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Kurnosov, Victor B; Zolotarev, Boris P; Artamonov, Andrey V; Lyapunov, Sergey M; Kashintsev, Georgy L; Chudaev, Oleg V; Sokolova, Alla L; Garanina, Svetlana A (2008): (Table T29) Chemical composition of basalts from Hole 469, Leg 63 (Baja California, Pacific Ocean) [dataset]. Russian Academy of Sciences, PANGAEA, https://doi.org/10.1594/PANGAEA.728926, In supplement to: Kurnosov, VB et al. (2008): Alteration effects in the upper oceanic crust - data and comments (Technical Note). Geological Institute of the Russian Academy of Sciences, Transactions, vol. 581. Nauka Publ. (Moscow); Leonov, M.G. (Ed.), 1046 pp

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Project(s):
Deep Sea Drilling Project (DSDP)
Coverage:
Latitude: 32.616700 * Longitude: -120.548300
Date/Time Start: 1978-10-27T00:00:00 * Date/Time End: 1978-10-27T00:00:00
Minimum DEPTH, sediment/rock: 368.80 m * Maximum DEPTH, sediment/rock: 450.34 m
Event(s):
63-469 * Latitude: 32.616700 * Longitude: -120.548300 * Date/Time: 1978-10-27T00:00:00 * Elevation: -3790.0 m * Penetration: 453.5 m * Recovery: 170.2 m * Location: North Pacific/ESCARPMENT * Campaign: Leg63 * Basis: Glomar Challenger * Method/Device: Drilling/drill rig (DRILL) * Comment: 49 cores; 436.5 m cored; 9.5 m drilled; 39 % recovery
Comment:
Major element data from Grechin et al. (1981), doi:10.2973/dsdp.proc.63.127.1981
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
Sample code/labelSample labelKurnosov, Victor BDSDP/ODP/IODP sample designation
PiecePieceKurnosov, Victor B
Sample, optional label/labor noLab noKurnosov, Victor B
DEPTH, sediment/rockDepth sedmGeocode
Silicon dioxideSiO2%Kurnosov, Victor BWet chemistry
Titanium dioxideTiO2%Kurnosov, Victor BWet chemistry
Aluminium oxideAl2O3%Kurnosov, Victor BWet chemistry
Iron oxide, Fe2O3Fe2O3%Kurnosov, Victor BWet chemistry
Iron oxide, FeOFeO%Kurnosov, Victor BWet chemistry
10 Manganese oxideMnO%Kurnosov, Victor BWet chemistry
11 Magnesium oxideMgO%Kurnosov, Victor BWet chemistry
12 Calcium oxideCaO%Kurnosov, Victor BWet chemistry
13 Sodium oxideNa2O%Kurnosov, Victor BWet chemistry
14 Potassium oxideK2O%Kurnosov, Victor BWet chemistry
15 Phosphorus pentoxideP2O5%Kurnosov, Victor BWet chemistry
16 Water in rockH2O%Kurnosov, Victor BWet chemistryH2O+, structural part, similar to LOI
17 Water in rockH2O%Kurnosov, Victor BWet chemistryH2O-
18 Carbon dioxideCO2%Kurnosov, Victor BWet chemistry
19 SumSum%Kurnosov, Victor BCalculated
20 Iron oxide, Fe2O3/Iron oxide, FeO ratioFe2O3/FeOKurnosov, Victor BCalculated
21 DensityDensityg/cm3Kurnosov, Victor BWeighted
22 CommentCommentKurnosov, Victor B
23 LanthanumLamg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
24 CeriumCemg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
25 NeodymiumNdmg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
26 SamariumSmmg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
27 EuropiumEumg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
28 TerbiumTbmg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
29 YtterbiumYbmg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
30 LutetiumLumg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
31 ChromiumCrmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
32 NickelNimg/kgKurnosov, Victor BX-ray fluorescence (XRF)
33 CobaltComg/kgKurnosov, Victor BX-ray fluorescence (XRF)
34 VanadiumVmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
35 CopperCumg/kgKurnosov, Victor BX-ray fluorescence (XRF)
36 ZincZnmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
37 ZirconiumZrmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
38 YttriumYmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
39 NiobiumNbmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
40 RubidiumRbmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
41 StrontiumSrmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
42 BariumBamg/kgKurnosov, Victor BX-ray fluorescence (XRF)
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
350 data points

