Journal of Archaeological Science 39/2

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Journal of Archaeological Science 39/2

Auteur--

Editor--

Jaar2012

PublicatietypeAflevering

SerieJournal of Archaeological Science

Volume39/2

Subtitel--

Pagina’s205-572

UitgeverElsevier

PlaatsAmsterdam

ISBN--

Citation key--

Trefwoorden--

Plaatsgegevens

Exemplaar87334 ReknummerT-13-2-e

Inhoud

Experimental study of cut marks made with rocks unmodified by human flaking and its bearing on claims of ~3.4-million-year-old butchery evidence from Dikika, Ethiopia 205-214
Domínguez-Rodrigo M., Pickering T.R. & Bunn H.T.

Determining the habitats of mollusk collection at the Sapelo Island shell ring complex, Georgia, USA using oxygen isotope sclerochronology 215-228
Fred C., Andrus T. & Thompson V.D.

Neolithic Hedgehogs (Erinaceus europaeus) from the Island of Gotland show early contacts with the Swedish mainland 229-233
Fraser M., Sten S. & Götherström A.

Using provenance data to assess archaeological landscapes: an example from Calabria, Italy 234-246
Michelaki K., Hancock R.G.V. & Braun G.V.

Results . Test-tiles , p. 242
Results . X-ray diffraction (XRD) , p. 242
Results . Optical microscopy , p. 242
Results . Instrumental neutron activation analysis (INAA) , p. 242

From the modern to the archaeological: starch grains from millets and their wild relatives in China 247-254
Yang X., Zhang J., Perry L., Ma Z., Wan Z., Li M., Diao X. & Lu H.

Results . Foxtail grasses , pp. 251-252
Results . Foxtail millet , p. 252
Results . Broomcorn millet , p. 252
Results . Wild relative of broomcorn millet , p. 252
Results . Ancient starch grains , p. 252
Discussion . Family-level identification , p. 252
Discussion . Genus-level identification , pp. 252-253
Discussion . Species-level identification , p. 253
Discussion . Environmental context and gene control , p. 253
Discussion . Comparison between ancient and modern starch grains , p. 254

Iron and bronze production in Iron Age IIA Philistia: new evidence from Tell es-Safi/Gath, Israel 255-267
Eliyahu-Behar A., Yahalom-Mack N., Shilstein S., Zukerman A., Shafer-Elliott C., Maeir A.M., Boaretto E., Finkelstein I. & Weiner S.

Materials and methods . Metallurgy-oriented excavation , pp. 257-258
Materials and methods . X-ray fluorescence (XRF) , p. 258
Materials and methods . Fourier transforms infrared spectroscopy (FTIR) , p. 258
Materials and methods . Microscopy , p. 258
Materials and methods . X-ray powder diffractometry (XRD) , p. 258
Materials and methods . Radiocarbon dating , p. 258
Results . Sediments analyses (Copper and iron in the sediments, Mineralogical composition and temperature estimation) , pp. 258-261
Results . Tuyères and crucible , p. 261
Results . Iron slag , pp. 261-262
Results . Radiocarbon dating , p. 262

Dating Aboriginal stone-walled fishtraps at Lake Condah, southeast Australia 268-286
McNiven I.J., Crouch J., Richards T., Dolby N. & Jacobsen G.

Dating freshwater fishtraps . USA , p. 269
Dating freshwater fishtraps . Southern Africa , p. 269
Dating freshwater fishtraps . Australia (including western Victoria) , pp. 269-271
Muldoons Trap Complex excavations , pp. 271-281
Discussion . Dating initial channel excavation to c. 6600 cal BP , p. 282
Discussion . Dating channel wall construction to c. 600-800 cal BP , p. 282
Discussion . Presence of a hiatus , pp. 282-283
Discussion . Implications for the history of the Aboriginal fishery in western Victoria , pp. 283-284

A multi-technique characterization and provenance study of the pigments used in San rock art, South Africa 287-294
Bonneau A., Pearce D.G. & Pollard A.M.

