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Natland, James H; Adamson, Andrew C; Laverne, Christine; Melson, William G; O'Hearn, Timothy (1983): (Table 12) Geochemistry and minerals of clinopyroxenes at DSDP Hole 69-504B [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.817011, In supplement to: Natland, JH et al. (1983): A compositionally nearly steady-state magma chamber at the Costa Rica Rift: Evidence from basalt glass and mineral data, Deep Sea Drilling Project Sites 501, 504, and 505. In: Cann, JR; Langseth, MG; Honnorez, J; Von Herzen, RP; White, SM; et al. (eds.), Initial Reports of the Deep Sea Drilling Project (U.S. Govt. Printing Office), 69, 811-858, https://doi.org/10.2973/dsdp.proc.69.154.1983

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Project(s):
Deep Sea Drilling Project (DSDP)
Coverage:
Latitude: 1.227200 * Longitude: -83.730200
Date/Time Start: 1979-10-07T00:00:00 * Date/Time End: 1979-10-07T00:00:00
Minimum Elevation: -3460.0 m * Maximum Elevation: -3460.0 m
Event(s):
69-504B * Latitude: 1.227200 * Longitude: -83.730200 * Date/Time: 1979-10-07T00:00:00 * Elevation: -3460.0 m * Penetration: 489 m * Recovery: 262 m * Campaign: Leg69 * Basis: Glomar Challenger * Method/Device: Drilling/drill rig (DRILL)
Comment:
Structural formulae calculated on the basis of 6 oxygens.
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
Sample code/labelSample labelNatland, James HDSDP/ODP/IODP sample designation
PiecePieceNatland, James H
GroupGroupNatland, James Hsee reference(s)Glass group
IdentificationIDNatland, James H
DescriptionDescriptionNatland, James H
Silicon dioxideSiO2%Natland, James HElectron microprobe (EMP)
Titanium dioxideTiO2%Natland, James HElectron microprobe (EMP)
Aluminium oxideAl2O3%Natland, James HElectron microprobe (EMP)
Iron oxide, FeOFeO%Natland, James HElectron microprobe (EMP)Total iron
10 Magnesium oxideMgO%Natland, James HElectron microprobe (EMP)
11 Calcium oxideCaO%Natland, James HElectron microprobe (EMP)
12 Sodium oxideNa2O%Natland, James HElectron microprobe (EMP)
13 Potassium oxideK2O%Natland, James HElectron microprobe (EMP)
14 Manganese oxideMnO%Natland, James HElectron microprobe (EMP)
15 Nickel oxideNiO%Natland, James HElectron microprobe (EMP)
16 Chromium(III) oxideCr2O3%Natland, James HElectron microprobe (EMP)
17 TotalTotal%Natland, James HElectron microprobe (EMP)
18 SiliconSi# of ionsNatland, James HCalculated based on oxygen number
19 AluminiumAl# of ionsNatland, James HCalculated based on oxygen number#1
20 AluminiumAl# of ionsNatland, James HCalculated based on oxygen number#2
21 TitaniumTi# of ionsNatland, James HCalculated based on oxygen number
22 ChromiumCr# of ionsNatland, James HCalculated based on oxygen number
23 NickelNi# of ionsNatland, James HCalculated based on oxygen number
24 Iron 2+ and 3+Fe# of ionsNatland, James HCalculated based on oxygen number
25 ManganeseMn# of ionsNatland, James HCalculated based on oxygen number
26 MagnesiumMg# of ionsNatland, James HCalculated based on oxygen number
27 CalciumCa# of ionsNatland, James HCalculated based on oxygen number
28 SodiumNa# of ionsNatland, James HCalculated based on oxygen number
29 PotassiumK# of ionsNatland, James HCalculated based on oxygen number
