| Autor: |
Higaki, Hokuto, Goto, Kazuhisa, Yanagisawa, Hideaki, Sugawara, Daisuke, Ishizawa, Takashi |
| Rok vydání: |
2021 |
| DOI: |
10.6084/m9.figshare.14480041 |
| Popis: |
Additional file 1: Figure S1. CT image of Core KBT1 visualized by 3D Slicer, a free and open-source platform for analyzing and understanding medical image data. Figure S2. CT image of Core KBT2 visualized by 3D Slicer, a free and open-source platform for analyzing and understanding medical image data. Figure S3. CT image of Core KBT4 visualized by 3D Slicer, a free and open-source platform for analyzing and understanding medical image data. Domain outlined by the white rectangle shows that the sampling area for grain size analyses (214–241 cm depth). Figure S4. CT image of Core KBT6 visualized by 3D Slicer, a free and open-source platform for analyzing and understanding medical image data. Figure S5. CT image of Core KBT8 visualized by 3D Slicer, a free and open-source platform for analyzing and understanding medical image data. Figure S6. CT image of Core KBT10 visualized by 3D Slicer, a free and open-source platform for analyzing and understanding medical image data. Figure S7. CT image of Core KBT11 visualized by 3D Slicer, a free and open-source platform for analyzing and understanding medical image data. Figure S8. CT image of Core P-14 visualized by 3D Slicer, a free and open-source platform for analyzing and understanding medical image data. Figure S9. Grain size distribution of Core KBT4 (214–217 cm depth). Figure S10. Grain size distribution of Core KBT4 (217–229 cm depth). Figure S11. Grain size distribution of Core KBT4 (229–241 cm depth). Table S1. Result of diatom assemblage analysis |
| Databáze: |
OpenAIRE |
| Externí odkaz: |
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