Results and discussion . Non-anthropogenic deposits , pp. 289-290
Results and discussion . Black pigments , pp. 290-291
Results and discussion . Red pigments , pp. 291-293

Molluscan foraging efficiency and patterns of mobility amongst foraging agriculturalists: a case study from northern New Zealand 295-307
Allen M.S.

Migration and Viking Dublin: paleomobility and paleodiet through isotopic analyses 308-320
Knudson K.J., O'Donnabhain B., Carver C., Cleland R. & Price T.D.

Paleomobility and paleodiet through biogeochemistry , p. 309
Biogeochemical signatures in Northern Europe . Radiogenic strontium isotope signatures in Northern Europe , pp. 309-311
Biogeochemical signatures in Northern Europe . Bioavailable strontium sources in Viking Dublin , p. 311
Biogeochemical signatures in Northern Europe . Oxygen isotope signatures from Northern Europe , p. 311
Biogeochemical signatures in Northern Europe . Carbon and nitrogen isotope signatures from Northern Europe , pp. 311-312
Biogeochemical signatures in Northern Europe . Trace element concentration data from Northern Europe , p. 312
The archeological human remains from Viking Dublin , pp. 312-313
Interpretations of paleomobility and paleodiet in Viking Dublin . Diagenetic contamination , pp. 315-316
Interpretations of paleomobility and paleodiet in Viking Dublin . Paleomobility , pp. 316-317
Interpretations of paleomobility and paleodiet in Viking Dublin . Paleodiet , p. 317

Geomorphological setting and Native American acquisition of buff-firing ceramic clays in the Lower and Middle Gila River Valley, Arizona 321-331
Beck M.E., Onken J., Eiselt B.S., Darling J.A. & Ferguson J.R.

Methods . Analytical techniques (Oxidation analysis, Neutron activation analysis (NAA)) , p. 325

Red deer antler technology and early modern humans in Southeast Europe: an experimental study 332-346
Tejero J.-M., Christensen M. & Bodu P.

The experimental program . Archaeological context (The Iberian Aurignacian, Antler materials: blanks, objects and manufacturing byproducts, The lithic material) , pp. 335-336
The experimental program . Other experimental reconstructions , pp. 336-337
The experimental program . Experimental protocol , pp. 337-338
The experimental program . The experiments , pp. 339-342
The experimental program . Results (Blanks with a non-random morphology, Manufacture of blanks largely without waste) , pp. 342-344
The experimental program . Significance of the experimental findings to broader archaeological interpretations , pp. 344-345

Simulating archaeologists? Using agent-based modelling to improve battlefield excavations 347-356
Campillo X.R., Cela J.M. & Hernàndez Cardona F.X.

Introduction: the excavation and interpretation of a battle , pp. 347-349

Diversity of cultivars and other plant resources used at habitation sites in the Llanos de Mojos, Beni, Bolivia: evidence from macrobotanical remains, starch grains, and phytoliths 357-370
Dickau R., Bruno M.C., Iriarte J., Prümers H., Betancourt C.J., Holst I. & Mayle F.E.

Potash : a key raw material of glass batch for Bohemian glasses from 14th-17th centuries? 371-380
Cílová Z. & Woitsch J.

Seasoned or green? Radial cracks analysis as a method for identifying the use of green wood as fuel in archaeological charcoal 381-388
Théry-Parisot I. & Henry A.

Material and methods . Carbonisation procedure , p. 383
Results . Muffle furnace samples , pp. 383-384
Results . Open fireplace combustions , p. 384

Aspects of ancient Greek trade re-evaluated with amphora DNA evidence 389-398
Foley B.P., Hansson M.C., Kourkoumelis D.P. & Theodoulou T.A.

Persistence of the cultural landscape in Campania (Southern Italy) before the AD 472 Vesuvius eruption: archaeoenvironmental data 399-406
Allevato E., Buonincontri M., Vairo M., Pecci A., Cau M.A., Yoneda M., De Simone G.F., Aoyagi M., Angelelli C., Matsuyama S., Takeuchi K. & et al.

