Proc. IODP, 341, Site U1421

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Chapter contents Background and objectives Operations Transit to Site U1421 Site U1421 Lithostratigraphy Facies description Lithostratigraphic units Petrography Lithostratigraphy and depositional interpretations Paleontology and biostratigraphy Diatoms Radiolarians Foraminifers Stratigraphic correlation Initial age model Geochemistry Interstitial water chemistry Alkalinity, pH, chloride, and salinity Dissolved ammonium, phosphate, and silica Dissolved sulfate, calcium, magnesium, potassium, sodium, and bromide Dissolved manganese, iron, barium, strontium, boron, and lithium Volatile hydrocarbons Bulk sediment geochemistry Interpretation Physical properties Gamma ray attenuation bulk density Magnetic susceptibility Compressional wave velocity Natural gamma radiation Moisture and density Shear strength Heat flow Paleomagnetism Downhole logging Logging operations Data processing and quality assessment Logging stratigraphy Vertical seismic profile Core-log-seismic integration Lithostratigraphy–downhole logging data correlation Physical properties–downhole logging data correlation Seismic sequences and correlation with lithostratigraphy and downhole logs References Figures F1. Bering shelf region. F2. GOA-2505 seismic section. F3. Lithofacies motifs and facies succession. F4. Core recovery. F5. Hole summaries. F6. Lithofacies. F7. Clasts, macrofossils, and bioturbation features. F8. GRA bulk density data vs. discrete wet bulk density data. F9. Abundance of main lithology types. F10. X-ray diffraction patterns. F11. Physical properties measurements. F12. Lithostratigraphic units and major lithologies. F13. Diatoms, radiolarians, and planktonic and benthic foraminifers. F14. Paleoenvironmental indicators. F15. Magnetic susceptibility. F16. GRA bulk density. F17. Dissolved chemical concentrations and headspace gas. F18. Dissolved chemical concentrations. F19. Solid-phase chemical parameters. F20. Chlorinity-normalized and original concentrations. F21. Physical properties measurements. F22. Point-source magnetic susceptibility. F23. GRA bulk density vs. magnetic susceptibility. F24. PWL and PWC measurements. F25. GRA bulk density vs. NGR. F26. Bulk density, grain density, porosity, and void ratio. F27. Temperature data. F28. NRM intensity and inclination, Hole U1421A. F29. NRM intensity and inclination, Holes U1421A–U1421C. F30. Logging operations. F31. Sonic-induction tool string logs. F32. Sonic-induction tool string logs. F33. Gamma ray log. F34. VSP waveforms and one-way arrival time picks. F35. Lithostratigraphic units, core observations, and logging data. F36. Downhole logging data and core physical properties data. F37. Core, downhole logging, and seismic data. F38. Seismic Profile GOA2503. Tables T1. Coring summary. T2. Lithofacies. T3. Lithostratigraphic units. T4. XRD mineral composition. T5. Diatoms. T6. Radiolarians. T7. Planktonic foraminifers. T8. Benthic foraminifers. T9. Affine table. T10. Splice tie points. T11. AF demagnetization steps. T12. VSP direct arrival times. PDF file Errata			Previous \| Next doi:10.2204/iodp.proc.341.107.2014 Site U1421¹ J.M. Jaeger, S.P.S. Gulick, L.J. LeVay, H. Asahi, H. Bahlburg, C.L. Belanger, G.B.B. Berbel, L.B. Childress, E.A. Cowan, L. Drab, M. Forwick, A. Fukumura, S. Ge, S.M. Gupta, A. Kioka, S. Konno, C.E. März, K.M. Matsuzaki, E.L. McClymont, A.C. Mix, C.M. Moy, J. Müller, A. Nakamura, T. Ojima, K.D. Ridgway, F. Rodrigues Ribeiro, O.E. Romero, A.L. Slagle, J.S. Stoner, G. St-Onge, I. Suto, M.H. Walczak, and L.L. Worthington² Background and objectives A primary objective of Expedition 341 was to examine the impact of changing Neogene sedimentation rates on actively deforming orogenic structures. Whereas Site U1420 targeted strata above an inactive thrust fault, Site U1421 was positioned to sample correlative strata on the limb of an actively deforming structure, where more deeply buried seismic sequences on the shelf are observed slightly closer to the