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Field Methods in Archaeology PDF

449 Pages·2009·28.057 MB·English
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Field Methods in Archaeoloj SEVENTH EDITION Thomas R. Hester Harry J. Shafer Kenneth L. Feder S3 Routledge |^ Taylor & Francis Group LONDON AND NEW YORK First published 2009 by Left Coast Press, Inc. Published 2016 by Routledge 2 Park Square, Milton Park, Abingdon, Oxon OX14 4RN 711 Third Avenue, New York, NY 10017, USA Routledge is an imprint of the Taylor & Francis Group, an informa business Copyright © 2009 Taylor & Francis Previously published by Mayfield Publishers/ McGraw-Hill under ISBN 1-55934-799-6 All rights reserved. No part of this book may be reprinted or reproduced or utilised in any form or by any electronic, mechanical, or other means, now known or hereafter invented, including photocopying and recording, or in any information storage or retrieval system, without permission in writing from the publishers. Notice: Product or corporate names may be trademarks or registered trademarks, and are used only for identification and explanation without intent to infringe. Library of Congress Cataloguing-in-Publication Data: Hester, Thomas R. 1946- Field methods in archaeology / Thomas R. Hester, Harry J. Shafer, Kenneth L. Feder ~ 7th ed. p. cm. Includes bibliography, references and index. ISBN 978-1-59874-428-6 1. Archaeology ~ Field work. I. Shafer, Harry J. II Feder, Kenneth L. III. Title CC76.H47 1997 96-27313 930.1'-dc20CIP ISBN 978-1-59874-428-6 paperback C O N T E N TS Preface ix Meaning 19 Guide to Further Reading 20 1 Introduction Thomas R. Hester 1 Contemporary Issues 1 3 Research Design and Sampling The Burgeoning Literature 2 Techniques Harry J. Shafer 21 Archaeology and Archaeologists 4 Research Design 21 Guide to Further Reading 4 Formulation 22 Implementation 23 Data Acquisition 23 2 Goals of Archaeological Investigation Data Processing 24 Harry J. Shafer 5 Data Analysis 24 Kinds of Archaeology 5 Interpretation of Data 24 Archaeology of the Classical World 6 Dissemination of the Results 24 Prehistoric Archaeology 7 Sampling Methods 25 Historical Archaeology 7 Nonprobabilistic Sampling 25 Industrial Archaeology 8 Probabilistic Sampling 26 Nautical or Underwater Archaeology Cluster Sampling 27 9 Nested Sampling 27 Anthropological Archaeology: A Chronology Selecting a Random Sampling of Change 9 Method 28 Cultural-historical Era 9 Simple Random Sampling 28 New or Processual Archaeology Era 10 Systematic Random Sampling 29 Postprocessual Era 15 Systematic Unaligned Sampling 31 Cultural Resource Management and Stratified Random Sampling 31 Salvage Archaeology 26 Sample Fraction and Sample Size 33 Native American Graves Protection and Repatriation Act of 1990 18 Sample Units 34 Goals of Archaeology Today 18 Surface Collecting 35 Form 19 Excavation Sampling 37 Function 19 Sampling Realities 39 Process 19 Guide to Further Reading 40 iii iv CONTENTS 4 Site Survey Kenneth L. Feder 41 Approaches to Excavation 73 Goals of Site Survey 42 Site Excavation Techniques 77 Survey Phases 43 Trenching 77 Basic Considerations in Site Survey 44 Strip and Quartering 79 Artifacts 44 Architectural-unit Excavation 79 Features or Facilities 44 Area Excavation 80 Anthropic Soil Horizons 44 Stripping 85 Chemical Anomalies 44 Excavation Methods 87 Instrument Anomalies 45 Vertical-face Methods 87 Factors in Survey Design 46 Unit-level Method 88 Visibility 46 Natural-stratigraphic-level Method 90 Obtrusiveness 47 Screening Excavated Deposits 93 Accessibility 49 Excavating a "Typical" Unit 98 Background Research 50 Important Considerations 98 Literature Review 50 The Excavation Itself 99 Local Informants 50 Excavating Special Site Types 101 History and Ethnohistory 52 Water-saturated Sites 102 Environmental Variables 52 Caves and Rockshelters 102 Field Methods in Site Survey 53 Structural Remains 104 Pedestrian Survey 54 Backdirt and Backfilling 109 Subsurface Survey 56 Some Hazards in Field work 110 Comparison of Methods 57 Guide to Further Reading 112 Test-pitting Effectiveness 58 Chemical Survey 59 6 Data Preservation: Recording and Remote Sensing: Instrument Anomaly Survey 59 Collecting Kenneth L. Feder 113 Preserving Context Through Record Passive Procedures 60 Keeping 114 Active Procedures 61 Measuring Provenience 114 Remote Sensing: Aerial Survey 61 Horizontal Location 116 Practical Considerations 63 Vertical Location and Extent 120 Guide to Further Reading 68 Recording Stratigraphy 124 Associating Records with Objects 127 Computerized Record Keeping 