Figures F1-F50
Figures F51-F100
Figures F101-F118
Tables T1-T22

F1. Seismic station coverage in the northwest Pacific.

F2. DSDP and ODP sites in the Philippine Sea.

F3. Location of OT97 survey lines.

F4. Line OT97 showing the location of Site 1201.

F5. Representative graphic lithology log.

F6. Lithology, units and facies, color reflectance, natural gamma count, and mineral composition.

F7. Bioturbated silty clays typical of Facies IA.

F8. Possible middle Miocene hiatus.

F9. Chert interval typical of Facies IB.

F10. Sandstone and silty claystone turbidites.

F11. Dark greenish gray volcaniclastic sandstone and silty claystone turbidites.

F12. Sandstone and bioturbated silty claystone turbidites.

F13. Fine-grained bright green zeolite-cemented interval.

F14. "Inflated" laminae in sandstone.

F15. Dark brown claystone containing a white quartz interval.

F16. Contact of the sediments with basaltic basement.

F17. Reworked zeolite grain and glass shards from a pumice ash layer.

F18. Fresh lithic arenite and siltstone.

F19. Oxidized scoria; plagioclase-rich vitrophyre and limestone fragment.

F20. Tectono-genetic provenance of sandstones.

F21. Zoned and twinned plagioclase; prismatic lathes of phillipsite and clay.

F22. Diagenetic features in sandstone and pore-filling zeolite spherolites.

F23. Advanced stage of diagenesis in sandstones.

F24. Strongly altered sandy siltstone.

F25. Diagenesis in siltstones.

F26. XRD of major sediment and sedimentary rock types.

F27. XRD of clay minerals and zeolites.

F28. Environmental interpretations from the sedimentary succession.

F29. Aphyric basalt exhibiting radiating vesicles.

F30. Basalt pillow reconstruction and basalt piece with glassy pillow margin.

F31. Hyaloclastite and pillow piece with biogenic clast in interpillow material.

F32. Pillow breccia consisting of angular fragments of aphyric basaltic glass.

F33. Fragments of aphyric basaltic glass and pillow margin.

F34. Vesicular, hydrothermally altered, aphyric basalt.

F35. Hyalopilitic texture and completely replaced olivine.

F36. Skeletal plagioclase exhibiting "swallow-tail" morphology.

F37. Plagioclase lath, clinopyroxene, and amygdules.

F38. Plagioclase lath replaced by secondary minerals.

F39. Spherulite of clinopyroxene and plagioclase in vesicular groundmass.

F40. Branching clinopyroxene and skeletal plagioclase in basalt.

F41. Subophitic texture with plagioclase enclosed by clinopyroxene and olivine.

F42. Plot of Sr, CaO, K₂O, Na₂O, and LOI in basalt.

F43. Total alkalis vs. silica diagram for volcanic rocks.

F44. (Ti/100)-Zr-(Y + 3) discrimination diagram.

F45. Ti/1000 vs. V discrimination diagram.

F46. TiO₂-(MnO ¥ 10)-(P₂O₅ ¥ 10) discrimination diagram.

F47. Cr vs. Y discrimination diagram.

F48. Preservation and abundance of calcareous nannofossils.

F49. Occurrence of age-diagnostic calcareous nannofossils.

F50. Ranges of selected age-diagnostic nannofossil species.

Figures F1-F50
Figures F51-F100
Figures F101-F118
Tables T1-T22