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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.
Do Animals have ideas? Do they experience pain like humans? Do they think about objects that they cannot see? About situations that have occurred in the past? Do they consciously make plans for the future or do they simply react unthinkingly to objects as they appear and situations as they arise? All of these questions have bearing on whether or not animals have consciousness. The advent of computers that ?think? has lead us to consider ?intelligence? in a way we never thought possible a decade ago. But when and how does information processing in the brain become automatic?In Minds of Their Own, Lesley J. Rogers examines the issue of animal thought both sympathetically and critically by looking at the different behavior characteristics of a variety of animals, the evolution of the brain and when consciousness might have evolved. To most people, to be conscious means to be aware of oneself as well as to be aware of others. But does this hold true for animals? The answer may have implications which transcend mere scientific inquiry: if animals are cognizant creatures, what, if any, moral responsibility do humans have to assure their rights? This timely book examines this issue and others by emphasizing comparisons between humans and animals: how we evolved; how we remember; how we learn.
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.
This book explores afresh the long-standing interest, and emphasis on, the 'special' capacities of primates. Some of the recent discoveries of the higher cognitive abilities of other mammals and also birds challenge the concept that primates are special and even the view that the cognitive ability of apes is more advanced than that of nonprimate mammals and birds. It is therefore timely to ask whether primates are, in fact, special and to do so from a broad range of perspectives. Divided into five sections this book deals with topics about higher cognition and how it is manifested in different species, and also considers aspects of brain structure that might be associated with complex behavior.
No longer viewed as a characteristic unique to humans, brain lateralization is considered a key property of most, if not all, vertebrates. This field of study provides a firm basis from which to examine a number of important issues in the study of brain and behaviour. This book takes a comparative and integrative approach to lateralization in a wide range of vertebrate species, including humans. It highlights model systems that have proved invaluable in elucidating the function, causes, development, and evolution of lateralization. The book is arranged in four parts, beginning with the evolution of lateralization, moving to its development, to its cognitive dimensions, and finally to its role in memory. Experts in lateralization in lower vertebrates, birds, non-primate mammals, and primates have contributed chapters in which they discuss their own research and consider its implications to humans. The book is suitable for researchers, graduates and advanced undergraduates in psychology, neuroscience and the behavioral sciences.
This book takes a comparative and integrative approach to lateralization in a wide range of vertebrate species, including humans, and highlights model systems that have proved invaluable in elucidating the function, causes, development, and evolution of lateralization. The volume is arranged in four parts, beginning with the evolution of lateralization, moving to its development, cognitive dimensions, and finally its role in memory. Experts in lateralization in lower vertebrates, birds, nonprimate mammals, and primates have contributed chapters in which they discuss their own research and consider its implications to humans.
Do Animals have ideas? Do they experience pain like humans? Do they think about objects that they cannot see? About situations that have occurred in the past? Do they consciously make plans for the future or do they simply react unthinkingly to objects as they appear and situations as they arise? All of these questions have bearing on whether or not animals have consciousness. The advent of computers that "think" has lead us to consider "intelligence" in a way we never thought possible a decade ago. But when and how does information processing in the brain become automatic?In "Minds of Their Own, " Lesley J. Rogers examines the issue of animal thought both sympathetically and critically by looking at the different behavior characteristics of a variety of animals, the evolution of the brain and when consciousness might have evolved. To most people, to be conscious means to be aware of oneself as well as to be aware of others. But does this hold true for animals? The answer may have implications which transcend mere scientific inquiry: if animals are cognizant creatures, what, if any, moral responsibility do humans have to assure their rights? This timely book examines this issue and others by emphasizing comparisons between humans and animals: how we evolved; how we remember; how we learn.
This volume explores both simple and sophisticated techniques used in the study of different types of lateralization of brain and behavior. Research in this field increases our understanding of various brain functions in humans, other vertebrate species, and invertebrates. The book is divided into five parts: behavioral methods; neurobiological methods; electroencephalographic, imaging, and neuro-stimulation methods; genetic techniques; and development of lateralization. Part I addresses measuring lateralization by scoring behavior induced by inputs to one or the other side of the brain in a range of species. Part II covers neurobiological methods used to reveal lateralization, such as lesion studies, electrophysiology and pharmacology, early gene expression, and new optogenetic methods. Part III looks at imaging techniques, electroencephalographic techniques, and transcranial stimulation to reveal lateralization. Part IV describes techniques used to study the role of genes in the development and establishment of brain asymmetry in humans and other species. Lastly, Part V refers to methods used in the study of development of lateralization through the manipulation of sensory exposure, hormone levels, and in model systems. In Neuromethods series style, chapters include the kind of detail and key advice from the specialists needed to get successful results in your own laboratory. Cutting-edge and thorough, Lateralized Brain Function: Methods in Human and Non-Human Species is a valuable resource for investigating lateralization in a broad range of species and provides excellent advice for both new and veteran researchers.
This volume explores both simple and sophisticated techniques used in the study of different types of lateralization of brain and behavior. Research in this field increases our understanding of various brain functions in humans, other vertebrate species, and invertebrates. The book is divided into five parts: behavioral methods; neurobiological methods; electroencephalographic, imaging, and neuro-stimulation methods; genetic techniques; and development of lateralization. Part I addresses measuring lateralization by scoring behavior induced by inputs to one or the other side of the brain in a range of species. Part II covers neurobiological methods used to reveal lateralization, such as lesion studies, electrophysiology and pharmacology, early gene expression, and new optogenetic methods. Part III looks at imaging techniques, electroencephalographic techniques, and transcranial stimulation to reveal lateralization. Part IV describes techniques used to study the role of genes in the development and establishment of brain asymmetry in humans and other species. Lastly, Part V refers to methods used in the study of development of lateralization through the manipulation of sensory exposure, hormone levels, and in model systems. In Neuromethods series style, chapters include the kind of detail and key advice from the specialists needed to get successful results in your own laboratory. Cutting-edge and thorough, Lateralized Brain Function: Methods in Human and Non-Human Species is a valuable resource for investigating lateralization in a broad range of species and provides excellent advice for both new and veteran researchers.
This book explores afresh the long-standing interest, and emphasis on, the special' capacities of primates. Some of the recent discoveries of the higher cognitive abilities of other mammals and also birds challenge the concept that primates are special and even the view that the cognitive ability of apes is more advanced than that of nonprimate mammals and birds. It is therefore timely to ask whether primates are, in fact, special and to do so from a broad range of perspectives. Divided into five sections this book deals with topics about higher cognition and how it is manifested in different species, and also considers aspects of brain structure that might be associated with complex behavior.
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