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Kodolányi, János; Pettke, Thomas; Spandler, Carl; Kamber, Balz S; Gméling, Katalin (2012): (Appendix 4) Average major element composition of spinel of serpentinized DSDP and ODP peridotites [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.779546, In supplement to: Kodolányi, J et al. (2012): Geochemistry of ocean floor and fore-arc serpentinites: Constraints on the ultramafic input to subduction zones. Journal of Petrology, 53(2), 235-270, https://doi.org/10.1093/petrology/egr058

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Published: 2012-04-18DOI registered: 2012-05-16

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Project(s):
Deep Sea Drilling Project (DSDP)
Ocean Drilling Program (ODP)
Coverage:
Median Latitude: 17.589614 * Median Longitude: -79.260714 * South-bound Latitude: 2.277300 * West-bound Longitude: 146.003100 * North-bound Latitude: 45.196660 * East-bound Longitude: -12.723830
Date/Time Start: 1982-01-24T00:00:00 * Date/Time End: 2003-09-04T13:30:00
Minimum DEPTH, sediment/rock: 13.65 m * Maximum DEPTH, sediment/rock: 687.25 m
Event(s):
84-566C * Latitude: 12.814000 * Longitude: -90.692200 * Date/Time: 1982-01-24T00:00:00 * Elevation: -3661.0 m * Penetration: 136.6 m * Recovery: 5.3 m * Location: North Pacific Ocean * Campaign: Leg84 * Basis: Glomar Challenger * Method/Device: Drilling/drill rig (DRILL) * Comment: 5 cores; 46.7 m cored; 19.1 m drilled; 11.4 % recovery
84-570 * Latitude: 13.285300 * Longitude: -91.392800 * Date/Time: 1982-02-17T00:00:00 * Elevation: -1698.0 m * Penetration: 401.9 m * Recovery: 164.5 m * Location: North Pacific/SLOPE * Campaign: Leg84 * Basis: Glomar Challenger * Method/Device: Drilling/drill rig (DRILL) * Comment: 40 cores; 382.6 m cored; 19.3 m drilled; 43 % recovery
147-895D * Latitude: 2.277300 * Longitude: -101.446000 * Date/Time Start: 1993-01-03T01:30:00 * Date/Time End: 1993-01-08T08:00:00 * Elevation: -3832.0 m * Penetration: 93.7 m * Recovery: 19.08 m * Location: North Pacific Ocean * Campaign: Leg147 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 9 cores; 93.7 m cored; 0 m drilled; 20.4 % recovery
Comment:
Sediment depth is given in mbsf. Standard deviation relative to the average in %. Cation numbers on the basis of 4 O.
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1Event labelEvent
2Sample code/labelSample labelKodolányi, JánosDSDP/ODP/IODP sample designation
3PiecePieceKodolányi, János
4Sample code/label 2Sample label 2Kodolányi, János
5DEPTH, sediment/rockDepth sedmGeocode
6Depth, top/minDepth topmKodolányi, János
7Depth, bottom/maxDepth botmKodolányi, János
8Area/localityAreaKodolányi, János
9CodeCodeKodolányi, Jánosgrain code (contains a capital letter) identifies the grain for which average composition is presented below the code (except exsolution lamellae); in case of exsolution lamellae the code of the analyses (no letters in the code) is presented instead of a grain code
10TextureTextureKodolányi, Jánosisometric sub to euhedral crystals, if nothing else is indicated
11Sample amountN#Kodolányi, Jánosnumber of individual analyses per grain
12Titanium dioxideTiO2%Kodolányi, JánosElectron microprobe (EMP)
13Titanium dioxide, standard deviationTiO2 std dev±Kodolányi, JánosElectron microprobe (EMP)
14Aluminium oxideAl2O3%Kodolányi, JánosElectron microprobe (EMP)
15Aluminium oxide, standard deviationAl2O3 std dev±Kodolányi, JánosElectron microprobe (EMP)
16Chromium(III) oxideCr2O3%Kodolányi, JánosElectron microprobe (EMP)
17Chromium(III) oxide, standard deviationCr2O3 std dev±Kodolányi, JánosElectron microprobe (EMP)
18Vanadium oxideV2O5%Kodolányi, JánosElectron microprobe (EMP)
