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Bulk mineralogy of Heihai lake sediment core PG2059-2
This dataset has no description
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Bulk mineralogy of Heihai lake sediment core PG2059-1
This dataset has no description
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Bulk mineralogy of Heihai lake sediment core PG2057-1
This dataset has no description
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Bulk mineralogy of Heihai lake bottom sediments
This dataset has no description
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Bulk mineralogy of Heihai catchment sediments
This dataset has no description
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XRD mineralogy of sediment core PS2641-4
We employ the quantitative X-ray diffraction method developed by Eberl (2003, 2004). The sediment < 2 mm are spiked by 10% by weight of zincite, milled, and the samples are... -
XRD mineralogy of sediment core PS2640-6
We employ the quantitative X-ray diffraction method developed by Eberl (2003, 2004). The sediment < 2 mm are spiked by 10% by weight of zincite, milled, and the samples are... -
XRD mineralogy of sediment core PS2631-5
We employ the quantitative X-ray diffraction method developed by Eberl (2003, 2004). The sediment < 2 mm are spiked by 10% by weight of zincite, milled, and the samples are... -
XRD mineralogy of sediment core PS2630-5
We employ the quantitative X-ray diffraction method developed by Eberl (2003, 2004). The sediment < 2 mm are spiked by 10% by weight of zincite, milled, and the samples are... -
XRD mineralogy of sediment core PS2629-2
We employ the quantitative X-ray diffraction method developed by Eberl (2003, 2004). The sediment < 2 mm are spiked by 10% by weight of zincite, milled, and the samples are... -
XRD mineralogy of sediment core PS2627-5
We employ the quantitative X-ray diffraction method developed by Eberl (2003, 2004). The sediment < 2 mm are spiked by 10% by weight of zincite, milled, and the samples are... -
XRD mineralogy of sediment core PS2623-4
We employ the quantitative X-ray diffraction method developed by Eberl (2003, 2004). The sediment < 2 mm are spiked by 10% by weight of zincite, milled, and the samples are... -
XRD mineralogy of sediment core JM07-WP-174-GC
We employ the quantitative X-ray diffraction method developed by Eberl (2003, 2004). The sediment < 2 mm are spiked by 10% by weight of zincite, milled, and the samples are... -
(Table 1) Mineral composition and d-spacing of montmorillonite and montmorill...
Sediment depth is given in mbsf. d-spacing (Å) of Montmorillonite-illite mixed-layer represented by 10 Å peak with tailed reflections on the lower angle side. -
(Appendix C) Minerals at DSDP Hole 64-478
Sediment depth is given in mbsf. Between depths 203.5 and 241.3 as well as between 253.3 and 256.9 is sill. After depth 338.92 is thick sill. tr. = traces, X = common, XX =... -
(Appendix A) Minerals at DSDP Site 64-477
Sediment depth is given in mbsf. Between depths 50.4 and 105.6 m is sill. Blanks indicate that the mineral was not observed. tr. = traces, X = common, XX = abundant, - = not... -
(Table 3) Mineral composition of muds at DSDP Leg 66 Holes
++ = abundant; + = present, - = absent. -
(Table 7) Minerals of bulk samples and the fine-grained (<2-µm) fractions fro...
Sediment depth is given in mbsf. T & <1 = trace, - & 0 = not found, empty cells = not analyzed. -
(Appendix E) Semiquantitative mineralogy at DSDP Leg 77 Holes
Ma = major component (>35%); Mi = minor component (15-35%); T = trace (5-15%); Pt = probable trace (<5%); - = not observed. Bulk samples were analyzed, crushed, and ground... -
(Table 4) Minerals at DSDP Hole 78-543
Units are arbitrary. Peak heights and areas for minerals. #1 = present but not quantifiable; #0 = probably present.