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Calculating the diversity of biological or cultural classes is a fundamental way of describing, analyzing, and understanding the world around us. Understanding archaeological diversity is key to understanding human culture in the past. Archaeologists have long experienced a tenuous relationship with statistics; however, the regular integration of diversity measures and concepts into archaeological practice is becoming increasingly important. This volume includes chapters that cover a wide range of archaeological applications of diversity measures. Featuring studies of archaeological diversity ranging from the data-driven to the theoretical, from the Paleolithic to the Historic periods, authors illustrate the range of data sets to which diversity measures can be applied, as well as offer new methods to examine archaeological diversity.
A major global climate event called the Younger Dryas dramatically affected local environments and human populations at the end of the Pleistocene. This volume is the first book in fifteen years to comprehensively address key questions regarding the extent of this event and how hunter-gatherer populations adapted behaviorally and technologically in the face of major climatic change. An integrated set of theoretical articles and important case studies, written by well-known archaeologists, provide an excellent reference for researchers studying the end of the Pleistocene, as well as those studying hunter-gatherers and their response to climate change.
A major global climate event called the Younger Dryas dramatically affected local environments and human populations at the end of the Pleistocene. This volume is the first book in fifteen years to comprehensively address key questions regarding the extent of this event and how hunter-gatherer populations adapted behaviorally and technologically in the face of major climatic change. An integrated set of theoretical articles and important case studies, written by well-known archaeologists, provide an excellent reference for researchers studying the end of the Pleistocene, as well as those studying hunter-gatherers and their response to climate change.
Scholars from a variety of disciplines consider cases of convergence in lithic technology, when functional or developmental constraints result in similar forms in independent lineages. Hominins began using stone tools at least 2.6 million years ago, perhaps even 3.4 million years ago. Given the nearly ubiquitous use of stone tools by humans and their ancestors, the study of lithic technology offers an important line of inquiry into questions of evolution and behavior. This book examines convergence in stone tool-making, cases in which functional or developmental constraints result in similar forms in independent lineages. Identifying examples of convergence, and distinguishing convergence from divergence, refutes hypotheses that suggest physical or cultural connection between far-flung prehistoric toolmakers. Employing phylogenetic analysis and stone-tool replication, the contributors show that similarity of tools can be caused by such common constraints as the fracture properties of stone or adaptive challenges rather than such unlikely phenomena as migration of toolmakers over an Arctic ice shelf. Contributors R. Alexander Bentley, Briggs Buchanan, Marcelo Cardillo, Mathieu Charbonneau, Judith Charlin, Chris Clarkson, Loren G. Davis, Metin I. Eren, Peter Hiscock, Thomas A. Jennings, Steven L. Kuhn, Daniel E. Lieberman, George R. McGhee, Alex Mackay, Michael J. O'Brien, Charlotte D. Pevny, Ceri Shipton, Ashley M. Smallwood, Heather Smith, Jayne Wilkins, Samuel C. Willis, Nicolas Zayns
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