19Vanadium oxide, standard deviationV2O5 std dev±Kodolányi, JánosElectron microprobe (EMP)
20Iron oxide, FeOFeO%Kodolányi, JánosElectron microprobe (EMP)
21Iron oxide, FeO, standard deviationFeO std dev±Kodolányi, JánosElectron microprobe (EMP)
22Manganese oxideMnO%Kodolányi, JánosElectron microprobe (EMP)
23Manganese oxide, standard deviationMnO std dev±Kodolányi, JánosElectron microprobe (EMP)
24Nickel oxideNiO%Kodolányi, JánosElectron microprobe (EMP)
25Nickel oxide, standard deviationNiO std dev±Kodolányi, JánosElectron microprobe (EMP)
26Magnesium oxideMgO%Kodolányi, JánosElectron microprobe (EMP)
27Magnesium oxide, standard deviationMgO std dev±Kodolányi, JánosElectron microprobe (EMP)
28Elements, totalTotal%Kodolányi, JánosElectron microprobe (EMP)
29Standard deviationStd dev±Kodolányi, JánosElectron microprobe (EMP)elements, total
30Elements, totalTotal%Kodolányi, JánosCalculatedwith FeO and Fe2O3
31Standard deviationStd dev±Kodolányi, JánosCalculatedelements, total, with FeO and Fe2O3
32Iron oxide, FeOFeO%Kodolányi, JánosCalculatedestimated assuming that the sum of cations is 3
33Iron oxide, FeO, standard deviationFeO std dev±Kodolányi, JánosCalculatedestimated assuming that the sum of cations is 3
34Iron oxide, Fe2O3Fe2O3%Kodolányi, JánosCalculatedestimated assuming that the sum of cations is 3
35Iron oxide, Fe2O3, standard deviationFe2O3 std dev±Kodolányi, JánosCalculatedestimated assuming that the sum of cations is 3
36TitaniumTi# of ionsKodolányi, JánosCalculated based on oxygen number
37Titanium, standard deviationTi std dev±Kodolányi, JánosCalculated based on oxygen number
38AluminiumAl# of ionsKodolányi, JánosCalculated based on oxygen number
39Aluminium, standard deviationAl std dev±Kodolányi, JánosCalculated based on oxygen number
40ChromiumCr# of ionsKodolányi, JánosCalculated based on oxygen number
41Chromium, standard deviationCr std dev±Kodolányi, JánosCalculated based on oxygen number
42VanadiumV# of ionsKodolányi, JánosCalculated based on oxygen number
43Vanadium, standard deviationV std dev±Kodolányi, JánosCalculated based on oxygen number
44Iron 3+Fe3+# of ionsKodolányi, JánosCalculated based on oxygen number
45Iron, standard deviationFe std dev±Kodolányi, JánosCalculated based on oxygen numberFe3+, estimated assuming that the sum of cations is 3
46Iron 2+Fe2+# of ionsKodolányi, JánosCalculated based on oxygen number
47Iron, standard deviationFe std dev±Kodolányi, JánosCalculated based on oxygen numberFe2+, estimated assuming that the sum of cations is 3
48ManganeseMn# of ionsKodolányi, JánosCalculated based on oxygen number
49Manganese, standard deviationMn std dev±Kodolányi, JánosCalculated based on oxygen number
50NickelNi# of ionsKodolányi, JánosCalculated based on oxygen number
51Nickel, standard deviationNi std dev±Kodolányi, JánosCalculated based on oxygen number
52MagnesiumMg# of ionsKodolányi, JánosCalculated based on oxygen number
53Magnesium, standard deviationMg std dev±Kodolányi, JánosCalculated based on oxygen number
54SumSum#Kodolányi, JánosCalculated based on oxygen number
55Iron 2+/Iron 3+ ratioFe2+/Fe3+Kodolányi, János
56Standard deviationStd dev±Kodolányi, JánosFe2+/Fe3+
57Magnesium numberMg#Kodolányi, JánosMg# = 100 * [Mg/(Mg+Fetotal)]molar
58Magnesium number, standard deviationMg# std dev±Kodolányi, JánosMg# = 100 * [Mg/(Mg+Fetotal)]molar
59Chromium numberCr#Kodolányi, János
60Chromium number, standard deviationCr/(Cr+Al) std dev±Kodolányi, János
61Degree of meltingDeg melting%Kodolányi, JánosCalculatedusing the equotion of Hellebrand et al. (2001; doi:10.1038/35070546)
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
2537 data points

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