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CNS-analysis from IODP Hole 348-C0002M
Geocode = Top Depth DSF, MSF, WSF and CSF-A [m] -
XRF-core logger measurements from IODP Hole 348-C0002M
Geocode = Top Depth DSF, MSF, WSF and CSF-B [m, CMP] -
Discrete P and S-wave analysis from IODP Hole 348-C0002M
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Electrical conductivity form IODP Hole 348-C0002M
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Core-section summary form IODP Hole 348-C0002M
This dataset has no description
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Core summary for IODP Hole 348-C0002M
This dataset has no description
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Moisture and density (MAD) measurements from IODP Hole 348-C0002P
Geocode = Top Depth DSF, MSF, WSF and CSF-B [m, CMP] -
Headspace-gas measurements from IODP Hole 348-C0002P
Geocode = Top Depth DSF, MSF, WSF and CSF-A [m] -
Thermal conductivity of IODP Hole 348-C0002P
Geocode = [m CSF-A] Top Core depth (below sea floor) -
CNS-analysis from IODP Hole 348-C0002P
Geocode = Top Depth DSF, MSF, WSF and CSF-A [m] -
Discrete P and S-wave analysis from IODP Hole 348-C0002P
Geocode = Top Depth DSF, MSF, WSF and CSF-A [m] -
Natural gamma radiation and miscellaneous material from IODP Hole 348-C0002P
Geocode = Top Depth DSF, MSF, WSF and CSF-A [m] -
Perfluorocarbon measurements from IODP Hole 348-C0002P
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Magnetometer measurements from IODP Hole 348-C0002P
Geocode = [m CSF-A] Top Core depth (below sea floor) -
Magnetic susceptibility from IODP Hole 348-C0002P
Geocode = Top Depth DSF, MSF, WSF and CSF-B [m, CMP] -
Electrical conductivity from IODP Hole 348-C0002P
Geocode = [m, CMP] Top Depth DSF, MSF, WSF and CSF-B -
Core-section summary form IODP Hole 348-C0002P
This dataset has no description
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Core summary for IODP Hole 348-C0002P
This dataset has no description
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Point-count analyses of grains from the Nankai subduction zone (Japan) at IOD...
For petrographic analyses, point counting was used to quantitatively estimate the modal composition of sand and sandstones by totalling the occurrence of various mineral grains... -
Volumetric proportion of grains from the Nankai subduction zone (Japan) at IO...
Ternary diagrams are commonly used in Earth Sciences to represent numerical data as ratios of three components. For our study, ternary provenance diagrams were created in...
