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Tegzes, Andrea D; Jansen, Eystein; Telford, Richard J (2015): 16. (Fig. 8, Tab. 3) The impact of increasing the stirrer speed on grain-size distributions. Sediment core MD95-2011: the number percent of grains with d>40 µm [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.874026, In supplement to: Tegzes, AD et al. (2015): Which is the better proxy for paleo-current strength: Sortable-silt mean size (SS) or sortable-silt mean grain diameter (dSS)? A case study from the Nordic Seas. Geochemistry, Geophysics, Geosystems, 16(10), 3456-3471, https://doi.org/10.1002/2014GC005655

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Related to:
Tegzes, Andrea D; Jansen, Eystein; Lorentzen, Torbjørn; Telford, Richard J (2017): Northward oceanic heat transport in the main branch of the Norwegian Atlantic Current over the late Holocene. The Holocene, https://doi.org/10.1177/0959683616683251
Tegzes, Andrea D; Jansen, Eystein; Telford, Richard J (2014): The role of the northward-directed (sub)surface limb of the Atlantic Meridional Overturning Circulation during the 8.2 ka event. Climate of the Past, 10, 1887-1904, https://doi.org/10.5194/cp-10-1887-2014
Coverage:
Latitude: 66.969660 * Longitude: 7.639330
Date/Time Start: 1995-06-08T00:00:00 * Date/Time End: 1995-06-08T00:00:00
Minimum DEPTH, sediment/rock: 1.105 m * Maximum DEPTH, sediment/rock: 1.495 m
Event(s):
MD95-2011 (MD952011) * Latitude: 66.969660 * Longitude: 7.639330 * Date/Time: 1995-06-08T00:00:00 * Elevation: -1048.0 m * Recovery: 17 m * Location: Voring Plateau * Campaign: MD101 (IMAGES I) * Basis: Marion Dufresne (1995) * Method/Device: Calypso Corer (CALYPSO) * Comment: XII Sections, Site location wrong, slumps. Bent core; liner imploded in the middle of the core; 30 cm of sediment of the top recovered in a 1/2 liner
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1DEPTH, sediment/rockDepth sedmTegzes, Andrea DGeocode – sample mid-point
2AGEAgeka BPTegzes, Andrea DGeocode – Modelled calibrated BP(1950) age
3Number percentageN perc%Tegzes, Andrea DStirrer speed = 20; V-subsample = 500µL; Run 1
4Number percentageN perc%Tegzes, Andrea DStirrer speed = 20; V-subsample = 500µL; Run 2
5Number percentageN perc%Tegzes, Andrea DStirrer speed = 30; V-subsample = 600µL; Run 1.0
6Number percentageN perc%Tegzes, Andrea DStirrer speed = 30; V-subsample = 600µL; Run 1.1
7Number percentageN perc%Tegzes, Andrea DStirrer speed = 30; V-subsample = 600µL; Run 1.2
8Number percentageN perc%Tegzes, Andrea DStirrer speed = 30; V-subsample = 600µL; Run 1.3
9Number percentageN perc%Tegzes, Andrea DStirrer speed = 30; V-subsample = 600µL; Run 1.4
10Number percentageN perc%Tegzes, Andrea DStirrer speed = 30; V-subsample = 600µL; Run 1.5
11Number percentageN perc%Tegzes, Andrea DStirrer speed = 30; V-subsample = 600µL; Run 1.6
12Number percentageN perc%Tegzes, Andrea DStirrer speed = 35; V-subsample = 600µL; Run 1.0
13Number percentageN perc%Tegzes, Andrea DStirrer speed = 35; V-subsample = 600µL; Run 1.1
14Number percentageN perc%Tegzes, Andrea DStirrer speed = 35; V-subsample = 600µL; Run 1.2
15Number percentageN perc%Tegzes, Andrea DStirrer speed = 35; V-subsample = 600µL; Run 1.3
16Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 600µL; Run 1.1
17Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 600µL; Run 1.2
18Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 600µL; Run 1.3
19Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 750µL; Run 1.1
20Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 750µL; Run 1.2
21Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 750µL; Run 1.3
22Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 750µL; Run 1.4
23Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 750µL; Run 1.5
24Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 750µL; Run 1.6
25Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 850µL; Run 1.1
26Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 850µL; Run 1.2
27Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 850µL; Run 1.3
28Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 850µL; Run 1.4
29Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 850µL; Run 1.5
30Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 850µL; Run 1.6
31Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 850µL; Run 2.1
32Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 850µL; Run 2.2
33Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 850µL; Run 2.3
34Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 850µL; Run 3.1
35Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 850µL; Run 3.2
36Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 850µL; Run 3.3
37Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 2x1mL; Run 1.1
38Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 2x1mL; Run 1.2
39Number percentageN perc%Tegzes, Andrea DStirrer speed = 40; V-subsample = 2x1mL; Run 1.3
Size:
512 data points

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