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Bogdanov, Yury A; Lein, Alla Yu; Sagalevich, Anatoly M; Vasil'ev, N V; Ul'yanov, Alexander A (2005): (Table 4) Chemical composition of sulfide deposits from the Fir Tree relict hydrothermal edifice and the Nail active hydrothermal edifice, Snake Pit hydrothermal field [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.763177, In supplement to: Bogdanov, YA et al. (2005): Hydrothermal ore deposits of the Snake Pit hydrothermal field (Mid-Atlantic Ridge). Translated from Okeanologiya, 2005, 45(4), 574-591, Oceanology, 45(4), 543-559

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Project(s):
Archive of Ocean Data (ARCOD)
Coverage:
Median Latitude: 23.368475 * Median Longitude: -44.952795 * South-bound Latitude: 23.368280 * West-bound Longitude: -44.953450 * North-bound Latitude: 23.368620 * East-bound Longitude: -44.951930
Minimum Elevation: -3450.0 m * Maximum Elevation: -3430.0 m
Event(s):
AMK47-4329-2 * Latitude: 23.368620 * Longitude: -44.952570 * Elevation: -3450.0 m * Location: Snake Pit Hydrothermal Field, Fir Tree mound * Campaign: AMK47 * Basis: Akademik Mstislav Keldysh * Method/Device: MIR deep-sea manned submersible (MIR)
AMK47-4332-2 * Latitude: 23.368470 * Longitude: -44.951930 * Elevation: -3448.0 m * Location: Snake Pit Hydrothermal Field, Beehive mound * Campaign: AMK47 * Basis: Akademik Mstislav Keldysh * Method/Device: MIR deep-sea manned submersible (MIR)
AMK47-4335-1 * Latitude: 23.368530 * Longitude: -44.953450 * Elevation: -3449.0 m * Location: Snake Pit Hydrothermal Field, Nail mound * Campaign: AMK47 * Basis: Akademik Mstislav Keldysh * Method/Device: MIR deep-sea manned submersible (MIR)
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1Event labelEvent
2Latitude of eventLatitude
3Longitude of eventLongitude
4Elevation of eventElevationm
5Positioning type/detailsPos typeBogdanov, Yury A
6Sample code/labelSample labelBogdanov, Yury A
7Sample typeSamp typeBogdanov, Yury A
8Number of observationsNOBS#Bogdanov, Yury A
9IronFe%Bogdanov, Yury A
10IronFe%Bogdanov, Yury AAtomic absorption spectrometry (AAS)min
11IronFe%Bogdanov, Yury AAtomic absorption spectrometry (AAS)max
12ManganeseMn%Bogdanov, Yury AAtomic absorption spectrometry (AAS)
13ManganeseMn%Bogdanov, Yury AAtomic absorption spectrometry (AAS)min
14ManganeseMn%Bogdanov, Yury AAtomic absorption spectrometry (AAS)max
15CopperCu%Bogdanov, Yury AAtomic absorption spectrometry (AAS)
16CopperCu%Bogdanov, Yury AAtomic absorption spectrometry (AAS)min
17CopperCu%Bogdanov, Yury AAtomic absorption spectrometry (AAS)max
18ZincZn%Bogdanov, Yury AAtomic absorption spectrometry (AAS)
19ZincZn%Bogdanov, Yury AAtomic absorption spectrometry (AAS)min
20ZincZn%Bogdanov, Yury AAtomic absorption spectrometry (AAS)max
21LeadPb%Bogdanov, Yury AAtomic absorption spectrometry (AAS)
22LeadPb%Bogdanov, Yury AAtomic absorption spectrometry (AAS)min
23LeadPb%Bogdanov, Yury AAtomic absorption spectrometry (AAS)max
24NickelNi%Bogdanov, Yury AAtomic absorption spectrometry (AAS)
25NickelNi%Bogdanov, Yury AAtomic absorption spectrometry (AAS)min
26NickelNi%Bogdanov, Yury AAtomic absorption spectrometry (AAS)max
27CobaltCo%Bogdanov, Yury AAtomic absorption spectrometry (AAS)
28CobaltCo%Bogdanov, Yury AAtomic absorption spectrometry (AAS)min
29CobaltCo%Bogdanov, Yury AAtomic absorption spectrometry (AAS)max
30VanadiumVmg/kgBogdanov, Yury AX-ray fluorescence (XRF)
31VanadiumVmg/kgBogdanov, Yury AX-ray fluorescence (XRF)min
32VanadiumVmg/kgBogdanov, Yury AX-ray fluorescence (XRF)max
33CadmiumCdmg/kgBogdanov, Yury AAtomic absorption spectrometry (AAS)
34CadmiumCdmg/kgBogdanov, Yury AAtomic absorption spectrometry (AAS)min
35CadmiumCdmg/kgBogdanov, Yury AAtomic absorption spectrometry (AAS)max
36ChromiumCrmg/kgBogdanov, Yury AAtomic absorption spectrometry (AAS)
37ChromiumCrmg/kgBogdanov, Yury AAtomic absorption spectrometry (AAS)min
38ChromiumCrmg/kgBogdanov, Yury AAtomic absorption spectrometry (AAS)max
39LithiumLimg/kgBogdanov, Yury AAtomic absorption spectrometry (AAS)
40LithiumLimg/kgBogdanov, Yury AAtomic absorption spectrometry (AAS)min
41LithiumLimg/kgBogdanov, Yury AAtomic absorption spectrometry (AAS)max
42StrontiumSr%Bogdanov, Yury AAtomic absorption spectrometry (AAS)
43StrontiumSr%Bogdanov, Yury AAtomic absorption spectrometry (AAS)min
44StrontiumSr%Bogdanov, Yury AAtomic absorption spectrometry (AAS)max
45CalciumCa%Bogdanov, Yury AAtomic absorption spectrometry (AAS)
46CalciumCa%Bogdanov, Yury AAtomic absorption spectrometry (AAS)min
47CalciumCa%Bogdanov, Yury AAtomic absorption spectrometry (AAS)max
48MagnesiumMg%Bogdanov, Yury AAtomic absorption spectrometry (AAS)
49MagnesiumMg%Bogdanov, Yury AAtomic absorption spectrometry (AAS)min
50MagnesiumMg%Bogdanov, Yury AAtomic absorption spectrometry (AAS)max
51AluminiumAl%Bogdanov, Yury AX-ray fluorescence (XRF)
52AluminiumAl%Bogdanov, Yury AX-ray fluorescence (XRF)min
53AluminiumAl%Bogdanov, Yury AX-ray fluorescence (XRF)max
54TitaniumTi%Bogdanov, Yury AX-ray fluorescence (XRF)
55TitaniumTi%Bogdanov, Yury AX-ray fluorescence (XRF)min
56TitaniumTi%Bogdanov, Yury AX-ray fluorescence (XRF)max
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
143 data points

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