131 5 Methods of Excavation Thomas R. Collection and Protection of Certain Artifacts 133 Hester 69 Lithics 134 Tools and Equipment for Field Archaeology 69 Ceramics 135 Large Tools 70 Collection and Analysis of Soil Samples 136 Hand Tools 70 Rock Art Recording 137 Other Handy Implements 72 Guide to Further Reading 142 CONTENTS V 7 The Handling and Conservation of Field Care of Equipment 168 Artifacts in the Field Thomas R. Subject Matter 169 Hester 143 General Site Views 170 General Field Procedures 144 Features and Burials 170 Materials to Use and to Avoid 146 Excavation Methods and Techniques Field Techniques for Specific Artifact 172 Types 148 Soil Profiles 172 Bone 148 Petroglyphs and Pictographs 173 Antler 150 Artifacts 174 Shell 150 Negative Storage 175 Stone 150 Field Photography: A Recap 175 Textiles 151 Guide to Further Reading 176 Metal 151 Wood 153 9 Archaeological Mapping, Site Grids, Ceramics 154 and Surveying L. Kyle Napton with Special Cases 155 Elizabeth Anne Greathouse 177 Imaging Techniques 178 Curation Facilities 155 Remote Sensing Imagery 178 Field Record Considerations 156 Aerial Photographs 180 Laboratory Curation Considerations 156 Terrestrial Photographs and Photogrammetry 180 Guide to Further Reading 158 General Map Types 180 USGS Topographic Quadrangles 181 8 Archaeological Field Photography l:250,000-scale Maps (l-x-2-degree Series) 181 Harry J. Shafer 159 l:100,000-scale Maps (30-x-60-minute Objectives of Field Photography 159 Series) 181 Photo Documentation 159 l:63,500-scale Maps (15-minute Series) Photo Illustration 160 182 General Purposes 260 l:24,000-scale Maps (7.5-minute Series) Some Basic Elements of Photography 162 182 Film Speed 162 Other USGS Map Products 182 Diaphragm Opening 163 Information Given on Topographic Quadrangles 182 Exposure Time 163 Symbols Used on Topographic Relationship Between Diaphragm Quadrangles 183 Opening and Exposure Time 163 Contour Lines on Topographic Light Intensity 163 Quadrangles 183 Camera Equipment 164 Elevations on Topographic Quadrangles Accessory Equipment 166 183 Some Suggestions for Field Photography Direction on Topographic Quadrangles 167 185 vi CONTENTS Distances on Topographic Quadrangles Box 9.9: Laying Out a Grid Using 186 the 3-4-5 Tape Method 211 Locational Reference Systems on Plane Table Method 212 Topographic Quadrangles 187 Constructing Very Large Grids 212 Geographic Coordinate System (GCS) Electronic Stake-out 212 ("Latitude and Longitude") 187 The Global Positioning System (GPS) and Universal Transverse Mercator Mapping 212 (UTM) Grid System 188 Archaeological Site Plan Maps 215 Box 9.1: Determining the UTM Grid Location of Archaeological Instruments Used in Site Plan Mapping Sites 189 215 United States Public Land Survey Plane Table and Alidade 215 System (USPLSS) (System of Transit, Theodolite, and Engineer's Rectangular Surveys) 189 Level 216 Box 9.2: Gunter's Chain 193 Comparative Merits of Plane Table State Plane Coordinate System and Alidade Versus Transits 220 (SPCS) 196 Instruments for Distance Measurement Box 9.3: Determining Site 220 Location Using the USPLSS By Stadia (Tacheometry) 220 ("Legal Location") 197 Advantages and Disadvantages of Metes-and-Bounds (MB) 197 the Stadia Method 221 Land Information Systems (LIS) 198 Electronic Distance Measuring Archaeological Site Record Maps 198 Instruments (EDMI) 221 Information and Equipment Needs 198 Box 9.10: Survey Targets, Prism Rods, and Rodpersons 222 Determining Direction 198 Radio 223 Box 9.4: Using an Orienteering Compass 200 Helpful Hints 223 Determining Distance 201 Establishing the Site Bench Mark and Datum Plane 224 Identifying the Site Reference Point 202 Instrument Height 224 Box 9.5: Measuring Slope Distance by Breaking Tape 202 Site Bench Mark and Datum Plane 224 Box 9.6: Obtaining Slope Reduction and Difference in Plotting Contour Lines 224 Elevation by Clinometer or Computer-assisted Site Mapping 225 Abney Level 203 Geographic Information Systems (GIS) 225 Drafting a Site Record Map 204 Elements of a GIS 225 Box 9.7: Using Horizontal Angles to Obtain the Position of Archaeological Applications of GIS 226 Features at Unknown Distances Computers and Electronics in Surveying and 206 Mapping 226 Site Datum Point and Site Grid 208 Cartographic Software 227 Establishing the Datum Point 208 Computer-assisted Drafting (CAD) 227 Grid Theory 209 Computer Modeling: Thematic Box 9.8: Laying Out Expedient Depictions and Virtual Reconstruction Grids and Picket Lines 210 228 Constructing a Small Grid 210 Map Production 228 CONTENTS VII Questions to Consider 229 