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Vogelsang, Elke; Sarnthein, Michael; Pflaumann, Uwe (2004): Age control of sediment core PS2644-5 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.143143, In supplement to: Vogelsang, E et al. (2001): d18O Stratigraphy, chronology, and sea surface temperatures of Atlantic sediment records (GLAMAP-2000 Kiel). Berichte-Reports, Institut für Geowissenschaften, Universität Kiel, 13, 13+244 pp., https://doi.org/10.2312/reports-ifg.2001.13

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Related to:
Voelker, Antje H L (1999): Zur Deutung der Dansgaard-Oeschger Ereignisse in ultra-hochauflösenden Sedimentprofilen aus dem Europäischen Nordmeer (Dansgaard-Oeschger events in ultra-high resolution sediment records from the Nordic Seas). Berichte-Reports, Institut für Geowissenschaften, Universität Kiel, 9, 278 pp, https://doi.org/10.2312/reports-ifg.1999.9
Voelker, Antje H L; Grootes, Pieter Meiert; Nadeau, Marie-Josée; Sarnthein, Michael (2000): Radiocarbon Levels in the Iceland Sea from 25–53 kyr and their Link to the Earth's Magnetic Field Intensity. Radiocarbon, 42(3), 437-452, https://doi.org/10.1017/S0033822200030368
Further details:
Vogelsang, Elke (2001): Age control of sediment cores PS2644-5 and PS2644-2. Berichte-Reports, Geologisch-Paläontologisches Institut und Museum, Christian-Albrechts-Universität, Kiel, 13+244 pp, 13, hdl:10013/epic.33112.d001
Project(s):
Glacial Atlantic Ocean Mapping (GLAMAP2000)
Institute for Geosciences, Christian Albrechts University, Kiel (GIK/IfG)
Coverage:
Latitude: 67.866660 * Longitude: -21.765000
Date/Time Start: 1994-09-19T07:20:00 * Date/Time End: 1994-09-19T07:20:00
Minimum DEPTH, sediment/rock: 0.16 m * Maximum DEPTH, sediment/rock: 2.00 m
Event(s):
PS2644-5 (PS31/160-5) * Latitude: 67.866660 * Longitude: -21.765000 * Date/Time: 1994-09-19T07:20:00 * Elevation: -777.0 m * Penetration: 10 m * Recovery: 9.18 m * Location: Denmark Strait * Campaign: ARK-X/2 (PS31) * Basis: Polarstern * Method/Device: Gravity corer (Kiel type) (SL) * Comment: 9 core sections: 0.18-1.18, 1.18-2.18, 2.18-3.18, 3.18-4.18, 4.18-5.18, 5.18-6.18, 6.18-7.18, 7.18-8.18, 8.18-9.18 m
Comment:
top of hiatus at 129 cm = 20.63 ka benthic cal. age /17.34 ka benthic 14C age is base of LGM time slice
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
DEPTH, sediment/rockDepth sedmGeocode
Age, datedAge datedkaSarnthein, MichaelAge, 14C AMS
Age, dated, error to youngerAge e -ka -Sarnthein, Michaelsee comment
Age, dated, error to olderAge e +ka +Sarnthein, Michaelsee comment
Age modelAge modelkaSarnthein, MichaelAge model in radiocarbon 14C ages
Sedimentation rateSRcm/kaSarnthein, MichaelCalculated, see reference(s)
Age, commentCommSarnthein, Michael
Age, dated materialDated materialSarnthein, Michaelsee comment
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
260 data points

