10.6084/M9.FIGSHARE.11827989
Tomoya Abe
Kazuhisa Goto
Daisuke Sugawara
Additional file 2 of Spatial distribution and sources of tsunami deposits in a narrow valley setting - insight from 2011 Tohoku-oki tsunami deposits in northeastern Japan
Additional file 2: Fig. S1. Oblique aerial photographs in our study area taken by The Geospatial Information Authority of Japan on May 25, 2011. (A) View from offshore. (B) View from valley head. Fig. S2. Examples of diatom species in the muddy deposits: 1. Fragilaria pinnata, 2. Navicula salinarum, 3. Rhopalodia operculata, 4. Navicula cincta. 5. Cyclotella meneghiniana, 6. Hyalodiscus scoticus, 7. Aulacoseira distans, 8. Synedra tabulata, 9. Nitzschia plana, 10. Neidium alpinum, 11. Pinnularia gibba, 12. Nitzschia calida, 13. Navicula elegans, 14. Navicula radiosa, 15. Navicula crucicula, 16. Navicula cryptocephala, 17. Cymbella gracilis, 18. Pinnularia viridis, 19. Diploneis ellipica, 20, Mastogloia pumila, 21. Rhopalodia gibberula, 22. Thalassiosira bramaputrae, 23. Melosira undulata, 24. Mastogloia pumila, 25. Synedra nanana, 26. Pinnularia nodosa, 27. Nitzschia acuminata, 28. Gomphonema acuminatum, 29. Hantzschia amphioxys. Fig. S3. Vertical variation of the tsunami deposit at GPS 206. The sand layer is characterized by inverse-graded and normal-graded multiple units. The observation site is shown in Fig. 1c. TS: Tsunami sand layer. TM: Tsunami mud layer. Soil: Pre-tsunami soil.
Biochemistry
59999 Environmental Sciences not elsewhere classified
Ecology
Sociology
69999 Biological Sciences not elsewhere classified
figshare
2020
2020-02-09
2020-02-09
Journal contribution
852243 Bytes
10.1186/s40645-019-0318-6
CC BY 4.0