30 WollastoniteWo%Natland, James HCIPW Norm
31 EnstatiteEn%Natland, James HCIPW Norm
32 FerrosiliteFs%Natland, James HCIPW Norm
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
704 data points

Data

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


Sample label
(DSDP/ODP/IODP sample designation)
Piece
Group
(Glass group, see reference(s))
ID
Description
SiO2 [%]
(Electron microprobe (EMP))
TiO2 [%]
(Electron microprobe (EMP))
Al2O3 [%]
(Electron microprobe (EMP))
FeO [%]
(Total iron, Electron micropro...)		10 
MgO [%]
(Electron microprobe (EMP))		11 
CaO [%]
(Electron microprobe (EMP))		12 
Na2O [%]
(Electron microprobe (EMP))		13 
K2O [%]
(Electron microprobe (EMP))		14 
MnO [%]
(Electron microprobe (EMP))		15 
NiO [%]
(Electron microprobe (EMP))		16 
Cr2O3 [%]
(Electron microprobe (EMP))		17 
Total [%]
(Electron microprobe (EMP))		18 
Si [# of ions]
(Calculated based on oxygen nu...)		19 
Al [# of ions]
(#1, Calculated based on oxyge...)		20 
Al [# of ions]
(#2, Calculated based on oxyge...)		21 
Ti [# of ions]
(Calculated based on oxygen nu...)		22 
Cr [# of ions]
(Calculated based on oxygen nu...)		23 
Ni [# of ions]
(Calculated based on oxygen nu...)		24 
Fe [# of ions]
(Calculated based on oxygen nu...)		25 
Mn [# of ions]
(Calculated based on oxygen nu...)		26 
Mg [# of ions]
(Calculated based on oxygen nu...)		27 
Ca [# of ions]
(Calculated based on oxygen nu...)		28 
Na [# of ions]
(Calculated based on oxygen nu...)		29 
K [# of ions]
(Calculated based on oxygen nu...)		30 
Wo [%]
(CIPW Norm)		31 
En [%]
(CIPW Norm)		32 
Fs [%]
(CIPW Norm)
69-504B-24-2, 58-621361G1Clinopyroxenes in gabbroic xenolith (Fig. 7A) enclosing Plagioclase (Analysis 12, Table 11)52.210.291.806.6819.3517.840.170.000.140.050.1498.671.9330.0670.0110.0080.0040.0010.2070.0041.0680.7080.0120.00035.753.910.0
69-504B-24-2, 58-621361G2Clinopyroxenes in gabbroic xenolith (Fig. 7A) enclosing Plagioclase (Analysis 12, Table 11)51.880.372.306.8818.4718.590.260.010.240.000.1199.121.9190.0810.0190.0100.0030.0000.2130.0081.0180.7370.019<0.00137.451.710.8
69-504B-24-2, 58-621361G3Rounded phenocryst similar to Figure 7E50.980.173.554.6918.2819.720.400.020.170.061.0299.201.8810.1190.0350.0050.0300.0020.1450.0051.0050.7800.0290.00140.452.07.6
69-504B-24-2, 58-621361G4Clinopyroxenes in large, rounded glomerocryst, enclosing Plagioclase (Analysis 15, Table 11)51.960.262.385.1318.4719.730.240.000.170.080.4598.881.9190.0810.0230.0070.0130.0020.1580.0051.0170.7810.0170.00039.952.08.1
69-504B-24-2, 58-621361G5Clinopyroxenes in large, rounded glomerocryst, enclosing Plagioclase (Analysis 15, Table 11)52.130.282.555.5918.9218.890.270.010.160.030.4499.301.9160.0840.0270.0080.0130.0010.1720.0051.0360.7440.019<0.00138.153.18.8
69-504B-24-2, 58-621361G6Clinopyroxenes in large, rounded glomerocryst, enclosing Plagioclase (Analysis 15, Table 11)51.540.302.565.1718.4319.820.220.010.180.080.3998.721.9090.0910.0210.0080.0110.0020.1600.0061.0170.7870.016<0.00140.151.88.2
69-504B-24-2, 58-621361G7Clinopyroxene in gabbroic xenolith (Fig. 7B), enclosing Plagioclase (Analysis 16, Table 11)51.950.332.936.7820.2215.910.260.010.270.050.2698.991.9090.0910.0360.0090.0080.0010.2080.0081.1080.6270.019<0.00132.357.010.7
