This book synthesizes much of the exciting recent research in the biology of language. Drawing on data from anatomy, neurophysiology, physiology, and behavioral biology, Philip Lieberman develops a new approach to the puzzle of language, arguing that it is the result of many evolutionary compromises. Within his discussion, Lieberman skillfully addresses matters as various as the theory of neoteny (which he refutes), the mating calls of bullfrogs, ape language, dyslexia, and computer-implemented models of the brain.
In this forcefully argued book, the leading evolutionary theorist of language draws on evidence from evolutionary biology, genetics, physical anthropology, anatomy, and neuroscience, to provide a framework for studying the evolution of human language and cognition. Philip Lieberman argues forcibly that the widely influential theories of language's development, advanced by Chomskian linguists and cognitive scientists, especially those that postulate a single dedicated language "module," "organ," or "instinct," are inconsistent with principles and findings of evolutionary biology and neuroscience. He argues that the human neural system in its totality is the basis for the human language ability, for it requires the coordination of neural circuits that regulate motor control with memory and higher cognitive functions. Pointing out that articulate speech is a remarkably efficient means of conveying information, Lieberman also highlights the adaptive significance of the human tongue. Fully human language involves the species-specific anatomy of speech, together with the neural capacity for thought and movement. In Lieberman's iconoclastic Darwinian view, the human language ability is the confluence of a succession of separate evolutionary developments, jury-rigged by natural selection to work together for an evolutionarily unique ability.
This book investigates the nature of human language and its importance for the study of the mind. In particular, it examines current work on the biology of language. Lyle Jenkins reviews the evidence that language is best characterized by a generative grammar of the kind introduced by Noam Chomsky in the 1950s and developed in various directions since that time. He then discusses research into the development of language which tries to capture both the underlying universality of human language, as well as the diversity found in individual languages (Universal Grammar). Finally, he discusses a variety of approaches to language design and the evolution of language. An important theme is the integration of biolinguistics into the natural sciences - the 'unification problem'. Jenkins also answers criticisms of the biolinguistic approach from a number of other perspectives, including evolutionary psychology, cognitive science, connectionism and ape language research, among others.
This book examines the relationship between human language and biology in order to determine whether the biological foundations of language can offer deep insights into the nature and form of language and linguistic cognition. Challenging the assumption in biolinguistics and neurolinguistics that natural language and linguistic cognition can be reconciled with neurobiology, the author argues that reducing representation to cognitive systems and cognitive systems to neural populations is reductive, leading to inferences about the cognitive basis of linguistic performance based on assuming (false) dependencies. Instead, he finds that biological implementations of cognitive rather than the biological structures themselves, are the driver behind linguistic structures. In particular, this book argues that the biological roots of language are useful only for an understanding of the emergence of linguistic capacity as a whole, but ultimately irrelevant to understanding the character of language. Offering an antidote to the current thinking embracing ‘biologism’ in linguistic sciences, it will be of interest to readers in linguistics, the cognitive and brain sciences, and the points at which these disciplines converge with the computer sciences.
This volume brings together 15 papers on the evolution and origin of language. The authors approach the subject from various angles, exploring biological, cultural, psychological and linguistic factors. A wide variety of topics is discussed, such as animal communication, language acquisition, the essentialist-evolutionist debate, and genetic classification.
Leading scholars present critical accounts of every aspect of the field, including work in animal behaviour; anatomy, genetics and neurology; the prehistory of language; the development of our uniquely linguistic species; and language creation, transmission, and change.
This is Volume XXI in a series of twenty-one on the Cognitive Psychology. Orignally published in 1936, this is a study on the introduction to Dynamic Philology.
The present volume offers a collection of essays covering a broad range of areas where currently a rapprochement between linguistics and biology is actively being sought. Following a certain tradition, we call this attempt at a synthesis “biolinguistics.” The nine chapters (grouped into three parts: Language and Cognition, Language and the Brain, and Language and the Species) offer a comprehensive overview of issues at the forefront of biolinguistic research, such as language structure; language development; linguistic change and variation; language disorders and language processing; the cognitive, neural and genetic basis of linguistic knowledge; or the evolution of the Faculty of Language. Each contribution highlights exciting prospects for the field, but they also point to significant obstacles along the way. The main conclusion is that the age of theoretical exclusivity in Linguistics, much like the age of theoretical specificity, will have to end if interdisciplinarity is to reign and if biolinguistics is to flourish.
By becoming familiar with Latin and Greek word roots, students gain a deeper understanding of scientific terms. Biology Connects to Language helps students identify and define Latin and Greek word roots for scientific terms together with other words with the same word root. Each chapter contains several activities that aid student learning and retention including "Mix and Match" and a "Test Yourself" section. This workbook can be used with the Focus On Middle School Biology Student Textbook, or as a stand-alone vocabulary building resource.
An eminent geneticist examines the Darwinian theory of evolution, analyzes the hereditary differences that produce new species, and suggests changes in evolutionary theory based on his biological research