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How does the practice of archaeology benefit from faunal analysis? Michael Glassow and Terry Joslin's Exploring Methods of Faunal Analysis: Insights from California Archaeology addresses this question. Contributors to this volume demonstrate how faunal remains can be used to elucidate subsistence, settlement, technological systems, economic exchange, social organization, adaptation to variability in resource distribution and abundance, and the impacts of historic land use. The sheer prevalence of faunal remains in California archaeological sites means that most archaeologists working in the state inevitably must give these resources their close attention-and yet methodological challenges remain. The chapters in this thoughtfully edited volume tackle these challenges, providing strategies for identifying and mitigating sample bias and recommending quantitative techniques borrowed from a variety of disciplines. The volume also presents examples that illustrate the use of faunal data to test hypotheses derived from microeconomic theory, the applicability of bone and shell chemistry to faunal analysis, and the relevance of faunal data to addressing issues in biology.
How does the practice of archaeology benefit from faunal analysis? Michael Glassow and Terry Joslin's Exploring Methods of Faunal Analysis: Insights from California Archaeology addresses this question. Contributors to this volume demonstrate how faunal remains can be used to elucidate subsistence, settlement, technological systems, economic exchange, social organization, adaptation to variability in resource distribution and abundance, and the impacts of historic land use. The sheer prevalence of faunal remains in California archaeological sites means that most archaeologists working in the state inevitably must give these resources their close attention-and yet methodological challenges remain. The chapters in this thoughtfully edited volume tackle these challenges, providing strategies for identifying and mitigating sample bias and recommending quantitative techniques borrowed from a variety of disciplines. The volume also presents examples that illustrate the use of faunal data to test hypotheses derived from microeconomic theory, the applicability of bone and shell chemistry to faunal analysis, and the relevance of faunal data to addressing issues in biology.
In a dynamic near half-century career of insight, engagement, and instruction, Kent G. Lightfoot transformed North American archaeology through his innovative ideas, robust collaborations, thoughtful field projects, and mentoring of numerous students. Authors emphasize the multifarious ways Lightfoot impacted—and continues to impact—approaches to archaeological inquiry, anthropological engagement, indigenous issues, and professionalism. Four primary themes include: negotiations of intercultural entanglements in pluralistic settings; transformations of temporal and spatial archaeological dimensions, as well as theoretical and methodological innovations; engagement with contemporary people and issues; and leading by example with honor, humor, and humility. These reflect the remarkable depth, breadth, and growth in Lightfoot’s career, despite his unwavering stylistic devotion to Hawaiian shirts.
Field Methods in Archaeology has been the leading source for instructors and students in archaeology courses and field schools for 60 years since it was first authored in 1949 by the legendary Robert Heizer. Left Coast has arranged to put the most recent Seventh Edition back into print after a brief hiatus, making this classic textbook again available to the next generation of archaeology students. This comprehensive guide provides an authoritative overview of the variety of methods used in field archaeology, from research design, to survey and excavation strategies, to conservation of artifacts and record-keeping. Authored by three leading archaeologists, with specialized contributions by several other experts, this volume deals with current issues such as cultural resource management, relations with indigenous peoples, and database management as well as standard methods of archaeological data collection and analysis.
This fifth volume presents the results of faunal analysis from the Arroyo Hondo excavations, covering the topics of prehistoric vegetation and climate; the importance of various animals in the diet; seasonal hunting patterns; methods of butchering, skinning and cooking; the prehistoric hunting territory; the raising of domesticated dogs and turkeys; and trade in animals and animal products.
Offering a field-tested analytic method for identifying faunal remains, along with helpful references, images, and examples of the most commonly encountered North American species, Identifying and Interpreting Animal Bones: A Manual provides an important new reference for students, avocational archaeologists, and even naturalists and wildlife enthusiasts. Using the basic principles outlined here, the bones of any vertebrate animal, including humans, can be identified and their relevance to common research questions can be better understood. Because the interpretation of archaeological sites depends heavily on the analysis of surrounding materials—soils, artifacts, and floral and faunal remains—it is important that non-human remains be correctly distinguished from human bones, that distinctions between domesticated and wild or feral animals be made correctly, and that evidence of the reasons for faunal remains in the site be recognized. But the ability to identify and analyze animal bones is a skill that is not easy to learn from a traditional textbook. In Identifying and Interpreting Animal Bones, veteran archaeologist and educator April Beisaw guides readers through the stages of identification and analysis with sample images and data, also illustrating how specialists make analytical decisions that allow for the identification of the smallest fragments of bone. Extensive additional illustrative material, from the author’s own collected assemblages and from those in the Archaeological Analytical Research Facility at Binghamton University in New York, are also available in the book’s online supplement. There, readers can view and interact with images to further understanding of the principles explained in the text.
