Proc. IODP, 339, Site U1389

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Chapter contents Background and objectives Objectives Operations Hole U1389A Holes U1389B and U1389C Hole U1389D Hole U1389E Downhole logging at Site U1389 Lithostratigraphy Unit I description Discussion Biostratigraphy Calcareous nannofossils Planktonic foraminifers Benthic foraminifers Ostracods Palynology Paleomagnetism Natural remanent magnetization and magnetic susceptibility Magnetostratigraphy Physical properties Whole-Round Multisensor Logger and Special Task Multisensor Logger measurements Moisture and density Thermal conductivity Summary of main results Geochemistry Volatile hydrocarbons Sedimentary geochemistry Interstitial water chemistry Summary Downhole measurements Logging operations Log data quality Logging units Formation MicroScanner images Vertical seismic profile and sonic velocity Heat flow Stratigraphic correlation References Figures F1. 3-D site bathymetry. F2. Bathymetric site sketch. F3. Swath bathymetry. F4. Contourite channel characterization. F5. Seismic profile examples. F6. Middle slope seismic profiles. F7. Quaternary drift deposit evolution. F8. Graphic lithology summary log. F9. Downhole lithology variations. F10. Downhole bed composition trends. F11. Graphic lithology summaries. F12. Bi-gradational sediment sequence. F13. Normally grading sediment. F14. XRD peak intensity profiles. F15. Gastropods. F16. Identified macrofauna. F17. Arenaria colony. F18. Ichnofossils. F19. Large burrow. F20. Calcareous mud with Zoophycos. F21. Biostratigraphic events. F22. Preliminary pollen results. F23. Paleomagnetism. F24. AF demagnetization results. F25. P-wave velocity and density logs. F26. L, a, and NGR. F27. Moisture content, grain density, and porosity. F28. Headspace gas analyses. F29. Calcium carbonate vs. depth. F30. Carbon, nitrogen, and C/N. F31. Sulfate, ammonium, and alkalinity. F32. Ca, Mg, and K. F33. Sodium, chloride, and Na⁺/Cl^–. F34. Ba, B, and Fe. F35. Li, Si, and Sr. F36. Stable isotopes vs. Cl. F37. δ¹⁸O vs. δD. F38. Logging operations summary. F39. Downhole logs and logging units, Hole U1389A. F40. Tides and ship heave. F41. HSGR and core NGR comparison. F42. Downhole logs and logging units, Hole U1389E. F43. NGR and logging units, Hole U1389A. F44. NGR and logging units, Hole U1389E. F45. Downhole logs hole comparison. F46. Downhole logs and lithology comparison. F47. VSP and traveltime picks. F48. Heat flow calculations. F49. Magnetic susceptibility vs. composite depth. F50. Mbsf vs. mcd core top depths. F51. Mcd vs. mbsf core top depths. Tables T1. Coring summary. T2. Sediment textures and compositions. T3. Lithology and number of beds. T4. Lithologic characteristics. T5. XRD peak intensities data. T6. XRD data. T7. Biostratigraphic datums. T8. Planktonic foraminifers, Holes U1389A–U1389C. T9. Planktonic foraminifers, Hole U1389E. T10. Nannofossils. T11. Benthic foraminifers. T12. Ostracods. T13. Pollen and spores. T14. Disturbed intervals. T15. Paleomagnetism data, Hole U1389A. T16. Paleomagnetism data, Hole U1389B. T17. Paleomagnetism data, Hole U1389C. T18. Paleomagnetism data, Hole U1389D. T19. Paleomagnetism data, Hole U1389E. T20. Polarity boundaries. T21. Hydrocarbon concentrations. T22. Carbon and nitrogen contents. T23. Major and trace elements. T24. Oxygen and hydrogen isotopes. T25. VSP station and traveltime data. T26. Temperature profiles. T27. Mcd scale. T28. Splice tie points. T29. Excluded magnetic susceptibility data. PDF file			Previous \| Next doi:10.2204/iodp.proc.339.107.2013 References Almodóvar, G.R., Sáez, R., Pons, J.M., Maestre, A., Toscano, M., and Pascual, E., 1997. Geology and genesis of the Aznalcóllar massive sulphide deposits, Iberian pyrite belt, Spain. Miner. Deposita, 33(1–2):111–136. doi:10.1007/s001260050136 Alvarez-Zarikian, C.A., Soter, S., and Katsonopoulou, D., 2008. Recurrent submergence and uplift in the area of ancient Helike, Gulf of Corinth, Greece: microfaunal and archaeological evidence. J. 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