Biological Affinity 259 Map Drafting Materials 229 Cultural Behavior 260 Data Compilation 229 Taphonomy 261 Cartographic Symbols 231 Types of Interments 262 Lettering 232 Primary Interments 262 Typing 232 Secondary Interments 262 Transfer Letters 232 Multiple Interments 262 Leroy Lettering 232 Cremations 263 Kroytype Lettering 232 Adventitious Remains 264 Computer Fonts 232 Excavating Burials 264 Shading and Pattern Transfers 232 Exposing the Burial 264 Production Considerations 233 Burial Records 268 Color Reproduction 233 Removing the Burial 270 Oversize Maps 233 Cleaning and Packing 272 Parting Thoughts 233 Osteological Analysis 274 Guide to Further Reading 234 Determination of Sex 274 Determination of Age 275 Metric Data Collection 278 10 Stratigraphy Richard E. W. Adams Paleopathology 279 and Fred Valdez, Jr. 235 Biological Affinity 280 Definition 236 Legal and Ethical Considerations 281 Principles 236 Guide to Further Reading 282 Goals 238 Techniques of Excavation, Labeling, and Recording 238 12 Excavation and Recovery of Botanical Special Situations 247 Materials from Archaeological Sites The Problem of Sampling 250 Richard G. Holloway 283 Special Aids 251 Material Types 284 Guide to Further Reading 252 Pollen 284 Sampling the Overall Pollen Rain 286 11 Excavation and Analysis of Human Sampling Archaeological Sediments 287 Remains Joseph F. Powell, D. Gentry Steele, and Michael B. Collins Sampling Artifactual Material 288 253 Phytoliths 289 Why Excavate Human Remains? 254 Wood and Charcoal 290 Research with Skeletal Populations 254 Seeds 291 Paleodemography 255 Coprolites 293 Paleopathology 256 Matrix and Fiber Analysis 295 Paleodietary analysis 257 Processing Methods 296 Skeletal Biology 259 Guide to Further Reading 297 VIII CONTENTS 13 Basic Approaches in Archaeological Electron Spin Resonance 327 Faunal Analysis Barry W. Baker, Thermoluminescence 328 Brian S. Shaffer, and D. Gentry Steele Potassium-argon Dating 329 298 Uranium-series Dating 330 Faunal Assemblage Composition 299 Fission Track Dating 330 Common Research Topics 299 Obsidian-hydration Dating 331 Data Collection 301 Archaeomagnetic Dating 332 Sampling Strategies 302 Amino Acid Dating 333 Box 13.1: Faunal Assemblage Varve Analysis 333 Background Information 303 Other Physical and Chemical Dating Field and Laboratory Treatment of Methods 334 Specimens 307 Association of Dated Historic Materials or Animal Identification 307 Identifiable Sites 334 Data Recording 308 Methods for Relative Chronology 335 Quantification 309 Stratigraphy 335 Taphonomy and Factors Affecting Faunal Chemical Analysis of Bone 336 Assemblage Composition 312 Patination and Desert Varnish Analysis Nonhuman Factors Affecting an 337 Assemblage 312 Seriation 338 Human Factors Affecting an Assemblage 313 Rate of Refuse Accumulation 339 Reconstructing Human Diet and Subsistence Cross-dating 339 313 Geological Methods 340 Estimating Seasonality 315 Concluding Observations 343 Paleoenvironmental Reconstruction 316 Guide to Further Reading 343 Ethical Considerations 316 Guide to Further Reading 317 Appendix A—Tables of Equivalents and Conversion Factors 345 14 Chronological Methods Thomas R. Hester 319 Appendix B—Sources of Supplies and Methods for Absolute (Chronometric) Services 350 Chronology 320 Dendrochronology 320 References Cited 353 Radiocarbon Analysis 321 Collecting Samples in the Field 323 List of Contributors 423 Evaluating a Radiocarbon Date 325 Calibration of Radiocarbon Dates Credits 424 325 Publishing Radiocarbon Dates 326 Index 425 Other Problems in Radiocarbon Dating 327 P R E F A CE Cluster of Olmec figurines (Offering No. 4), excavated by Robert F. Heizer at La Venta, Tabasco, Mexico, in 1955. Photo courtesy Robert F. Heizer. This book, appearing now in its seventh edition, is California, as were several revisions, until 1975 a direct lineal descendant of A Manual for Archaeo- when May field Publishing Company took its place. logical Field Methods, edited by the late Professor The book has gone through several editions, Robert F. Heizer in 1949. That initial spiral-bound with the first hardcover version published in 1958. edition had fewer than 100 pages, with chapters Major restructuring was done for the edition pub- written mainly by students, and it was designed to lished by Heizer and Graham (1967), which be- be a field manual for Central California archaeol- came the most widely used field methods book in ogy. It was published by National Press of Millbrae, North America. The sixth edition, by Hester et al. ix

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