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The Usage of Ochre at the Verge of Neolithisation from the near East to the Carpathian Basin
This volume explores the cultural meaning of ochre among the societies of the Late Epipalaeolithic/Mesolithic and the Early Neolithic from the Levant to the Carpathian Basin.
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Oxford :
Archaeopress,
2023.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover
- Title Page
- Copyright page
- Contents Page
- List of Figures
- Figure 1. The examples of ochre fragments, derived from geological layers, bearing yellow and red hues (photo by author).
- Figure 2. Map of Levantine sites mentioned in the text (credits: Google Earth, pins marked by author).
- Figure 3. Map of the Turkish sites mentioned in the text (credits: Google Earth, pins marked by author).
- Figure 4. Map of the discussed sites in the Balkans and Southern Carpathian Basin (credits: Google Earth, pins marked by author).
- Figure 5. Map of the Carpathian sites, mentioned in the text (credits: Google Earth, pins marked by author).
- Figure 6. Map of the Levantine outcrops mentioned in the text (credits: Google Earth, pins marked by author).
- Figure 7. The outcrop in the vicinity of At Tafilah, Jordan (photo: author).
- Figure 8. Map of the Anatolian outcrops mentioned in the text (credits: Google Earth, pins marked by author).
- Figure 9. Ochre outcrop, spotted in the vicinity of Aksaray (photo: author).
- Figure 10. Map of the Balkan outcrops mentioned in the text (credits: Google Earth, pins marked by author).
- Figure 11. The ferruginous mineralisation documented in the vicinity of Gradetz, Bulgaria (photo: author).
- Figure 12. Map of the Carpathian outcrops mentioned in the text (credits: Google Earth, pins marked by author).
- Figure 13. The ferruginous mineralisation noticed between Lovas and Alsóörs, Hungary (photo: author).
- Figure 14. Graph of the cluster analysis conducted for the data obtained for the archaeological samples from Israel
- Cophenetic correlation coefficiency= 0.9557.
- Figure 15. The graph of the PCA (principal component analysis) for the data, obtained for the archaeological samples from Israel, with six groups marked.
- Figure 16. Cluster analysis graph, obtained for the results of the archaeological and natural samples from Turkey
- cophenetic correlation coefficiency = 0.9744.
- Figure 17. The PCA graph for the archaeological and natural samples from Turkey.
- Figure 18. Cluster analysis graph obtained for the natural samples from Bulgaria
- cophenetic correlation coefficiency= 0.9635.
- Figure 19. PCA graph obtained for the results of natural samples from Bulgaria, with eight groups marked.
- Figure 20. Cluster analysis graph, obtained for the natural samples from Romania
- cophenetic correlation coefficiency= 0.9539.
- Figure 21. PCA analysis graph, obtained for the natural samples from Romania.
- Figure 22. Cluster analysis graph, obtained for the archaeological and natural samples from Serbia
- cophenetic correlation coefficiency = 0.9355.
- Figure 23. PCA graph, obtained for the archaeological and natural samples from Serbia, with five groups marked.
- Figure 24. Pictures taken under the optical microscope for the samples from Bükkábrány-Bánya VII: A
- sample 323-338