Divided Brains: The Biology and Behaviour of Brain Asymmetries

Divided Brains: The Biology and Behaviour of Brain Asymmetries

by Lesley J. Rogers (Author), Lesley J. Rogers (Author)

Synopsis

Asymmetry of the brain and behaviour (lateralization) has traditionally been considered unique to humans. However, research has shown that this phenomenon is widespread throughout the vertebrate kingdom and found even in some invertebrate species. A similar basic plan of organisation exists across vertebrates. Summarising the evidence and highlighting research from the last twenty years, the authors discuss lateralization from four perspectives - function, evolution, development and causation - covering a wide range of animals, including humans. The evolution of lateralization is traced from our earliest ancestors, through fish and reptiles to birds and mammals. The benefits of having a divided brain are discussed, as well as the influence of experience on its development. A final chapter discusses outstanding problems and areas for further investigation. Experts in this field, the authors present the latest scientific knowledge clearly and engagingly, making this a valuable tool for anyone interested in the biology and behaviour of brain asymmetries.

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More Information

Format: Illustrated
Pages: 240
Edition: New
Publisher: Cambridge University Press
Published: 17 Jan 2013

ISBN 10: 0521183049
ISBN 13: 9780521183048
Book Overview: Discusses brain asymmetry from four perspectives - function, evolution, development and causation - covering a wide range of species, including humans.

