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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 T36) Chemical composition of basalts from ODP Holes 801B and 801C, Leg 129 (Pigafetta Basin, Pacific Ocean) [dataset]. Russian Academy of Sciences, PANGAEA, https://doi.org/10.1594/PANGAEA.728959, 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):
Ocean Drilling Program (ODP)
Coverage:
Median Latitude: 18.642150 * Median Longitude: 156.359750 * South-bound Latitude: 18.642000 * West-bound Longitude: 156.359700 * North-bound Latitude: 18.642300 * East-bound Longitude: 156.359800
Date/Time Start: 1989-12-09T17:00:00 * Date/Time End: 1990-01-16T07:15:00
Minimum DEPTH, sediment/rock: 477.19 m * Maximum DEPTH, sediment/rock: 569.55 m
Event(s):
129-801B  * Latitude: 18.642000 * Longitude: 156.359700 * Date/Time Start: 1989-12-09T17:00:00 * Date/Time End: 1989-12-17T01:15:00 * Elevation: -5685.0 m * Penetration: 511.2 m * Recovery: 59.17 m * Location: North Pacific Ocean * Campaign: Leg129 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 44 cores; 317.2 m cored; 0 m drilled; 18.7 % recovery
129-801C  * Latitude: 18.642300 * Longitude: 156.359800 * Date/Time Start: 1990-01-06T11:48:00 * Date/Time End: 1990-01-16T07:15:00 * Elevation: -5685.0 m * Penetration: 594.3 m * Recovery: 60.6 m * Location: North Pacific Ocean * Campaign: Leg129 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 12 cores; 100.6 m cored; 0 m drilled; 60.2 % recovery
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
Event labelEvent
Latitude of eventLatitude
Longitude of eventLongitude
Elevation of eventElevationm
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
Lithologic unit/sequenceUnitKurnosov, Victor B
10 Silicon dioxideSiO2%Kurnosov, Victor BWet chemistry
11 Titanium dioxideTiO2%Kurnosov, Victor BWet chemistry
12 Aluminium oxideAl2O3%Kurnosov, Victor BWet chemistry
13 Iron oxide, Fe2O3Fe2O3%Kurnosov, Victor BWet chemistry
14 Iron oxide, FeOFeO%Kurnosov, Victor BWet chemistry
15 Manganese oxideMnO%Kurnosov, Victor BWet chemistry
16 Magnesium oxideMgO%Kurnosov, Victor BWet chemistry
17 Calcium oxideCaO%Kurnosov, Victor BWet chemistry
18 Sodium oxideNa2O%Kurnosov, Victor BWet chemistry
19 Potassium oxideK2O%Kurnosov, Victor BWet chemistry
20 Phosphorus pentoxideP2O5%Kurnosov, Victor BWet chemistry
21 Loss on ignitionLOI%Kurnosov, Victor BLoss of ignition analysis
22 SumSum%Kurnosov, Victor BCalculated
23 Water in rockH2O%Kurnosov, Victor BWet chemistryH2O+, structural part, similar to LOI
24 Water in rockH2O%Kurnosov, Victor BWet chemistryH2O-
25 Carbon dioxideCO2%Kurnosov, Victor BWet chemistry
26 Iron oxide, Fe2O3/Iron oxide, FeO ratioFe2O3/FeOKurnosov, Victor BCalculated
27 DensityDensityg/cm3Kurnosov, Victor BWeighted
28 LanthanumLamg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
29 CeriumCemg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
30 PraseodymiumPrmg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
31 NeodymiumNdmg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
32 SamariumSmmg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
33 EuropiumEumg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