Results . Charcoal and wood analysis , pp. 401-402
Discussion . Woodlands , pp. 403-404
Discussion . The cultivated landscape , pp. 404-405
Discussion . Vineyards and wine production: chemical and archaeobotanical data , p. 405

Prospects and problems in the use of hyperspectral imagery for archaeological remote sensing: a case study from the Faynan copper mining district, Jordan 407-420
Savage S.H., Levy T.E. & Jones I.W.

Archaeological research in the Faynan district , pp. 408-410
Geology of the Faynan district , pp. 410-411
The Earth Observer 1 (EO-1) satellite and the Hyperion instrument , p. 411
Atmospheric correction of Hyperion imagery , pp. 411-412
Principal components analysis and the search for ore processing sites , pp. 412-413
A similarity matrix for Khirbat-en-Nahas Slag Mounds , p. 414
Spectral mixture analysis , pp. 414-417

A deciduous and permanent dental wear stage system for assessing the age of Trachypithecus sp. specimens (Colobinae, Primates) 421-427
Ingicco T., Moigne A.-M. & Gommery D.

Directional analysis of surface artefact distributions: a case study from the Murghab Delta, Turkmenistan 428-439
Markofsky S. & Bevan A.

Data analysis and results . Variography , pp. 433-435
Data analysis and results . Angular wavelet analysis , pp. 436-438

Neotaphonomic measures of carnivore serial predation at Ngamo Pan as an analog for interpreting open-air faunal assemblages 440-457
Hutson J.M.

Methods . Survey methodology , pp. 441-442
Methods . Faunal analysis methodology (Taxonomic identification, Species abundance and skeletal element identification, Mortality data, Bone surface modification, Bone breakage) , pp. 442-443
Results . Species abundance , pp. 443-444
Results . Mortality profiles , p. 444
Results . Skeletal element abundances , pp. 444-446
Results . Bone surface modification , pp. 446-448
Results . Bone breakage patterns , p. 448
Results . Spatial distribution , pp. 448-449
Results . Summary of taphonomic characteristics of serial predation at Ngamo Pan , p. 449
Discussion . Implications for interpreting middle stone age open-air faunal accumulations , pp. 453-454

Modeling Late Copper Age demographics on the Great Hungarian Plain using ceramic petrography 458-466
Parsons T.A.

Archaeological background . Baden and the "culture concept" , pp. 459-460
Archaeological background . A tale of two models: migration versus economy , p. 460
Archaeological background . The migration hypothesis , p. 460
Archaeological background . The economic hypothesis , p. 460
Results . Late Copper Age variability in the Körös region , p. 462
Results . Diachronic variability in the Körös region , pp. 462-463
Results . Long-term trends in Körös region ceramic compositional variability , p. 463
Discussion and conclusions . Discussion: implications of the results for modeling the Late Copper Age , p. 464

Consequences of conquest? The analysis and interpretation of subadult trauma at Puruchuco-Huaquerones, Peru 467-478
Gaither C.M. & Murphy M.S.

Spanish conquest of the Inca Empire, AD 1532 , pp. 468-469
Materials and methods . Methods of osteological analysis , p. 470
Materials and methods . Traumatic injuries in subadults , pp. 470-471
Discussion and conclusion: the impact of conquest , pp. 473-476

Provisioning Inka feasts at Tiwanaku, Bolivia: the geographic origins of camelids in the Pumapunku complex 479-491
Knudson K.J., Gardella K.R. & Yaeger J.

