Journal of Archaeological Science 35/1

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Journal of Archaeological Science 35/1

Auteur--

Editor--

Jaar2008

PublicatietypeAflevering

SerieJournal of Archaeological Science

Volume35/1

Subtitel--

Pagina’s212

UitgeverElsevier

PlaatsAmsterdam

ISBN--

Citation key--

Trefwoorden--

Plaatsgegevens

Exemplaar68201 ReknummerT-18-3-a

Inhoud

Taphonomic analysis of leporid remains obtained from modern Iberian lynx (Lynx pardinus) scats. 1-13
Lloveras L., Moreno-García M. & Nadal J.

Material and methods (Anatomical representation, Breakage, Digestion). , p. 2
Results (Anatomical representation, Breakage, Digestion). , pp. 3-5
Discussion (Lynx and other terrestrial carnivores, Lynx and diurnal raptors, Lynx and nocturnal raptors). , pp. 5-10

Electric and magnetic tomographic approach for the geophysical investigation of an unexplored area in the archaeological site of Pompeii (Southern Italy). 14-25
Di Fiore B. & Chianese D.

Brief historical framework. , p. 16
Data acquisition (Geoelectrics, Magnetics). , pp. 16-17
Data inversion (Geoelectrical data, Discussion of the results, Magnetic data, Near surface inversion: results, Deep inversion: results). , pp. 17-23
Discussion of the data results (Estimated covariance between resistivity and magnetic data). , pp. 23-24

Finding resolution for the Howiesons Poort through the microscope: micro-residue analysis of segments from Sibudu Cave, South Africa. 26-41
Lombard M.

The Howiesons Poort at Sibudu Cave. , pp. 27-28
Sample and method. , p. 29
Results and interpretation (Distribution patterns of micro-residues, Haft materials, Processed materials and tool function, Hafting positions, The possibility of bone hafting and other explanations). , pp. 30-35
Discussion and conclusion. , pp. 35-37
Appendix A (Plant residues (Plant tissue, Plant fibres, Starchy residue, Starch grains, Epidermal cell tissue, Woody residue, Resin or gum), Animal residues (Animal tissue, Muscle tissue, Collagen, Animal fat/marrow, Bone, Blood, Hair)). , pp. 37-39

The spread of Neolithic plant economies from the Near East to northwest Europe: a phylogenetic analysis. 42-56
Coward F., Shennan S., Colledge S., Conolly J. & Collard M.

Phylogenetic methods and Neolithic plant economies. , p. 43
Data. , pp. 43-44
Methods (for a full description, see supplementary material). , p. 44
Results (NeighbourNet, Parsimony analysis, Bayesian analysis). , pp. 44-51
Discussion. , pp. 51-54

Phytolith-rich layers from the Late Bronze and Iron Ages at Tel Dor (Israel): mode of formation and archaeological significance. 57-75
Albert R.M., Shahack-Gross R., Cabanes D., Gilboa A., Lev-Yadun S., Portillo M., Sharon I., Boaretto E. & Weiner S.

Introduction (Ethnoarchaeological background, Tel Dor). , pp. 57-59
Materials and methods (On-site analyses, Phytolith analyses, Micromorphological analysis, Analysis of dung spherulites). , pp. 59-62
Results (Structure of the phytolith layers, Amounts and types of phytoliths, Differentiating between domesticated (cereals) and wild grasses based on phytolith morphologies, Detailed analyses of the six phytolith-rich layers and... , pp. 62-72
... associated sediments, Area G locality 1 (Archaeological context, Micromorphology, Phytolith assemblages), Area G locality 2 (Archaeological context, Micromorphology, Phytolith assemblages), Area D5 (Archaeological context, Micromorphology,...
...Phytolith assemblages), Area D2, D2 locality 1 (Archaeological context, Micromorphology, Phytolith assemblages), D2 locality 2 (Archaeological context, Micromorphology, Phytolith assemblages), D2 locality 3 (Archaeological context,...
...Micromorphology, Phytolith assemblages)).
Discussion (Taphonomic implications, Cultural implications). , pp. 72-74

Effects of distance from stone source on landscape-scale variation in Oldowan artifact assemblages in the Paleo-Olduvai Basin, Tanzania. 76-86
Blumenschine R.J., Masao F.T., Tactikos J.C. & Ebert J.I.

Stone material availability and artifact assemblage density and composition. , pp. 78-79
Methods and sample (Sample characteristics, Distance-from-source estimates, Assemblage parameters used to test predictions). , pp. 79-81
Results. , pp. 81-82
Discussion. , pp. 82-85

Bronze Age upland settlement decline in southwest England: testing the climate change hypothesis. 87-98
Amesbury M.J., Charman D.J., Fyfe R.M., Langdon P.G. & West S.

Study site. , pp. 89-90
Methods. , p. 90
Results (Chronology, Testate amoebae, Peat humification, Composite record). , pp. 90-94
Discussion (Regional climatic change, Climatic context of the reave period). , pp. 94-98

Solifluction-induced modifications of archaeological levels: simulation based on experimental data from a modern periglacial slope and application to French Palaeolithic sites. 99-110
Lenoble A., Bertran P. & Lacrampe F.

