Proc. IODP, 303/306, Site U1306

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Chapter contents Background and objectives Operations Hole U1306A Hole U1306B Hole U1306C Hole U1306D Lithostratigraphy Description of units Discussion Biostratigraphy Calcareous nannofossils Planktonic foraminifers Benthic foraminifers Diatoms Radiolarians Palynomorphs Paleomagnetism Composite section Geochemistry Volatile hydrocarbons Sedimentary geochemistry Interstitial water chemistry Physical properties Whole-core magnetic susceptibility measurements Density Natural gamma radiation P-wave velocity Porosity Discussion References Figures F1. Site location. F2. Magnetic susceptibility, MD cores. F3. MCS Lines 19 and 24c. F4. 3.5 kHz Line 19. F5. Quartz, detrital carbonate, microfossils. F6. Gravel-size grains. F7. Oxidized layer. F8. Detrital carbonate layer. F9. Detrital carbonate layer. F10. Disturbed interval. F11. Distrubed interval. F12. Cobble-sized dropstones. F13. Graphic lithology. F14. Lightness vs. carbonate. F15. L*, MS, carbonate. F16. Chronostratigraphy. F17. Microfossil abundances. F18. Microfossil preservation. F19. NRM intensity. F20. Inclination of NRM. F21. Declination of NRM. F22. Magnetic susceptibility. F23. Mbsf vs. mcd depths. F24. Age-depth plot. F25. Headspace gases. F26. Carbon and nitrogen. F27. Interstitial water profiles. F28. Magnetic susceptibility. F29. Density. F30. NGR. F31. Velocity. F32. Porosity. F33. Spliced core logging. Tables T1. Coring summary. T2. Nannofossils, Hole U1306A. T3. Nannofossils, Hole U1306B. T4. Nannofossils, Hole U1306C. T5. Nannofossils, Hole U1306D. T6. Planktonic foraminifers, Hole U1306A. T7. Planktonic foraminifers, Hole U1306B. T8. Planktonic foraminifers, Hole U1306C. T9. Planktonic foraminifers, Hole U1306D. T10. Benthic foraminifers. T11. Diatoms/silicoflagellates, Hole U1306A. T12. Diatoms/silicoflagellates, Hole U1306B. T13. Diatoms/silicoflagellates, Hole U1306C. T14. Diatoms/silicoflagellates, Hole U1306D. T15. Radiolarians. T16. Palynomorphs, Hole U1306A. T17. Palynomorphs, Hole U1306D. T18. Polarity zonation. T19. Age interpretation. T20. Composite depths. T21. Splice. T22. Sedimentation rates. T23. Headspace gases. T24. Carbon and nitrogen. T25. Geochemistry. PDF file			Previous \| Next doi:10.2204/iodp.proc.303306.106.2006 References Andersen, C., Koç, N., and Moros, M., 2004. A highly unstable Holocene climate in the subpolar North Atlantic: evidence from diatoms. Quat. Sci. Rev., 23:2155–2166. doi:10.1016/j.quascirev.2004.08.004 Balsam, W.L., Deaton, B.C., and Damuth, J.E., 1999. Evaluating optical lightness as a proxy for carbonate content in marine sediment cores. Mar. Geol., 161:141–153. doi:10.1016/S0025-3227(99)00037-7 Brothers, L.A., Engel, M.H., and Elmore, R.D., 1996. The late diagenetic conversion of pyrite to magnetite by organically complexed ferric iron. Chem. Geol., 130:1–14. Cande, S.C., and Kent, D.V., 1995. Revised calibration of the geomagnetic polarity timescale for the Late Cretaceous and Cenozoic. J. Geophys. Res., 100:6093–6095. doi:10.1029/94JB03098 Channell, J.E.T., Hodell, D.A., and Lehman, B., 1997. Relative geomagnetic paleointensity and δ¹⁸O at ODP Site 983 (Gardar Drift, North Atlantic) since 350 ka. Earth Planet. Sci. Lett., 153:103–118. doi:10.1016/S0012-821X(97)00164-7 Channell, J.E.T., Mazaud, A., Sullivan, P., Turner, S., and Raymo, M.E., 2002. Geomagnetic excursions and paleointensities in the Matuyama Chron at ODP Sites 983 and 984 (Iceland Basin). J. Geophys. Res., 107. doi:10.1029/2001JB000491 Cremer, M., 1989. Texture and microstructure of Neogene-Quaternary sediments, ODP Sites 645 and 646, Baffin Bay and Labrador Sea. In Srivastava, S.P., Arthur, M.A., Clement, B., et al., Proc. ODP, Sci. Results, 105: College Station, TX (Ocean Drilling Program), 7–20. [PDF] Crosta, X., Pichon, J.-J., and Labracherie, M., 1997. Distribution of Chaetoceros resting spores in modern peri-Antarctic sediments. Mar. 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