Citation:

dsdp.proc.65.131.1983

Name: (Table 7) Geochemistry of sulfides at DSDP Site 65-482
Published: 1983
License: https://creativecommons.org/licenses/by/3.0/

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Project(s):

Deep Sea Drilling Project (DSDP)

Coverage:

Median Latitude: 22.789350 * Median Longitude: -107.993050 * South-bound Latitude: 22.789000 * West-bound Longitude: -107.993300 * North-bound Latitude: 22.789700 * East-bound Longitude: -107.992800

Date/Time Start: 1979-01-24T00:00:00 * Date/Time End: 1979-01-24T00:00:00

Minimum Elevation: -2998.0 m * Maximum Elevation: -2998.0 m

Event(s):

65-482B * Latitude: 22.789700 * Longitude: -107.993300 * Date/Time: 1979-01-24T00:00:00 * Elevation: -2998.0 m * Penetration: 229 m * Recovery: 99.8 m * Location: North Pacific/Gulf of California/CONT RISE * Campaign: * Basis: Glomar Challenger * Method/Device: Drilling/drill rig (DRILL) * Comment: 24 cores; 184.5 m cored; 0 m drilled; 54.1 % recovery

65-482C * Latitude: 22.789000 * Longitude: -107.992800 * Date/Time: 1979-01-24T00:00:00 * Elevation: -2998.0 m * Penetration: 184 m * Recovery: 84.6 m * Location: North Pacific/Gulf of California/CONT RISE * Campaign: * Basis: Glomar Challenger * Method/Device: Drilling/drill rig (DRILL) * Comment: 15 cores; 120.5 m cored; 0 m drilled; 70.2 % recovery

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Method/Device
1	Event label	Event
2	Sample code/label	Sample label		Morrison, M Ann	DSDP/ODP/IODP sample designation
3	Description	Description		Morrison, M Ann
4	Sample ID	Sample ID		Morrison, M Ann
5	Magnesium	Mg	%	Morrison, M Ann	Electron microprobe (EMP)
6	Silicon	Si	%	Morrison, M Ann	Electron microprobe (EMP)
7	Sulfur, total	TS	%	Morrison, M Ann	Electron microprobe (EMP)
8	Iron	Fe	%	Morrison, M Ann	Electron microprobe (EMP)
9	Nickel	Ni	%	Morrison, M Ann	Electron microprobe (EMP)
10	Manganese	Mn	%	Morrison, M Ann	Electron microprobe (EMP)
11	Zinc	Zn	%	Morrison, M Ann	Electron microprobe (EMP)
12	Elements, total	Total	%	Morrison, M Ann	Electron microprobe (EMP)

License:

Creative Commons Attribution 3.0 Unported (CC-BY-3.0)

Size:

275 data points

Data

Download dataset as tab-delimited text — use the following character encoding:

1 Event	2 Sample label	3 Description	4 Sample ID	5 Mg [%]	6 Si [%]	7 TS [%]	8 Fe [%]	9 Ni [%]	10 Mn [%]	11 Zn [%]	12 Total [%]
65-482B	65-482B-10-7,24-27	Sulfides in groundmass	1	0.08	0.16	51.35	47.48	0.00	0.08	0.47	99.62
65-482B	65-482B-10-7,24-27	Sulfides in groundmass	2	0.00	0.14	51.91	45.43	0.00	1.39	0.00	98.87
65-482B	65-482B-10-7,24-27	Sulfide crystals in hydrothermal vein	3	0.00	0.03	51.64	47.23	0.00	0.07	0.00	98.97
65-482B	65-482B-10-7,24-27	Sulfide crystals in hydrothermal vein	4	0.01	0.10	51.76	47.08	0.00	0.25	0.44	99.64
65-482B	65-482B-12-1,32-36	Sulfides in groundmass	5	0.16	0.06	52.30	47.70	0.00	0.00	0.47	100.69
65-482B	65-482B-12-1,32-36	Sulfides in groundmass	6	0.00	0.10	53.12	47.91	0.00	0.26	0.00	101.39
65-482B	65-482B-12-1,32-36	Sulfides in groundmass	7	0.00	0.09	52.51	47.82	0.00	0.00	0.00	100.42
65-482B	65-482B-12-1,32-36	Sulfides in groundmass	8	0.04	0.12	50.96	46.85	0.00	0.00	0.10	98.07
65-482B	65-482B-12-1,32-36	Sulfides in groundmass	9	0.08	0.10	52.68	48.16	0.11	0.01	0.18	101.32
65-482C	65-482C-10-1,16-18	Traverse from altered basalt into hydrothermal vein, with being sulfide crystals in groundmass	10	0.06	0.02	51.88	47.37	0.00	0.02	0.08	99.43
65-482C	65-482C-10-1,16-18	Traverse from altered basalt into hydrothermal vein, with being sulfide crystals in groundmass	11	0.04	0.10	52.99	48.11	0.00	0.05	0.17	101.46
65-482C	65-482C-10-1,16-18	Traverse from altered basalt into hydrothermal vein, with being sulfide crystals in groundmass	12	0.09	0.09	52.39	47.44	0.00	0.07	0.28	100.36
65-482C	65-482C-10-1,16-18	Traverse from altered basalt into hydrothermal vein, with being sulfide crystals in groundmass	13	0.08	0.18	52.83	46.79	0.00	0.86	0.12	100.86
65-482C	65-482C-10-1,16-18	Traverse from altered basalt into hydrothermal vein, with being sulfide crystals in groundmass	14	0.04	0.04	51.82	47.95	0.00	0.00	0.17	100.02
65-482C	65-482C-10-1,16-18	Traverse from altered basalt into hydrothermal vein, with being sulfide crystals in groundmass	15	0.17	0.43	51.34	47.07	0.05	0.00	0.08	99.14
65-482C	65-482C-10-1,16-18	Traverse from altered basalt into hydrothermal vein, with being sulfides in vein sequence	16	0.04	0.18	52.10	47.40	0.02	0.00	0.10	99.84
65-482C	65-482C-10-1,16-18	Traverse from altered basalt into hydrothermal vein, with being sulfides in vein sequence	17	0.07	0.11	52.61	46.52	0.00	0.93	0.35	100.59
65-482C	65-482C-10-1,16-18	Traverse from altered basalt into hydrothermal vein, with being sulfides in vein sequence	18	0.04	0.13	51.21	46.49	0.03	0.15	0.32	98.37
65-482C	65-482C-10-1,16-18	Traverse from altered basalt into hydrothermal vein, with being sulfides in vein sequence	19	0.00	0.02	52.42	45.99	0.00	1.44	0.17	99.67
65-482C	65-482C-11-2,71-75	Sulfides in groundmass	20	0.09	0.13	52.74	47.77	0.00	0.05	0.38	101.16
65-482C	65-482C-11-2,71-75	Sulfides in groundmass	21	0.07	0.08	51.65	47.25	0.00	0.00	0.14	99.18
65-482C	65-482C-11-2,71-75	Sulfides in groundmass	22	0.06	0.08	51.95	47.28	0.06	0.00	0.00	99.43
65-482C	65-482C-11-2,71-75	Sulfides in groundmass	23	0.00	0.09	52.02	47.89	0.27	0.02	0.24	100.53
65-482C	65-482C-11-2,71-75	Sulfides in groundmass	24	0.00	0.13	52.02	47.47	0.08	0.00	0.15	99.85
65-482C	65-482C-11-2,71-75	Sulfides in groundmass	25	0.07	0.14	52.31	47.88	0.06	0.00	0.27	100.73