69-504B-24-2, 58-621361G8Core, rim of partly rounded euhedral phenocryst; has Plagioclase (Analysis 17, Table 11) attached to rim51.210.293.334.4917.9220.270.270.020.070.041.1299.061.8990.1110.0340.0080.0330.0010.1390.0020.9850.8010.019<0.00141.651.27.2
69-504B-24-2, 58-621361G9Core, rim of partly rounded euhedral phenocryst; has Plagioclase (Analysis 17, Table 11) attached to rim51.330.293.094.4218.0120.370.230.000.180.121.0499.101.8940.1060.0280.0080.0300.0040.1360.0060.9900.8050.0160.00041.751.37.0
69-504B-24-2, 58-621361G10Small, rounded phenocryst in groundmass. Next to Plagioclase (Analysis 19, Table 11)51.660.292.664.8118.5419.750.240.030.120.060.5098.671.9100.0900.0260.0080.0150.0020.1490.0041.0220.7830.0170.00140.052.37.6
69-504B-24-2, 58-621361G11Large, rounded phenocryst50.630.373.325.0618.0019.580.300.020.160.040.7898.251.8850.1150.0310.0100.0230.0010.1580.0050.9990.7810.0220.00140.451.58.1
69-504B-23-1,115-1161326G12Large euhedral phenocryst, not rounded, has small tabular Plagioclase (Analysis 23, Table 11) intergrown on one edge50.970.283.314.5918.1718.620.320.000.150.101.1197.631.9000.1000.0460.0080.0330.0030.1430.0051.0100.7440.0230.00039.253.37.5
69-504B-23-1,115-1161326G13Small, slightly rounded phenocryst, with tabular Plagioclase (Analysis 24, Table 11) attached at one end50.940.223.094.3117.9119.980.350.010.100.041.0998.041.8970.1030.0330.0060.0320.0010.1340.0030.9940.7970.025<0.00141.451.67.0
69-504B-23-1,115-1161326G14Large, slightly rounded phenocryst (Fig. 7C) enclosing Plagioclase (Analysis 27, Table 11)51.520.252.254.5818.5119.700.300.000.150.030.7498.041.9170.0830.0160.0070.0220.0010.1430.0051.0270.7860.0220.00040.252.57.3
69-504B-23-1,115-1161326G15Rounded, cigar-shaped phenocryst50.930.323.604.8818.1819.310.160.000.150.071.1298.761.8830.1170.0400.0090.0330.0020.1510.0051.0020.7650.0110.00039.952.37.9
69-504B-23-1,115-1161326G16Small, angular xenocryst50.410.371.9513.0615.6116.180.200.000.340.000.0798.201.9270.0730.0150.0110.0020.0000.4180.0110.8900.6630.0150.00033.645.221.2
69-504B-23-1,115-1161326G17Small, angular xenocryst50.910.252.854.4017.8820.050.200.000.110.050.8397.511.9050.9500.3100.0070.0250.0020.1380.0030.9970.8040.0150.00041.451.47.1
69-504B-23-1,115-1161326G18Core (18) of small angular phenocryst50.860.283.264.9218.0819.470.120.020.120.050.7998.011.8950.1050.0380.0080.0230.0010.1530.0041.0040.7770.0090.00140.251.97.9
69-504B-23-1,115-1161326G19Rim of small angular phenocryst50.670.383.265.1017.5919.640.440.000.140.030.8898.141.8900.1100.0330.0110.0260.0010.1590.0040.9780.7850.0320.00040.950.98.3
69-504B-23-1,115-1161326G20Small phenocryst50.240.453.885.2217.5219.440.320.000.130.050.9098.151.8470.1530.0180.0130.0270.0020.1630.0040.9740.7770.0230.00040.650.98.5
69-504B-23-1,115-1161326G21Core (21), rim (22) of small, slightly rounded phenocryst50.920.303.324.6017.8219.810.270.010.130.051.0598.271.8920.1080.0370.0080.0310.0010.1430.0040.9870.7890.019<0.00141.151.47.4
69-504B-23-1,115-1161326G22Core (21), rim (22) of small, slightly rounded phenocryst48.360.5911.155.4616.6017.750.340.010.170.050.18100.671.7440.2560.2180.0160.0050.0010.1650.0050.8920.6860.024<0.00139.451.29.4