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Krylov, Alexey A; Andreeva, Irina A; Vogt, Christoph; Backman, Jan; Krupskaya, Viktoria V; Grikurov, Garrik E; Moran, Kathryn; Shoji, Hitoshi (2008): (Table 1) Relative abundance of terrigenous minerals of Hole 302-M0002A [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.707421, In supplement to: Krylov, AA et al. (2008): A shift in heavy and clay mineral provenance indicates a middle Miocene onset of a perennial sea ice cover in the Arctic Ocean. Paleoceanography, 23, PA1S06, https://doi.org/10.1029/2007PA001497

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Project(s):
Integrated Ocean Drilling Program / International Ocean Discovery Program (IODP)
Coverage:
Latitude: 87.921180 * Longitude: 139.365010
Date/Time Start: 2004-08-19T00:00:00 * Date/Time End: 2004-08-19T00:00:00
Minimum ORDINAL NUMBER: 1 * Maximum ORDINAL NUMBER: 5
Event(s):
302-M0002A (ACEX-M2A) * Latitude: 87.921180 * Longitude: 139.365010 * Date/Time: 2004-08-19T00:00:00 * Elevation: -1209.0 m * IGSN: IBCR0302RHTS001 * Penetration: 270.1 m * Recovery: 214.68 m * Location: Arctic Ocean * Campaign: Exp302 (Arctic Coring Expedition, ACEX) * Basis: CCGS Captain Molly Kool (Vidar Viking)
Comment:
Amount of terrigenous minerals normalized to 100%
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1ORDINAL NUMBEROrd NoGeocode
2Lithologic unit/sequenceUnitKrylov, Alexey A
3Number of observationsNOBS#Krylov, Alexey A
4ClinopyroxeneCpx%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
5ClinopyroxeneCpx%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
6ClinopyroxeneCpx%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
7HornblendeHbl%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
8HornblendeHbl%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
9HornblendeHbl%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
10Epidote-zoisiteEp-Zo%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
11Epidote-zoisiteEp-Zo%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
12Epidote-zoisiteEp-Zo%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
13GarnetGrt%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
14GarnetGrt%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
15GarnetGrt%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
16ZirconZrn%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
17ZirconZrn%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
18ZirconZrn%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
19ApatiteAp%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
20ApatiteAp%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
21ApatiteAp%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
22TourmalineTur%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
23TourmalineTur%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
24TourmalineTur%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
25OreOre%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
26OreOre%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
27OreOre%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
28Indefinite titanium minerals and leucoxeneTi min+leucox%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
29Indefinite titanium minerals and leucoxeneTi min+leucox%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
30Indefinite titanium minerals and leucoxeneTi min+leucox%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
31RutileRt%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
32RutileRt%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
33RutileRt%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
34SpheneSpn%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
35SpheneSpn%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
36SpheneSpn%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
37ChloritoidCld%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
38ChloritoidCld%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
39ChloritoidCld%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
40DolomiteDol%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
41DolomiteDol%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
42DolomiteDol%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
43Rock fragmentsRock fragm%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
44Rock fragmentsRock fragm%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
45Rock fragmentsRock fragm%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
46MineralsMinerals%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
47MineralsMinerals%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
48MineralsMinerals%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
49RatioRatioKrylov, Alexey AOptical microscopyaverage, 50-100 µm
50RatioRatioKrylov, Alexey AOptical microscopyminimum, 50-100 µm
51RatioRatioKrylov, Alexey AOptical microscopymaximum, 50-100 µm
52Heavy mineralsHM%Krylov, Alexey AOptical microscopyaverage, 50-100 µm
53Heavy mineralsHM%Krylov, Alexey AOptical microscopyminimum, 50-100 µm
54Heavy mineralsHM%Krylov, Alexey AOptical microscopymaximum, 50-100 µm
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
265 data points

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