34 GadoliniumGdmg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
35 TerbiumTbmg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
36 DysprosiumDymg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
37 HolmiumHomg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
38 ErbiumErmg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
39 YtterbiumYbmg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
40 LutetiumLumg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
41 ChromiumCrmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
42 NickelNimg/kgKurnosov, Victor BX-ray fluorescence (XRF)
43 CobaltComg/kgKurnosov, Victor BX-ray fluorescence (XRF)
44 VanadiumVmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
45 CopperCumg/kgKurnosov, Victor BX-ray fluorescence (XRF)
46 LeadPbmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
47 ZincZnmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
48 TinSnmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
49 ZirconiumZrmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
50 YttriumYmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
51 NiobiumNbmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
52 RubidiumRbmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
53 StrontiumSrmg/kgKurnosov, Victor BX-ray fluorescence (XRF)
54 BariumBamg/kgKurnosov, Victor BX-ray fluorescence (XRF)
55 ThoriumThmg/kgKurnosov, Victor BRadiochemical neutron activation analysis (RNAA)
56 CommentCommentKurnosov, Victor B
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
1031 data points

Data

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


Event
Latitude
Longitude
Elevation [m]
Sample label
(DSDP/ODP/IODP sample designation)
Piece
Lab no
Depth sed [m]
Unit		10 
SiO2 [%]
(Wet chemistry)		11 
TiO2 [%]
(Wet chemistry)		12 
Al2O3 [%]
(Wet chemistry)		13 
Fe2O3 [%]
(Wet chemistry)		14 
FeO [%]
(Wet chemistry)		15 
MnO [%]
(Wet chemistry)		16 
MgO [%]
(Wet chemistry)		17 
CaO [%]
(Wet chemistry)		18 
Na2O [%]
(Wet chemistry)		19 
K2O [%]
(Wet chemistry)		20 
P2O5 [%]
(Wet chemistry)		21 
LOI [%]
(Loss of ignition analysis)		22 
Sum [%]
(Calculated)		23 
H2O [%]
(H2O+, structural part, simila...)		24 
H2O [%]
(H2O-, Wet chemistry)		25 
CO2 [%]
(Wet chemistry)		26 
Fe2O3/FeO
(Calculated)		27 
Density [g/cm3]
(Weighted)		28 
La [mg/kg]
(Radiochemical neutron activat...)		29 
Ce [mg/kg]
(Radiochemical neutron activat...)		30 
Pr [mg/kg]
(Radiochemical neutron activat...)		31 
Nd [mg/kg]
(Radiochemical neutron activat...)		32 
Sm [mg/kg]
(Radiochemical neutron activat...)		33 
Eu [mg/kg]
(Radiochemical neutron activat...)		34 
Gd [mg/kg]
(Radiochemical neutron activat...)		35 
Tb [mg/kg]
(Radiochemical neutron activat...)		36 
Dy [mg/kg]
(Radiochemical neutron activat...)		37 
Ho [mg/kg]
(Radiochemical neutron activat...)		38 
Er [mg/kg]
(Radiochemical neutron activat...)		39 
Yb [mg/kg]
(Radiochemical neutron activat...)		40 
Lu [mg/kg]
(Radiochemical neutron activat...)		41 
Cr [mg/kg]
(X-ray fluorescence (XRF))		42 
Ni [mg/kg]
(X-ray fluorescence (XRF))		43 
Co [mg/kg]
(X-ray fluorescence (XRF))		44 
V [mg/kg]
(X-ray fluorescence (XRF))		45 
Cu [mg/kg]
(X-ray fluorescence (XRF))		46 
Pb [mg/kg]
(X-ray fluorescence (XRF))		47 
Zn [mg/kg]
