/* DATA DESCRIPTION:
Citation:	McNeill, Andrew W (1995): (Table 5) Representative plagioclase compositions of PCO-phyric chilled margins of ODP Hole 140-504B [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.805704, 
	In supplement to: McNeill, AW (1995): Petrology of chilled dike margins recovered from Hole 504B, Leg 140. In: Erzinger, J; Becker, K; Dick, HJB; Stokking, LB (eds.), Proceedings of the Ocean Drilling Program, Scientific Results, College Station, TX (Ocean Drilling Program), 137, 35-42, https://doi.org/10.2973/odp.proc.sr.137140.009.1995
Project(s):	Ocean Drilling Program (ODP) (URI: https://www-odp.tamu.edu:443/)
Coverage:	LATITUDE: 1.226900 * LONGITUDE: -83.730300
	DATE/TIME START: 1991-10-01T08:50:00 * DATE/TIME END: 1991-11-12T04:10:00
	MINIMUM ELEVATION: -3474.0 m * MAXIMUM ELEVATION: -3474.0 m
Event(s):	140-504B * LATITUDE: 1.226900 * LONGITUDE: -83.730300 * DATE/TIME START: 1991-10-01T08:50:00 * DATE/TIME END: 1991-11-12T04:10:00 * ELEVATION: -3474.0 m * Penetration: 2000.4 m * Recovery: 47.69 m * LOCATION: North Pacific Ocean * CAMPAIGN: Leg140 (URI: https://doi.org/10.2973/odp.proc.ir.140.1992) * BASIS: Joides Resolution (URI: https://www-odp.tamu.edu:443/resolutn.html) * METHOD/DEVICE: Drilling/drill rig (DRILL) * COMMENT: 55 cores; 378.9 m cored; 0 m drilled; 12.6 % recovery
Comment:	Cations calculated on the basis of 8 oxygens.
Parameter(s):	Sample code/label (Sample label) * PI: McNeill, Andrew W * METHOD/DEVICE: DSDP/ODP/IODP sample designation (URI: hdl:10013/epic.27914.d001)
	Sample ID (Sample ID) * PI: McNeill, Andrew W
	Sample comment (Sample comment) * PI: McNeill, Andrew W
	Silicon dioxide [%] (SiO2) * PI: McNeill, Andrew W * METHOD/DEVICE: Electron microprobe (EMP)
	Titanium dioxide [%] (TiO2) * PI: McNeill, Andrew W * METHOD/DEVICE: Electron microprobe (EMP)
	Aluminium oxide [%] (Al2O3) * PI: McNeill, Andrew W * METHOD/DEVICE: Electron microprobe (EMP)
	Chromium(III) oxide [%] (Cr2O3) * PI: McNeill, Andrew W * METHOD/DEVICE: Electron microprobe (EMP)
	Iron oxide, FeO [%] (FeO) * PI: McNeill, Andrew W * METHOD/DEVICE: Electron microprobe (EMP) * COMMENT: all Fe as FeO
	Manganese oxide [%] (MnO) * PI: McNeill, Andrew W * METHOD/DEVICE: Electron microprobe (EMP)
	Magnesium oxide [%] (MgO) * PI: McNeill, Andrew W * METHOD/DEVICE: Electron microprobe (EMP)
	Calcium oxide [%] (CaO) * PI: McNeill, Andrew W * METHOD/DEVICE: Electron microprobe (EMP)
	Strontium oxide [%] (SrO) * PI: McNeill, Andrew W * METHOD/DEVICE: Electron microprobe (EMP)
	Barium oxide [%] (BaO) * PI: McNeill, Andrew W * METHOD/DEVICE: Electron microprobe (EMP)
	Sodium oxide [%] (Na2O) * PI: McNeill, Andrew W * METHOD/DEVICE: Electron microprobe (EMP)
	Potassium oxide [%] (K2O) * PI: McNeill, Andrew W * METHOD/DEVICE: Electron microprobe (EMP)
	Elements, total [%] (Total) * PI: McNeill, Andrew W * METHOD/DEVICE: Electron microprobe (EMP)
	Silicon [# of ions] (Si) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated based on oxygen number
	Aluminium [# of ions] (Al) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated based on oxygen number
	Iron 2+ and 3+ [# of ions] (Fe) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated based on oxygen number
	Magnesium [# of ions] (Mg) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated based on oxygen number
	Calcium [# of ions] (Ca) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated based on oxygen number
	Sodium [# of ions] (Na) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated based on oxygen number
	Potassium [# of ions] (K) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated based on oxygen number
	Titanium [# of ions] (Ti) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated based on oxygen number
	Manganese [# of ions] (Mn) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated based on oxygen number
	Chromium [# of ions] (Cr) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated based on oxygen number
	Strontium [# of ions] (Sr) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated based on oxygen number