Data

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


Depth sed [m]
Age dated [ka]
Age e - [ka -]
Age e + [ka +]
Age model [ka]
SR [cm/ka]
Comm
Dated material
0.169.580.0600.06011.39AMS 14C dating, Age acc. to ice core age model of Meese et al. 1994N. pachyderma sin.
0.1810.460.0600.060AMS 14C datingN. pachyderma sin.
0.293.800.0300.030AMS 14C datingN. pachyderma sin.
0.304.330.0300.030AMS 14C datingN. pachyderma sin.
0.4412.050.0600.060AMS 14C datingN. pachyderma sin.
0.4612.1539.5AMS 14C dating, (GISP2 age model of Meese et al. 1994)Vedde Ash
0.48tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)
0.498.610.0500.05014.32extrapolated, base of hiatusN. pachyderma sin.
0.5114.622.0tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)
0.5815.666.8
0.5913.970.0600.06015.72AMS 14C dating,tuned with GISP2 d18O (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
0.5913.650.0900.09016.40AMS 14C dating, Cal.yrs converted from 14C yrs using INTCAL98C. lobat., C.pachy. >250ym
0.6514.680.2100.21016.04AMS 14C dating, tuned with GISP2 d18O (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
0.6514.050.8000.80016.8513.0AMS 14C dating,GISP2C. lobat., C.pachy. >150ym
0.6916.50tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)
0.7414.490.0800.08017.24AMS 14C dating, tuned with GISP2 d18O (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
0.7413.730.0900.09016.89AMS 14C datingC. pachyderma >400ym
0.7414.090.0900.090AMS 14C dating, Cal.yrs converted from 14C yrs using INTCAL98C. lobat., C.pachy. >315ym
0.8014.810.2400.24017.46AMS 14C dating, tuned with GISP2 d18O (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
0.8014.320.0800.09017.1622.2AMS 14C dating, Cal.yrs converted from 14C yrs using INTCAL98C. lobat., C.pachy. >150ym
0.8515.260.2100.22017.68AMS 14C dating, tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
0.8717.78tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)
0.8914.980.0800.08017.94AMS 14C dating, tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
0.8914.750.0900.09017.6518.4AMS 14C dating, Cal.yrs converted from 14C yrs using INTCAL98C. lobat., C.pachy. >150ym
0.9916.110.0700.07018.10AMS 14C dating, GISP2 age base of H1, (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
1.0717.230.0900.09018.84AMS 14C dating, tuned with GISP2 d18O (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
1.0715.390.1200.12018.3924.3AMS 14C dating, Cal.yrs converted from 14C yrs using INTCAL98C. lobat., C.pachy. >250ym
1.1019.24tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)
1.1518.560.1000.100AMS 14C datingN. pachyderma sin.
1.1620.30tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)
1.2019.330.3300.340AMS 14C datingN. pachyderma sin.
1.2318.900.0900.09021.64AMS 14C dating, tuned with GISP2 d18O (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
1.2317.340.1600.16020.637.1AMS 14C dating, Cal.yrs converted from 14C yrs using INTCAL98C. lobatulus >250ym
1.2720.700.1600.16024.88AMS 14C dating, base of hiatus based on benthic C14 ageN. pachyderma sin.
1.2721.030.2000.200AMS 14C dating, Cal.yrs converted from 14C yrs using INTCAL98C. lobatulus >250ym
1.2824.08GISP2 age of H2, (GISP2 age model of Meese et al. 1994)
1.3121.940.1800.18025.1316.0AMS 14C datingN. pachyderma sin.
1.3121.390.1900.200AMS 14C dating, Cal.yrs converted from 14C yrs using INTCAL98C. lobatulus >150ym
1.3521.740.0700.07025.00AMS 14C dating, tuned with GISP2 d18O (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
1.3521.190.0700.070AMS 14C datingC. lobatulus >315ym
1.3722.380.1800.18025.62AMS 14C dating, tuned with GISP2 d18O (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
1.4323.910.1600.170AMS 14C datingN. pachyderma sin.
1.4527.86tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)
1.4928.70tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)
1.5725.300.2900.30029.00AMS 14C dating, tuned with GISP2 d18O (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
1.5723.380.2100.22027.4711.1AMS 14C dating, Cal.yrs converted from 14C yrs using INTCAL98C. lobat., C.pachy. >315ym
1.6529.66tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)
1.7027.150.8200.91030.18AMS 14C dating, tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
1.7427.040.2900.30030.36AMS 14C dating, tuned with GISP2 d18O (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
1.8230.70tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)
1.9327.630.3200.34031.42AMS 14C dating, tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)N. pachyderma sin.
1.9731.62tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)
2.0028.941.0101.15031.72AMS 14C dating, tuned with GISP2 d18O, (GISP2 age model of Meese et al. 1994)N. pachyderma sin.