(X-ray fluorescence (XRF))		48 
Sn [mg/kg]
(X-ray fluorescence (XRF))		49 
Zr [mg/kg]
(X-ray fluorescence (XRF))		50 
Y [mg/kg]
(X-ray fluorescence (XRF))		51 
Nb [mg/kg]
(X-ray fluorescence (XRF))		52 
Rb [mg/kg]
(X-ray fluorescence (XRF))		53 
Sr [mg/kg]
(X-ray fluorescence (XRF))		54 
Ba [mg/kg]
(X-ray fluorescence (XRF))		55 
Th [mg/kg]
(Radiochemical neutron activat...)		56 
Comment
129-801B 18.6420156.3597-5685129-801B-40R-1,29-335Z-776477.19B453.203.5818.965.540.770.082.871.882.765.840.674.11100.263.770.247.192.4836.0074.0036.007.902.3001.2002.000.280896619820174208.027.051.088.0134.0406data of Floyd and Castillo (1992), doi:10.2973/odp.proc.sr.129.129.1992; except for REE
129-801B18.6420156.3597-5685129-801B-41R-1,26-313Z-777483.26B545.773.3116.034.764.720.145.208.253.812.140.625.0899.832.002.831.012.6230.5063.8031.007.282.3201.0302.310.315734626744390272.032.048.039.0518.0414data of Floyd and Castillo (1992), doi:10.2973/odp.proc.sr.129.129.1992
129-801B18.6420156.3597-5685129-801B-41R-1,130-1363Z-778484.30B546.083.2415.804.285.790.154.867.643.712.610.614.7199.481.553.000.742.6536.3074.1635.477.412.4707.236.401.143.112.600.4406145275441090285.032.049.052.0512.0422same
129-801B18.6420156.3597-5685129-801B-42R-1,87-915BZ-779488.47B646.503.0117.235.044.310.146.268.263.491.970.563.34100.112.320.971.172.6729.0048.0027.006.601.9000.9202.100.3401347223042279246.029.044.040.0548.0365data of Floyd and Castillo (1992), doi:10.2973/odp.proc.sr.129.129.1992; except for REE
129-801B18.6420156.3597-5685129-801B-43R-2,10-151BZ-780493.67B744.882.6814.464.866.200.169.016.743.351.790.505.2299.852.912.020.782.6036.0072.0038.008.802.3001.2003.000.48024424120233893227.027.040.039.0413.0483same
129-801B18.6420156.3597-5685129-801B-43R-3,126-12917Z-781496.24B942.822.8515.403.203.840.493.319.012.894.550.5211.63100.512.308.690.832.45786421236972218.031.040.058.0243.0413data of Floyd and Castillo (1992), doi:10.2973/odp.proc.sr.129.129.1992
129-801B18.6420156.3597-5685129-801B-43R-4,32-404AZ-782496.80B1145.223.3817.325.205.200.204.096.244.612.340.683.84100.323.262.361.002.5210267258405146246.032.040.044.0404.0547same
129-801B18.6420156.3597-5685129-801B-44R-1,107-1132EZ-783502.77B1248.133.2617.724.323.220.183.054.353.124.570.576.9699.453.343.241.342.4827.0056.6025.006.182.0600.88212310728435187214.027.042.063.0250.0437same
129-801B18.6420156.3597-5685129-801B-44R-2,27-324AZ-784503.42B1351.423.2717.703.753.270.133.033.563.205.670.554.4099.952.062.201.152.5631.8466.477.6832.406.972.3106.966.141.082.992.520.4001309325342869254.031.044.067.0311.0531same
129-801B18.6420156.3597-5685129-801B-44R-3,28-332Z-785504.91B1447.653.1617.224.185.040.144.217.244.082.310.573.6399.431.402.050.832.4328.9060.6033.007.092.3301.0902.600.3829259243361083268.033.044.046.0528.0396same
129-801C 18.6423156.3598-5685129-801C-1R-1,109-1142GZ-786494.79C144.922.8014.723.626.400.159.586.463.451.750.605.3099.753.771.150.572.5227.4057.5030.006.372.0500.9002.050.29915419724140186242.027.041.040.0363.0427same
129-801C18.6423156.3598-5685129-801C-1R-2,11-171AZ-787495.06C145.172.8114.874.106.300.159.346.343.631.820.535.03100.093.441.370.652.6733.0064.0034.007.402.1001.2002.200.37016021220540385239.028.042.041.0360.0493data of Floyd and Castillo (1992), doi:10.2973/odp.proc.sr.129.129.1992; except for REE
