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Radiolarian-based SST reconstruction (MAT) from sediment cores in the Pacific...
This dataset has no description
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Estimated thermal conductivities from porosity (Vp) of IODP Site 315-C0002
This dataset has no description
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Estimated thermal conductivities from porosity (MAD) of IODP Site 315-C0002
This dataset has no description
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Heavy minerals on cores C00018, C0002B, C0002D, C0006E, C0002K and C0002L
This dataset has no description
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Bulk mineral composition on cores C00018, C0002D, C0002B and C0006E
This dataset has no description
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(Table 2) Experimental testing and best-fit curve measurements on unsheared s...
This dataset has no description
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(Table 1) Permeability measurements on sheared samples from different IODP Ho...
This dataset has no description
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Friction velocity dependence of sediments from the Nankai Trough, Japan
To investigate frictional behavior of sediments along the Kumano transect in the Nankai Trough, Japan, friction experiments were conducted using a single-direct shear device at... -
Dipicolinic acid concentration in sediment samples
Marine sediments host an unexpectedly large microbial biosphere, suggesting unique microbial mechanisms for surviving burial and slow metabolic turnover. Although dormancy is... -
(Table 1) Relative abundances of biphytanediols and biphytanes in IODP Site 3...
The distribution of acyclic and cyclic biphytanediols, the putative breakdown products of glycerol dialkyl glycerol tetraethers (GDGTs), was investigated for recent marine... -
(Table 1) Experimental shear strength values for IODP Exp315 and Exp316 holes
We investigate the mechanics of slope failures on the Nankai accretionary complex offshore Japan in the vicinity of a major out-of-sequence thrust fault (termed the... -
XRD raw data from IODP Exp315
This dataset has no description
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Miscellaneous material from IODP Hole 315-C0001I
This dataset has no description
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Xray-ct-scanner images from IODP Hole 315-C0002D
Geocode = [m CSF-A] Top Core depth (below sea floor).Measurements data just above (negative section depth) and below (depth exceed section length) a core section are utilized in... -
Xray-ct-scanner images from IODP Hole 315-C0001H
Geocode = [m CSF-A] Top Core depth (below sea floor).Measurements data just above (negative section depth) and below (depth exceed section length) a core section are utilized in... -
Section images from IODP Hole 315-C0002D
Geocode = [m CSF-A] Top Core depth (below sea floor). -
Section images from IODP Hole 315-C0001H
Geocode = [m CSF-A] Top Core depth (below sea floor). Measurements data just above (negative section depth) and below (depth exceed section length) a core section are utilized... -
Magnetometer measurements from IODP Hole 315-C0001H
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Structure description (VCD) from IODP Hole 315-C0001H
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Visual core description (VCD) from IODP Hole 315-C0001H
Geocode = [m CSF-A] Top Core depth (below sea floor)