Feasting and political integration in past empires , pp. 479-480
Feasting and political integration in the Inka Empire of South America , pp. 480-481
Paleomobility and paleodiet through biogeochemistry: an introduction . Radiogenic strontium isotope analysis , p. 481
Paleomobility and paleodiet through biogeochemistry: an introduction . Stable oxygen isotope analysis , p. 481
Paleomobility and paleodiet through biogeochemistry: an introduction . Stable carbon isotope analysis , p. 481
Expected strontium, oxygen, and carbon isotopic signatures in the Andes . Bedrock geology and radiogenic strontium isotope signatures , pp. 481-482
Expected strontium, oxygen, and carbon isotopic signatures in the Andes . Bioavailable strontium isotope signatures in the Inka Empire , p. 482
Expected strontium, oxygen, and carbon isotopic signatures in the Andes . Environmental variability and expected stable oxygen isotope values , p. 482
Expected strontium, oxygen, and carbon isotopic signatures in the Andes . Paleodiet and expected carbon oxygen isotope values , pp. 482-483
Discussion: geographic origins of camelids consumed at Tiwanaku . Identification of "local" and "non-local" radiogenic strontium isotope signatures , pp. 484-485
Discussion: geographic origins of camelids consumed at Tiwanaku . Geographic origins of Tiwanaku camelids using radiogenic strontium isotope signatures , pp. 485-486
Discussion: geographic origins of camelids consumed at Tiwanaku . Geographic origins of Tiwanaku camelids using stable oxygen isotope signatures , p. 486
Discussion: geographic origins of camelids consumed at Tiwanaku . Paleodiet and geographic origins of Tiwanaku camelids , pp. 486-487
Discussion: geographic origins of camelids consumed at Tiwanaku . Provisioning Inka feasts and the geographic origins of Tiwanaku camelids , pp. 487-488

Uranium-series age estimates for rock art in southwest China 492-499
Taçon P.S.C., Aubert M., Gang L., Decong Y., Hong L., May S.K., Fallon S., Xueping J., Curnoe D. & Herries A.I.R.

Materials and methods . Uranium-series dating , pp. 494-495
Materials and methods . Radiocarbon dating , p. 495
Results and discussion . U-series and AMS radiocarbon , pp. 495-496

Can morphospace shed light on cave bear spatial-temporal variation? Population dynamics of Ursus spelaeus from Romualdova pecina and Vindija, (Croatia) 500-510
Seetah T.K., Cardini A. & Miracle P.T.

Materials and methods . Specimens and landmark configuration , pp. 502-503
Materials and methods . Geometric morphometrics , p. 503
Materials and methods . Statistical tests and visualisation , pp. 503-504
Results . Size through space and time , p. 504
Results . Shape through space and time , pp. 504-505
Results . Classificatory power , p. 505
Discussion . Population discrimination over space and through time , pp. 505-507

Isotopes as palaeoeconomic indicators: new applications in archaeoentomology 511-520
King G.A.

Results . Carbon isotope results , pp. 512-513
Results . Nitrogen isotope results , pp. 513-514
Results . Hydrogen isotope results , pp. 514-515
Discussion . West stow: a modern case study , pp. 515-517
Discussion . Neolithic Germany: evidence of palaeoeconomic activities , pp. 517-518

Method for photogrammetric surveying of archaeological sites with light aerial platforms 521-530
Mozas-Calvache A.T., Pérez-García J.L., Cardenal-Escarcena F.J., Mata-Castro E. & Delgado-García J.

Application . Photogrammetric flight , pp. 527-528
Application . Photogrammetric processing , pp. 528-529

Understanding the rates of expansion of the farming system in Europe 531-546
Bocquet-Appel J.-P., Naji S., Vander Linden M. & Kozlowski J.

Materials and methods . Geographical variables , p. 533
Materials and methods . Ceramic culture areas , p. 533
Materials and methods . Mesolithic population variable , pp. 533-534
Statistical analysis , pp. 534-536
Total European expansion , pp. 536-538
Similarities in expansion patterns . Agricultural system, rate of expansion and demographic density , pp. 538-540
Similarities in expansion patterns . Similarities between expansion patterns , pp. 540-541

Archaeological microgravimetric prospection inside don church (Valencia, Spain) 547-554
Padín J., Martín A. & Anquela A.B.

Tracking changes in bone fracture morphology over time: environment, taphonomy, and the archaeological record 555-559
Karr L.P. & Outram A.K.

Evaluating sources of variation in the identification of linear hypoplastic defects of enamel: a new quantified method 560-565
Hassett B.R.

Multiple traumatic dental injuries: a case report in a young individual from the Samnitic necropolis of Opi Val Fondillo (6-5 century BC; Central Italy) 566-572
Viciano J., López-Lázaro S., Cesana D.T., D'Anastasio R. & Capasso L.

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