129-801C18.6423156.3598-5685129-801C-2R-1,1-61AZ-788503.01C351.993.3417.943.633.010.132.622.352.536.400.604.7599.292.921.721.212.4330.0092.0042.007.002.0001.1002.200.25013111925437254258.035.045.066.0160.0500data of Floyd and Castillo (1992), doi:10.2973/odp.proc.sr.129.129.1992
129-801C18.6423156.3598-5685129-801C-2R-5,101-1062Z-789509.50C646.003.1316.813.996.080.166.166.783.672.200.534.62100.131.772.700.662.6228.0077.0041.006.801.9000.9902.600.350845624144178255.031.040.042.0499.0412same
129-801C18.6423156.3598-5685129-801C-3R-1,42-482CZ-790512.63C752.833.5318.775.091.000.053.321.942.285.680.624.5899.694.000.415.092.0433.0075.0036.007.402.3001.1002.600.4401559928455185248.032.046.071.0112.0427data of Floyd and Castillo (1992), doi:10.2973/odp.proc.sr.129.129.1992; except for REE
129-801C18.6423156.3598-5685129-801C-4R-1,18-214Z-7911521.88C888.060.030.149.260.290.020.40<0.100.110.100.021.64100.071.24<0.10<0.2031.932.360.470.90<0.500.090.0320.0200.060.0111924146526713.71.0<1.01.73.55
129-801C18.6423156.3598-5685129-801C-4R-2,111-11413Z-7921524.18C887.340.020.669.500.220.020.240.110.060.040.021.86100.091.58<0.10<0.2043.182.460.610.90<0.500.100.0280.0200.060.0102025145526525.41.5<1.02.03.44
129-801C18.6423156.3598-5685129-801C-5R-1,45-522CZ-793531.65C942.691.1720.432.271.050.103.3115.863.090.890.029.15100.032.026.452.162.651.736.808.002.521.0200.6202.240.322334962768115274.027.02.013.0160.022data of Floyd and Castillo (1992), doi:10.2973/odp.proc.sr.129.129.1992
129-801C18.6423156.3598-5685129-801C-5R-2,12-171AZ-794532.58C948.101.0215.756.491.290.183.459.311.994.390.018.44100.422.535.175.032.512.006.607.803.301.3000.8802.000.330288731458726464.019.04.077.0123.047data of Floyd and Castillo (1992), doi:10.2973/odp.proc.sr.129.129.1992; except for REE
129-801C18.6423156.3598-5685129-801C-5R-3,98-1004BZ-795534.75C1051.301.2521.004.400.930.042.229.662.720.810.126.59101.042.321.402.874.732.421.204.304.802.000.8300.6802.200.32030749202521356672.024.02.17.3210.03
129-801C18.6423156.3598-5685129-801C-5R-5,55-583CZ-796537.24C1347.510.8015.342.196.400.179.9611.602.100.040.053.4499.600.590.831.980.342.915101705921082<5782.148.021.0<1.01.2100.013
129-801C18.6423156.3598-5685129-801C-7R-1,53-584CZ-797550.63C2148.261.9313.233.509.120.206.9611.162.680.080.162.5899.860.591.310.382.815.3715.132.3613.364.241.4906.037.481.484.394.360.7401407141681598119.044.05.01.0114.032data of Floyd and Castillo (1992), doi:10.2973/odp.proc.sr.129.129.1992
129-801C18.6423156.3598-5685129-801C-7R-3,38-411EZ-798553.36C2346.652.0213.974.406.150.156.4911.392.860.060.155.4599.740.761.522.820.722.713.4810.782.0610.653.441.3305.206.381.273.833.690.620170665752066<51202.5110.038.03.8<1.0130.013<1
129-801C18.6423156.3598-5685129-801C-8R-1,9-122CZ-799559.59C2345.911.9813.242.207.540.225.3412.282.810.190.187.9899.871.611.085.240.292.80170625044247<51502.5110.041.02.33.1120.0<3<1
129-801C18.6423156.3598-5685129-801C-10R-1,55-601GZ-800569.55C2549.441.6214.023.828.150.187.2811.952.560.060.061.09100.230.550.280.472.94175703657568597.038.05.01.0113.014data of Floyd and Castillo (1992), doi:10.2973/odp.proc.sr.129.129.1992