will inspire further collaboration between reading researchers and neuroscientists.