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Peti, Leonie; Nilsson, Andreas; Muscheler, Raimund; Fitzsimmons, Kathryn E; Fink, David; Fujioka, Toshiyuki; Mifsud, Charles; Hopkins, Jenni L; Christl, Marcus; Augustinus, Paul C (2020): Paleomagnetic data from sediment cores OB16A and OB16B from Orakei maar, Auckland, New Zealand [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.921134

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Published: 2020-08-03DOI registered: 2020-08-04

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Abstract:
Paleomagnetic data (Inclination, Declination, Natural Remanent Magnetisation, Anhysteretic remanent magnetistation, Isothermal remanent magnetisation, Magnetic susceptibility) from Orakei maar, Auckland, New Zealand, measured at Lund University (Sweden)
Keyword(s):
chronology; EMPA; New Zealand; Paleomagnetics; Sediment cores; Tephra
Supplement to:
Peti, Leonie; Fitzsimmons, Kathryn E; Hopkins, Jenni L; Nilsson, Andreas; Fujioka, Toshiyuki; Fink, David; Mifsud, Charles; Christl, Marcus; Muscheler, Raimund; Augustinus, Paul C (2020): Development of a multi-method chronology spanning the Last Glacial Interval from Orakei maar lake, Auckland, New Zealand. Geochronology (GChron), 2, 367-410, https://doi.org/10.5194/gchron-2-367-2020
Related to:
Peti, Leonie; Nilsson, Andreas; Muscheler, Raimund; Fitzsimmons, Kathryn E; Fink, David; Fujioka, Toshiyuki; Mifsud, Charles; Hopkins, Jenni L; Christl, Marcus; Augustinus, Paul C (2020): Basaltic tephra composition in sediment cores OB16A and OB16B from Orakei maar, Auckland, New Zealand [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.921122
Peti, Leonie; Nilsson, Andreas; Muscheler, Raimund; Fitzsimmons, Kathryn E; Fink, David; Fujioka, Toshiyuki; Mifsud, Charles; Hopkins, Jenni L; Christl, Marcus; Augustinus, Paul C (2020): Beryllium-10 in sediment cores OB16A and OB16B from Orakei maar, Auckland, New Zealand [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.920773
Peti, Leonie; Nilsson, Andreas; Muscheler, Raimund; Fitzsimmons, Kathryn E; Fink, David; Fujioka, Toshiyuki; Mifsud, Charles; Hopkins, Jenni L; Christl, Marcus; Augustinus, Paul C (2020): Rhyolitic tephra composition in sediment cores OB16A and OB16B from Orakei maar, Auckland, New Zealand [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.921121
Coverage:
Median Latitude: -36.866500 * Median Longitude: 174.812795 * South-bound Latitude: -36.866530 * West-bound Longitude: 174.812730 * North-bound Latitude: -36.866470 * East-bound Longitude: 174.812860
Minimum DEPTH, sediment/rock: 39.68240741 m * Maximum DEPTH, sediment/rock: 79.04917647 m
Event(s):
OB16A * Latitude: -36.866470 * Longitude: 174.812860 * Elevation: -3.0 m * Penetration: 105 m * Recovery: 116.24 m * Method/Device: Core wireline system (CWS) * Comment: Coring: February 2016; Project: Orakei Basin 2016
OB16B * Latitude: -36.866530 * Longitude: 174.812730 * Elevation: -3.0 m * Penetration: 101.5 m * Recovery: 97.1 m * Method/Device: Core wireline system (CWS) * Comment: Coring: February 2016; Project: Orakei Basin 2016
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1DEPTH, sediment/rockDepth sedmPeti, LeonieGeocode – Event corrected depth (ECD)
2Sample IDSample IDPeti, Leonie
3Magnetic susceptibilityMAGS10-6 SIPeti, LeonieK real
4Natural remanent magnetizationNRMmTPeti, LeonieNRM AF min (mT)
5Natural remanent magnetizationNRMmTPeti, LeonieNRM AF max (mT)
6Number of demagnetization stepsN demag steps#Peti, LeonieNRM
7InclinationIncldegPeti, Leonie
8DeclinationDecldegPeti, Leonie
9Maximum angular deviationMADdegPeti, Leonie
10Angular deviationADdegPeti, Leonie
11NRM, mean destructive field of natural remanent magnetizationMDF (NRM)mA/mPeti, Leonie
12ARM, mean destructive field of anhysteretic remanent magnetizationMDF (ARM)mA/mPeti, Leonie
13IRM, mean destructive field of isothermal remanent magnetizationMDF (IRM)mA/mPeti, Leonie
14Natural remanent magnetizationNRMmA/mPeti, LeonieNRM at 0mT
15Natural remanent magnetizationNRMmA/mPeti, LeonieNRM at 5mT
16Natural remanent magnetizationNRMmA/mPeti, LeonieNRM at 10mT
17Natural remanent magnetizationNRMmA/mPeti, LeonieNRM at 15mT
18Natural remanent magnetizationNRMmA/mPeti, LeonieNRM at 20mT
19Natural remanent magnetizationNRMmA/mPeti, LeonieNRM at 25mT
20Natural remanent magnetizationNRMmA/mPeti, LeonieNRM at 30mT
21Natural remanent magnetizationNRMmA/mPeti, LeonieNRM at 35mT
22Natural remanent magnetizationNRMmA/mPeti, LeonieNRM at 40mT
23Natural remanent magnetizationNRMmA/mPeti, LeonieNRM at 50mT
24Natural remanent magnetizationNRMmA/mPeti, LeonieNRM at 60mT
25Natural remanent magnetizationNRMmA/mPeti, LeonieNRM at 70mT
26Natural remanent magnetizationNRMmA/mPeti, LeonieNRM at 80mT
27Anhysteretic remanent magnetizationARMmA/mPeti, LeonieARM at 0mT
28Anhysteretic remanent magnetizationARMmA/mPeti, LeonieARM at 5mT
29Anhysteretic remanent magnetizationARMmA/mPeti, LeonieARM at 10mT
30Anhysteretic remanent magnetizationARMmA/mPeti, LeonieARM at 15mT
31Anhysteretic remanent magnetizationARMmA/mPeti, LeonieARM at 20mT
32Anhysteretic remanent magnetizationARMmA/mPeti, LeonieARM at 25mT
33Anhysteretic remanent magnetizationARMmA/mPeti, LeonieARM at 30mT
34Anhysteretic remanent magnetizationARMmA/mPeti, LeonieARM at 40mT
35Anhysteretic remanent magnetizationARMmA/mPeti, LeonieARM at 60mT
36Anhysteretic remanent magnetizationARMmA/mPeti, LeonieARM at 80mT
37Isothermal remanent magnetizationIRMmA/mPeti, LeonieIRM at 0mT
38Isothermal remanent magnetizationIRMmA/mPeti, LeonieIRM at 20mT
39Isothermal remanent magnetizationIRMmA/mPeti, LeonieIRM at 30mT
40Isothermal remanent magnetizationIRMmA/mPeti, LeonieIRM at 40mT
License:
Creative Commons Attribution-NonCommercial 4.0 International (CC-BY-NC-4.0)
Size:
14172 data points

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