Data

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


Sample label
(DSDP/ODP/IODP sample designation)
Piece
Lab no
Depth sed [m]
SiO2 [%]
(Wet chemistry)
TiO2 [%]
(Wet chemistry)
Al2O3 [%]
(Wet chemistry)
Fe2O3 [%]
(Wet chemistry)
FeO [%]
(Wet chemistry)		10 
MnO [%]
(Wet chemistry)		11 
MgO [%]
(Wet chemistry)		12 
CaO [%]
(Wet chemistry)		13 
Na2O [%]
(Wet chemistry)		14 
K2O [%]
(Wet chemistry)		15 
P2O5 [%]
(Wet chemistry)		16 
H2O [%]
(H2O+, structural part, simila...)		17 
H2O [%]
(H2O-, Wet chemistry)		18 
CO2 [%]
(Wet chemistry)		19 
Sum [%]
(Calculated)		20 
Fe2O3/FeO
(Calculated)		21 
Density [g/cm3]
(Weighted)		22 
Comment		23 
La [mg/kg]
(Radiochemical neutron activat...)		24 
Ce [mg/kg]
(Radiochemical neutron activat...)		25 
Nd [mg/kg]
(Radiochemical neutron activat...)		26 
Sm [mg/kg]
(Radiochemical neutron activat...)		27 
Eu [mg/kg]
(Radiochemical neutron activat...)		28 
Tb [mg/kg]
(Radiochemical neutron activat...)		29 
Yb [mg/kg]
(Radiochemical neutron activat...)		30 
Lu [mg/kg]
(Radiochemical neutron activat...)		31 
Cr [mg/kg]
(X-ray fluorescence (XRF))		32 
Ni [mg/kg]
(X-ray fluorescence (XRF))		33 
Co [mg/kg]
(X-ray fluorescence (XRF))		34 
V [mg/kg]
(X-ray fluorescence (XRF))		35 
Cu [mg/kg]
(X-ray fluorescence (XRF))		36 
Zn [mg/kg]
(X-ray fluorescence (XRF))		37 
Zr [mg/kg]
(X-ray fluorescence (XRF))		38 
Y [mg/kg]
(X-ray fluorescence (XRF))		39 
Nb [mg/kg]
(X-ray fluorescence (XRF))		40 
Rb [mg/kg]
(X-ray fluorescence (XRF))		41 
Sr [mg/kg]
(X-ray fluorescence (XRF))		42 
Ba [mg/kg]
(X-ray fluorescence (XRF))
63-469-40R-1,30-321AZ-1229368.8050.561.2315.835.222.820.217.475.823.383.150.111.041.881.0599.771.852.417density from Grechin et al. (1981), doi:10.2973/dsdp.proc.63.127.19819.123154.11.40.822.30.417833462452980130274.526.0170330
63-469-41R-1,7-101AZ-1723371.5751.791.2616.314.783.860.106.918.053.720.551.141.061.79101.321.242.504density from Grechin et al. (1981), doi:10.2973/dsdp.proc.63.127.19816533402222185130274.77.3230270
63-469-42R-1,117-1201DZ-1230379.1752.751.3116.225.852.680.126.678.603.890.360.180.470.98100.082.182.66066344622037123130254.518.0220280
63-469-42R-5,112-1151CZ-1231385.1250.881.2016.365.124.560.127.316.883.721.050.171.241.60100.211.122.362density from Grechin et al. (1981), doi:10.2973/dsdp.proc.63.127.1981102534648266135110433.37.5110110
63-469-44R-1,3-81BZ-1232396.0346.861.8813.919.114.670.217.349.752.870.370.180.541.751.10100.541.962.703density from Grechin et al. (1981), doi:10.2973/dsdp.proc.63.127.1981142566054766116140393.314.011092
63-469-46R-1,134-13811Z-1233411.3447.092.1914.6912.673.160.145.686.713.200.960.261.432.19100.374.012.560
63-469-47R-3,86-924Z-1724417.8647.742.1013.529.995.050.226.479.472.700.490.140.741.3699.991.982.781density from Grechin et al. (1981), doi:10.2973/dsdp.proc.63.127.1981
63-469-48R-1,22-28Glass 1DZ-1234423.2246.101.889.249.583.580.0313.841.162.200.610.034.227.4999.960.1615030303774958110272.25.26795
63-469-48R-1,49-53Glass 5AZ-1235423.4944.601.6613.069.993.170.079.201.312.370.870.084.139.2499.753.152.820142544837762112110422.61.99835
63-469-49R-1,84-888AZ-1236432.8448.341.9215.617.634.030.207.539.203.040.370.160.291.72100.041.892.89052505136553121105451.75.910071
63-469-50R-2,27-323AZ-1237441.7747.261.7713.616.377.180.217.969.452.340.410.161.002.29100.010.892.740565253370457983471.91.89110
63-469-51R-1,34-403Z-1238450.3447.531.4212.917.864.490.1610.674.793.150.540.181.594.4199.601.752.170