Archaeological data: Croix-de-Canard, Petit-Bost and Cantalouette II sites. , pp. 100-102
The TRANSIT experiment. , pp. 102-104
Principles of the simulation. , p. 104
Dimensional analysis of variance. , pp. 104-105
Results. , pp. 105-108

Human occupation and geomorphological evolution of the Thessaloniki Plain (Greece) since mid Holocene. 111-125
Ghilardi M., Fouache E., Queyrel F., Syrides G., Vouvalidis K., Kunesch S., Styllas M. & Stiros S.

Geological background. , pp. 112-114
Palaeogeographic reconstruction (The landscape's evolution as described by literary sources, Human occupation of the study area since Neolithic times: important archaeological remains are still present in and around the plain.... , pp. 114-116
...Palaeographic reconstructions established during the 20th century)
Drillings in the central part of the alluvial plain. , pp. 116-117
Results (Pre transgressive surface, Marine occupation during the last post glacial period, Shallow marine environment - rapid growth of the deltas, The former Loudias Lake, The floodplain and river sedimentation in the alluvial plain). , pp. 118-123
Palaeogeographic reconstruction of the Thessaloniki plain. , pp. 123-124

Plant microfossil analysis reveals disturbed forest and a mixed-crop, dryland production system at Te Niu, Easter Island. 126-142
Horrocks M. & Wozniak J.A.

The environmental setting. , p. 128
The excavations (Ahu Te Niu, Household site, Other excavations). , pp. 128-130
Methods. , pp. 130-131
Results (Pollen, Phytoliths, Starch and other residues). , pp. 132-137

Frogs as a part of the Eneolithic diet. Archaeozoological records from the Czech Republic (Kutná Hora-Denemark site, Rivnác Culture). 143-157
Kyselý R.

Biology of the Common Frog. , pp. 143-144
Culinary aspects. , p. 144
The site. , p. 144
The assemblage. , pp. 144-145
Hypothesis. , pp. 145-146
Analysis of the assemblage (Preservation, Skeletal element representation, Burning, Taxonomy, Gender, The size, morphology and age). , pp. 146-150
Discussion and conclusions (Historical reconstruction, Regional comparisons). , pp. 150-155

Sample-specific (universal) metric approaches for determining the sex of immature human skeletal remains using permanent tooth dimensions. 158-168
Cardoso H.F.V.

Materials and methods. , pp. 160-161
Results. , pp. 161-164

Introduced taro (Colocasia esculenta) and yams (Dioscorea spp.) in Podtanean (2700-1800 years BP) deposits from Mé Auré Cave (WMD007), Moindou, New Caledonia. 169-180
Horrocks M., Grant-Mackie J. & Matisoo-Smith E.

The Mé Auré Cave site. , pp. 170-171
Chronology. , pp. 171-172
Methods. , pp. 172-173
Results. , p. 173
Microfossil identification (Colocasia esculenta, Dioscorea esculenta, Undifferentiated Dioscorea spp.). , pp. 173-178

Vegetation history at the multi-period prehistoric complex at Ballynahatty, Co. Down, Northern Ireland. 181-190
Plunkett G., Carroll F., Hartwell B., Whitehouse N.J. & Reimer P.J.

Site description (Geology, soils and vegetation, Archaeology). , p. 182
Methods (Material collection, Loss-on-ignition and chronology, Pollen analysis). , pp. 182-184
Results and interpretation (Stratigraphy, loss-on-ignition and tephrostratigraphy, Chronology, Pollen analyses). , pp. 184-188
Discussion (Mesolithic activity, Neolithic activity, Bronze Age activity). , pp. 188-189

Geoarchaeological tsunami deposits at Palaikastro (Crete) and the Late Minoan IA eruption of Santorini. 191-212
Bruins H.J., MacGillivray J.A., Synolakis C.E., Benjamini C., Keller J., Kisch H.J., Klügel A. & van der Plicht J.

Introduction (Research background and rationale). , pp. 192-193
Tsunami signatures in terrestrial coastal environments. , pp. 193-195
The landscape and research area at Minoan Palaikastro. , pp. 195-196
Findings and results - field sections (Promontory and East Beach cliffs, Promontory: field section 1, Promontory: field section 2, East Beach: field section 3, East Beach: field section 4, East Beach: field sections 5 and 6). , pp. 196-202
Volcanic Santorini ash deposits in the excavated inland part of Minoan Palaikastro. , pp. 202-203
Geochemistry of the volcanic ash. , pp. 204-205
Dating the geoarchaeological tsunami deposits (Geological dating criteria, Archaeological dating criteria, Radiocarbon dating of cattle bones from the Promontory, Radiocarbon dating of marine shells from the Promontory). , pp. 205-208
Modeling of the Minoan tsunami. , p. 208

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