Media Reviews
'This fascinating book has been written by three experts in the field. The different roles played by the two sides of the brain were thought to be a uniquely human characteristic, but the authors show that such lateralisation has ancient origins in biological evolution. They have written a superb book which I shall use as an invaluable source for years to come.' Professor Sir Patrick Bateson, University of Cambridge, and co-author of Plasticity, Robustness, Development and Evolution
'Birds do it, bees do it - and so, it seems, do species of every taxa: they show cerebral and behavioral asymmetries that belie the seeming bilateral symmetry of the body, and even the brain itself. Until quite recently such asymmetries, especially in the form of right-handedness and left-brain dominance, were held to be uniquely human, and even to define our species. This anthropocentric view is here comprehensively buried. The book is more than simply a compendium of asymmetries across different species. Rogers, Vallortigara and Andrew cover evolutionary, development and genetic aspects of asymmetry, asking why and how asymmetries evolved in a world that is indifferent to left and right. This is the most in-depth analysis to date, by the three foremost authorities on animal asymmetries, of a phenomenon that has fascinated scientists and philosophers through the centuries.' Michael C. Corballis, University of Auckland
'A timely addition to our understanding of hemisphere difference, this book is a vital and accessible source of information about laterality in fish, reptiles, birds, mammals, and even insects. It does not content itself with merely marshalling information, though it does that very well, but addresses the 'how' and 'why' of the asymmetrical world of all living things.' Iain McGilchrist, author of The Master and his Emissary: The Divided Brain and the Making of the Western World
'It is impossible to do justice to the extraordinarily high quality of this book in the space available here. The authors have produced a monograph of astonishing scope, without sacrifice of rigor. The book is a landmark contribution to comparative neurobiology and cognitive neuroscience. There is no doubt in my mind that it will constitute the gold standard for attempts to synthesize knowledge on animal brain asymmetry for the foreseeable future. This remarkable book will make obsolete the typical introductory psychology textbook, with a single chapter on hemispheric specialization, unrelated to the content of the rest of the book.' Peter F. MacNeilage, Animal Behaviour
'Those who are interested in brain lateralization will find this book, written by eminent brain researchers, to be well written and comprehensive. For others, the striking message is how, once again, comparative research forces us to confront the reality that, although we do have certain capacities that distinguish us from other animals, there are many fewer differences that we can point to as being uniquely human.' Thomas R. Zentall, PsycCRITIQUES
'... elegantly brings together research, especially from the past two decades, on asymmetry (lateralization) of brain structure and function in a wide range of species. I really enjoyed this extremely stimulating and important book and learned a lot about how brains work and how much remains to be discovered about asymmetries and what they mean in a wide variety of species.' Marc Bekoff, Psychology Today
'Divided Brains is relatively trim, well written, comprehensive, and provides the latest information about brain lateralization across the animal spectrum. It is a must-read for scholars interested in brain evolution, including that of humans and their early ancestors.' American Journal of Physical Anthropology
'The text is an important window into how evolution through the development of lateralisation has allowed the brains of a diverse range of organisms to maximise their exploitation of the niches in which they live.' Stephen Hoskins, The Biologist
'... a fascinating and awe-inspiring analysis of cerebral and behavioural asymmetries across the animal kingdom (in both vertebrate and invertebrate species), across experimental techniques and across time both historical and evolutionary. A remarkably charming aspect of this extraordinary book is that, although the authors do not renounce the use of technical terms and definitions to explain principles and functional mechanisms that govern asymmetric brain functions, the language is kept simple and flows very nicely throughout the text, which makes the book suited to a broader audience.' Marcello Siniscalchi, Laterality
This fascinating book has been written by three experts in the field. The different roles played by the two sides of the brain were thought to be a uniquely human characteristic, but the authors show that such lateralisation has ancient origins in biological evolution. They have written a superb book which I shall use as an invaluable source for years to come. Professor Sir Patrick Bateson, University of Cambridge, and co-author of Plasticity, Robustness, Development and Evolution (2011)
Birds do it, bees do it - and so, it seems, do species of every taxa: they show cerebral and behavioral asymmetries that belie the seeming bilateral symmetry of the body, and even the brain itself. Until quite recently such asymmetries, especially in the form of right-handedness and left-brain dominance, were held to be uniquely human, and even to define our species. This anthropocentric view is here comprehensively buried. The book is more than simply a compendium of asymmetries across different species. Rogers, Vallortigara and Andrew cover evolutionary, development and genetic aspects of asymmetry, asking why and how asymmetries evolved in a world that is indifferent to left and right. This is the most in-depth analysis to date, by the three foremost authorities on animal asymmetries, of a phenomenon that has fascinated scientists and philosophers through the centuries. Professor Michael C. Corballis, University of Auckland
A timely addition to our understanding of hemisphere difference, this book is a vital and accessible source of information about laterality in fish, reptiles, birds, mammals, and even insects. It does not content itself with merely marshalling information, though it does that very well, but addresses the `how' and `why' of the asymmetrical world of all living things. Dr Iain McGilchrist, author of The Master and his Emissary: The Divided Brain and the Making of the Western World
... a fascinating and awe-inspiring analysis of cerebral and behavioural asymmetries across the animal kingdom (in both vertebrate and invertebrate species), across experimental techniques and across time both historical and evolutionary. A remarkably charming aspect of this extraordinary book is that, although the authors do not renounce the use of technical terms and definitions to explain principles and functional mechanisms that govern asymmetric brain functions, the language is kept simple and flows very nicely throughout the text, which makes the book suited to a broader audience. Marcello Siniscalchi, Laterality
It is impossible to do justice to the extraordinarily high quality of this book in the space available here. The authors have produced a monograph of astonishing scope, without sacrifice of rigor. The book is a landmark contribution to comparative neurobiology and cognitive neuroscience. There is no doubt in my mind that it will constitute the gold standard for attempts to synthesize knowledge on animal brain asymmetry for the foreseeable future. This remarkable book will make obsolete the typical introductory psychology textbook, with a single chapter on hemispheric specialization, unrelated to the content of the rest of the book. Peter F. MacNeilage, University of Texas at Austin, Animal Behavior
Those who are interested in brain lateralization will find this book, written by eminent brain researchers, to be well written and comprehensive. For others, the striking message is how, once again, comparative research forces us to confront the reality that, although we do have certain capacities that distinguish us from other animals, there are many fewer differences that we can point to as being uniquely human. Thomas R. Zentall, PsycCRITIQUES
... elegantly brings together research, especially from the past two decades, on asymmetry (lateralization) of brain structure and function in a wide range of species. I really enjoyed this extremely stimulating and important book and learned a lot about how brains work and how much remains to be discovered about asymmetries and what they mean in a wide variety of species. Marc Bekoff, Psychology Today
Divided Brains is relatively trim, well written, comprehensive, and provides the latest information about brain lateralization across the animal spectrum. It is a must-read for scholars interested in brain evolution, including that of humans and their early ancestors. Dean Falk, Florida State University, American Journal of Physical Anthropology
The text is an important window into how evolution through the development of lateralisation has allowed the brains of a diverse range of organisms to maximize their exploitation of the niches in which they live. Dr Stephen Hoskins, The Biologist
Author Bio
Lesley J. Rogers is Emeritus Professor at the Centre for Neuroscience and Animal Behaviour, University of New England, Armidale, Australia. A Fellow of the Australian Academy of Science, she has made outstanding contributions to understanding brain development and behaviour, including the discovery of lateralization in the chick forebrain at a time when lateralization was thought to be unique to humans. Her publications, numbering over 450, include 16 books and over 200 scientific papers and book chapters, mainly in the field of brain and behaviour with a focus on development and lateralization. She has received a number of awards for excellence in research, including a Special Investigator Award from the Australian Research Council, an Australian Centenary Medal, and the Clarke Medal from the Royal Society of New South Wales. Giorgio Vallortigara is Professor of Neuroscience at the Centre for Mind/Brain Sciences, University of Trento, Rovereto, Italy. His research includes the study of spatial cognition in the avian brain, number and object cognition in animals and lateralization of cognition. He discovered functional brain asymmetry in the so-called 'lower' vertebrate species. Richard J. Andrew is Emeritus Professor at the School of Life Sciences, University of Sussex, Brighton, UK. He has worked extensively on lateralized processes in memory formation in chicks and on behavioural transitions during early development. At present he uses zebrafish to explore the role of brain asymmetries in the generation of lateralized behaviour.