seafloor. Site U1421 is located downslope of the Bering Trough above the youngest two thrusts of the Pamplona Zone where they cut obliquely across the slope (Fig. F1B). The slope sediments trapped behind these folds are seismically reflective, and sequences within them are mappable onto the shelf. These sequences appear to aggrade through Horizon H1 roughly parallel with the modern slope surface and include thinned distal extents of shelf sedimentary sequences, as well as slope sequences that are correlative with sequences truncated by unconformity Horizon H1 (Fig. F2). Shallower than Horizon H1, the slope sequence is more uniform in thickness and includes higher amplitude reflections that may represent the formation of a glacial trough mouth fan associated with the arrival of glacier termini at the shelf edge during glacial maxima, which is suggested to have initiated during the mid-Pleistocene transition (Fig. F2) (Berger et al., 2008). At the southeastern end of the STEEP09 seismic profile (Fig. F1A), two active faults (BT1 and BT2) are present at the continental slope, exhibiting less burial than the structures on the shelf. Scarps ~750 and ~300 m high associated with the active slope structures are visible on high-resolution bathymetry of the continental slope (Worthington et al., 2008). Site U1421 is located just landward of Fault BT2, which may have initiated after the Pliocene–Pleistocene transition (Worthington et al., 2010), given the lack of growth strata observed below Horizon H3 (Fig. F1). The presence of two distinct sedimentary packages on Fault BT2 is indicative of either a decrease in slope sedimentation or an increase in deformation rate across Fault BT2. Between Horizons H1 and H2, the angle of the observed growth strata becomes less pronounced, indicating a gradual decrease in fault growth rate during the early–Middle Pleistocene (Worthington et al., 2010) or an increase in accumulation rate. Shallower than Horizon H1, sediments are truncated by the anticline and are very slightly tilted toward the shelf, indicating either minimal deformation on Fault BT2 since Horizon H1 or high accumulation rates. The target depth at this site was designed to penetrate Reflector H2 (expected to lie at ~1 km), which is mapped from the shelf where it marks the latest growth strata associated with a now inactive thrust fault (Figs. F1A, F2). Determining the age of this reflector (hypothesized to be younger than the Pliocene/Pleistocene boundary) will allow us to infer the timing of when loading by increasing sediment accumulation forced accommodation of collisional stresses to be shifted elsewhere in the orogen (Worthington et al., 2010). Crossing the slope equivalent of the angular unconformity Horizon H1 will occur while drilling to the depth of Horizon H2, allowing for a second opportunity beyond Site U1420 to constrain the timing of its formation. Potential lithofacies are alternating diamict (ice-rafted debris and debris flow deposits), turbidites, and hemipelagic mud (Fig. F3). This site is expected to provide a proximal provenance record of sediment supply from the Bering Glacier, which can be used to locate the temporal and spatial loci of glacial erosion in the St. Elias orogen. ¹ Jaeger, J.M., Gulick, S.P.S., LeVay, L.J., Asahi, H., Bahlburg, H., Belanger, C.L., Berbel, G.B.B., Childress, L.B., Cowan, E.A., Drab, L., Forwick, M., Fukumura, A., Ge, S., Gupta, S.M., Kioka, A., Konno, S., März, C.E., Matsuzaki, K.M., McClymont, E.L., Mix, A.C., Moy, C.M., Müller, J., Nakamura, A., Ojima, T., Ridgway, K.D., Rodrigues Ribeiro, F., Romero, O.E., Slagle, A.L.,Stoner, J.S., St-Onge, G., Suto, I., Walczak, M.H., and Worthington, L.L., 2014. Site U1421. In Jaeger, J.M., Gulick, S.P.S., LeVay, L.J., and the Expedition 341 Scientists, Proc. IODP, 341: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/iodp.proc.341.107.2014 ² Expedition 341 Scientists’ addresses. Publication: 22 November 2014 MS 341-107 Top of page \| Previous \| Next

Site U14211

Background and objectives

Site U1421¹