Historical archaeology has made great strides during the last two decades. Early archaeological reports were dominated by descriptions of features and artifacts, while research on artifacts was concentrated on studies of topology, technology, and chronology. Site reports from the 1960s and 1970s commonly expressed faith in the potential artifacts had for aiding in the identifying socioeconomic status differences and for understanding the relationships be tween the social classes in terms of their material culture. An emphasis was placed on the presence or absence of porcelain or teaware as an indication of social status. These were typical features in site reports written just a few years ago. During this same period, advances were being made in the study of food bone as archaeologists moved away from bone counts to minimal animal counts and then on to the costs of various cuts of meat. Within the last five years our ability to address questions of the rela tionship between material culture and socioeconomic status has greatly ex panded. The essays in this volume present efforts toward measuring expendi ture and consumption patterns represented by commonly recovered artifacts and food bone. These patterns of consumption are examined in conjunction with evidence from documentary sources that provide information on occupa tions, wealth levels, and ethnic affiliations of those that did the consuming. One of the refreshing aspects of these papers is that the authors are not afraid of documents, and their use of them is not limited to a role of confirmation.
What are the origins of agriculture? In what ways have technological advances related to food affected human development? How have food and foodways been used to create identity, communicate meaning, and organize society? In this highly readable, illustrated volume, archaeologists and other scholars from across the globe explore these questions and more. The Archaeology of Food offers more than 250 entries spanning geographic and temporal contexts and features recent discoveries alongside the results of decades of research. The contributors provide overviews of current knowledge and theoretical perspectives, raise key questions, and delve into myriad scientific, archaeological, and material analyses to add depth to our understanding of food. The encyclopedia serves as a reference for scholars and students in archaeology, food studies, and related disciplines, as well as fascinating reading for culinary historians, food writers, and food and archaeology enthusiasts.
Over the past decades, large amounts of data about carabids have been collected in the Netherlands, initially for the purpose of creating distribution maps for the country. In addition to information from collections and faunistic publications, a significant amount of data came from ecological studies using pitfall traps. Because of the rich tradition of carabidological research in the Netherlands, an exceptionally large database of these pitfall data is available. The database is a mix of approximately 1,500 short-term samples and circa 4,400 so-called 'year-samples', for which pitfalls were functional during the whole activity period of ground beetles in spring and autumn. These year-samples came from 2,850 sites, covering the period of 1953-2018, and represent all habitats on the Dutch landscape. These data offer an unusual view of the presence and activity of this common insect family. The data gathered from pitfall trapping is summarised and provides a fresh integrated perspective about the Dutch ground beetle fauna. The characteristic species composition of 17 habitat groups is described in detail. Over 320 species present in the database have been classified into six main groups, according to their patterns of habitat use. Both the classification of habitats and associated species have been tested and used in various analyses in the book. Two chapters give special attention to changes in the Dutch fauna over the past 66 years by means of extensive trend analysis and relate this understanding to nature conservation. The book provides an extension and update for Turin's (2000) atlas. The Dutch carabid fauna is discussed considering relevant literature but uses predominantly European studies to put the faunal patterns in broader context. This book presents the story of Dutch ground beetles and illustrates the contribution of pitfall trapping to our understanding of the ecology of this fascinating and unusually well-studied group of beetles.
Policy makers and resource managers must make decisions that affect the resilience and sustainability of natural resources, including biodiversity and ecosystem services. However, these decisions are often based on evidence or theory derived from highly altered systems and over short time periods of low-magnitude environmental and climatic change. Because natural systems change and evolve across multiple timescales from instantaneous to millennial, long-term understanding of how past life has responded to perturbations can inform resource managers. By using these natural laboratories of the past, conservation paleobiology and paleoecology provide the framework necessary to anticipate and plan for future changes. The goal of this Research Topic is to heighten awareness among conservation and restoration practitioners to the value and applications of long-term perspectives provided by conservation paleobiology and paleoecology. Most conservation studies focus on systems already impacted by anthropogenic change; these studies would benefit from paleontological data through expanded temporal scales, identification of baselines, and an understanding of how organisms have responded to past changes. However, resource management decisions rarely include input from paleontologists, and paleoecological research is rarely incorporated into conservation decision-making. We seek to bridge this research-implementation gap by highlighting the application of paleoecological data to issues such as biodiversity dynamics, extinction risks, and resilience to perturbations, among other topics. We hope to foster new cross-disciplinary synergies by encouraging conservation scientists and managers to collaborate with paleontologists to improve conservation decision-making and by increasing awareness among paleontologists to the needs of the resource management community. This Research Topic will provide a forum for both the paleontological and resource management communities to exchange ideas that will enhance restoration and conservation decision-making. We invite papers on conceptual advances, reviews of specific topics to guide efforts in research or practice, case studies of successful applications, articles describing datasets with applied value, and perspective papers summarizing a body of paleontological research with relevance to the resource management community. Topics can include but are not limited to: • Responses of species, communities, and ecosystems to perturbations • Strategies to achieve the direct integration of paleobiology and paleoecology into on-ground resource management • Identifying baselines and reference conditions • Increasing the robustness of forecasting models through the incorporation of paleontological data • Identifying key species, interactions, and other phenomena as indicators of impending change • New methodologies, analytical tools, and/or proxies in the application of paleontological data to conservation and restoration practice Lynn Wingard, Damien Fordham, and Greg Dietl have no conflicts of interest. Chris Schneider has a potential conflict of interest where manuscripts pertain to stakeholders in the petroleum industry, as she is an independent contractor in the Alberta Oil Sands mining area.