	Barium [# of ions] (Ba) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated based on oxygen number
	Sum [#] (Sum) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated based on oxygen number
	Anorthite [%] (An) * PI: McNeill, Andrew W * METHOD/DEVICE: CIPW Norm (URI: https://en.wikipedia.org/wiki/CIPW)
	Albite [%] (Ab) * PI: McNeill, Andrew W * METHOD/DEVICE: CIPW Norm (URI: https://en.wikipedia.org/wiki/CIPW)
	Orthoclase [%] (Or) * PI: McNeill, Andrew W * METHOD/DEVICE: CIPW Norm (URI: https://en.wikipedia.org/wiki/CIPW)
	Magnesium number (Mg#) * PI: McNeill, Andrew W * METHOD/DEVICE: Calculated
License:	Creative Commons Attribution 3.0 Unported (CC-BY-3.0) (URI: https://creativecommons.org/licenses/by/3.0/)
Size:	396 data points
*/
Sample label	Sample ID	Sample comment	SiO2 [%]	TiO2 [%]	Al2O3 [%]	Cr2O3 [%]	FeO [%]	MnO [%]	MgO [%]	CaO [%]	SrO [%]	BaO [%]	Na2O [%]	K2O [%]	Total [%]	Si [# of ions]	Al [# of ions]	Fe [# of ions]	Mg [# of ions]	Ca [# of ions]	Na [# of ions]	K [# of ions]	Ti [# of ions]	Mn [# of ions]	Cr [# of ions]	Sr [# of ions]	Ba [# of ions]	Sum [#]	An [%]	Ab [%]	Or [%]	Mg#
140-504B-195R-1,7-10	1	core of subhedral phenocryst, 0.25 _ 0.65 mm, in glomerocryst	47.44	0.01	32.71	0.03	0.51	0.00	0.24	17.41	0.17	0.00	1.65	0.01	100.19	2.182	1.773	0.020	0.016	0.858	0.147	0.001	0.000	0.000	0.001	0.005	0.000	5.004	85.3	14.7	0.0	45.5
140-504B-195R-1,7-10	2	rim of phenocryst in analysis 1	47.23	0.01	32.65	0.03	0.50	0.00	0.20	17.37	0.19	0.05	1.64	0.01	99.88	2.180	1.777	0.019	0.014	0.859	0.147	0.001	0.000	0.000	0.001	0.005	0.001	5.004	85.4	14.6	0.0	42.0
140-504B-195R-1,7-10	3	subhedral phenocryst, 0.12 _ 0.04 mm, included in pyroxene	47.47	0.00	32.64	0.03	0.58	0.00	0.24	17.33	0.20	0.00	1.71	0.00	100.20	2.184	1.770	0.022	0.017	0.854	0.153	0.000	0.000	0.000	0.001	0.005	0.000	5.007	84.8	15.2	0.0	42.4
140-504B-195R-1,7-10	4	subhedral phenocryst, 0.17 _ 0.06 mm, in glomerocryst	47.58	0.06	32.08	0.01	0.58	0.03	0.25	16.68	0.16	0.06	1.89	0.01	99.38	2.204	1.752	0.023	0.017	0.828	0.170	0.000	0.002	0.001	0.000	0.004	0.001	5.003	82.9	17.0	0.1	43.1
140-504B-195R-1,7-10	5	skeletal microphenocryst, 0.04 _ 0.01 mm, in holocrystalline groundmass	50.80	0.02	29.93	0.00	0.81	0.00	0.32	14.81	0.19	0.00	3.02	0.01	99.92	2.327	1.616	0.031	0.022	0.727	0.268	0.001	0.001	0.000	0.000	0.005	0.000	4.998	73.0	26.9	0.1	41.2
140-504B-222R-1,0-4	6	core of subhedral phenocryst, 0.3 _ 0.1 mm, in glomerocryst	46.58	0.03	33.00	0.02	0.45	0.00	0.22	17.36	0.16	0.03	1.44	0.01	99.30	2.162	1.805	0.017	0.015	0.863	0.129	0.000	0.001	0.000	0.001	0.004	0.001	4.999	86.9	13.0	0.1	46.8
140-504B-222R-1,0-4	7	rim of phenocryst in analysis 6	47.89	0.02	31.78	0.02	0.53	0.01	0.29	16.62	0.19	0.00	1.98	0.01	99.35	2.218	1.735	0.021	0.020	0.825	0.178	0.001	0.001	0.000	0.001	0.005	0.000	5.003	82.2	17.7	0.1	49.4
140-504B-222R-1,0-4	8	core of subhedral inclusion in pyroxene, 0.56 _ 0.14 mm	46.43	0.02	32.77	0.00	0.46	0.06	0.19	17.61	0.18	0.00	1.39	0.01	99.13	2.161	1.798	0.018	0.013	0.878	0.126	0.001	0.001	0.002	0.000	0.005	0.000	5.003	87.4	12.5	0.1	42.4
140-504B-222R-1,0-4	9	rim of phenocryst in analysis 8	46.22	0.01	32.78	0.02	0.46	0.00	0.20	17.66	0.14	0.04	1.32	0.00	98.86	2.157	1.803	0.018	0.014	0.883	0.119	0.000	0.000	0.000	0.001	0.004	0.001	5.000	88.1	11.9	0.0	43.1
140-504B-222R-1,0-4	10	skeletal microphenocryst, 0.04 _ 0.01 mm, in cryptocrystalline groundmass	57.91	0.00	25.88	0.00	0.49	0.00	0.16	9.09	0.21	0.06	6.54	0.04	100.37	2.596	1.367	0.018	0.011	0.436	0.568	0.002	0.000	0.000	0.000	0.005	0.001	5.006	43.4	56.4	0.2	37.4
140-504B-222R-1,0-4	11	euhedral microphenocryst, 0.025 _ 0.013 mm, in holocrystalline groundmass	47.70	0.03	32.15	0.05	0.65	0.04	0.27	16.84	0.16	0.00	1.93	0.01	99.82	2.201	1.749	0.025	0.019	0.833	0.172	0.000	0.001	0.001	0.002	0.004	0.000	5.008	82.8	17.2	0.0	42.7
140-504B-222R-1,0-4	12	skeletal microphenocryst, 0.035 _ 0.01 mm, in holocrystalline groundmass	50.66	0.03	30.22	0.05	0.72	0.02	0.33	14.76	0.17	0.02	3.08	0.00	100.06	2.318	1.629	0.028	0.023	0.724	0.273	0.000	0.001	0.001	0.002	0.005	0.000	5.002	72.6	27.4	0.0	45.2