Auderset, Alexandra; Moretti, Simone; Taphorn, Björn; Ebner, Pia-Rebecca; Kast, Emma; Wang, Xingchen; Schiebel, Ralf; Sigman, Daniel M; Haug, Gerald H; Martínez-García, Alfredo (2022): GTS-12 adjusted age models for ODP Site 208-1263 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.943662, In: Auderset, A et al. (2022): Cenozoic foraminifera-bound nitrogen isotope records, TEX86-derived global SST compilation, and GTS-12 adjusted age models from multiple ODP/DSDP sites [dataset bundled publication]. PANGAEA, https://doi.org/10.1594/PANGAEA.943130
Always quote citation above when using data! You can download the citation in several formats below.
Abstract:
GTS-12 timescale adjusted age models for ODP site 1263 with biostratigraphic (calcareous nannoplankton and foraminifer), magnetostratigraphic datums and cyclostratigraphic alignments.
Source:
Kast, Emma; Stolper, Daniel; Auderset, Alexandra; Higgins, John A; Ren, Haojia Abby; Wang, Xingchen; Martínez-García, Alfredo; Haug, Gerald H; Sigman, Daniel M (2019): Nitrogen isotope evidence for expanded ocean suboxia in the early Cenozoic. Science, 364(6438), 386-389, https://doi.org/10.1126/science.aau5784
ODP Leg 208 Shipboard Scientific Party (2004): Site 1263. In: Zachos, J.C.; Kroon, D.; Blum, P.; et al. (eds.), Proceedings of the Ocean Drilling Program, 208 Initial Reports, Proceedings of the Ocean Drilling Program, 208, Ocean Drilling Program, https://doi.org/10.2973/odp.proc.ir.208.104.2004
Westerhold, Thomas; Marwan, Norbert; Drury, Anna Joy; Liebrand, Diederik; Agnini, Claudia; Anagnostou, Eleni; Barnet, James S K; Bohaty, Steven M; De Vleeschouwer, David; Florindo, Fabio; Frederichs, Thomas; Hodell, David A; Holbourn, Ann E; Kroon, Dick; Lauretano, Vittoria; Littler, Kate; Lourens, Lucas Joost; Lyle, Mitchell W; Pälike, Heiko; Röhl, Ursula; Tian, Jun; Wilkens, Roy H; Wilson, Paul A; Zachos, James C (2020): An astronomically dated record of Earth's climate and its predictability over the last 66 million years. Science, 369, 1383-1387, https://doi.org/10.1126/science.aba6853
Westerhold, Thomas; Röhl, Ursula; Frederichs, Thomas; Agnini, Claudia; Raffi, Isabella; Zachos, James C; Wilkens, Roy H (2017): Astronomical calibration of the Ypresian timescale: implications for seafloor spreading rates and the chaotic behavior of the solar system? Climate of the Past, 13, 1129-1152, https://doi.org/10.5194/cp-13-1129-2017
Westerhold, Thomas; Röhl, Ursula; Wilkens, Roy H; Gingerich, Philip D; Clyde, William C; Wing, Scott L; Bowen, Gabriel J; Kraus, Mary J (2018): Synchronizing early Eocene deep-sea and continental records - cyclostratigraphic age models for the Bighorn Basin Coring Project drill cores. Climate of the Past, 14(3), 303-319, https://doi.org/10.5194/cp-14-303-2018
Project(s):
Ocean Drilling Program (ODP)
Coverage:
Median Latitude: -28.532950 * Median Longitude: 2.779555 * South-bound Latitude: -28.533230 * West-bound Longitude: 2.779410 * North-bound Latitude: -28.532660 * East-bound Longitude: 2.779700
Date/Time Start: 2003-03-29T15:15:00 * Date/Time End: 2003-04-05T10:15:00
Minimum DEPTH, sediment/rock: 6.98 m * Maximum DEPTH, sediment/rock: 339.86 m
Event(s):
208-1263A * Latitude: -28.532830 * Longitude: 2.779480 * Date/Time Start: 2003-03-29T15:15:00 * Date/Time End: 2003-04-02T01:25:00 * Elevation: -2717.1 m * Penetration: 345.6 m * Recovery: 295.78 m * Location: Walvis Ridge, Southeast Atlantic Ocean * Campaign: Leg208 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 40 cores; 345.6 m cored; 0 m drilled; 85.6 % recovery
208-1263B * Latitude: -28.532660 * Longitude: 2.779410 * Date/Time Start: 2003-04-02T01:25:00 * Date/Time End: 2003-04-03T13:30:00 * Elevation: -2717.1 m * Penetration: 338.5 m * Recovery: 275.28 m * Location: Walvis Ridge, Southeast Atlantic Ocean * Campaign: Leg208 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 33 cores; 291.4 m cored; 47.1 m drilled; 94.5 % recovery
208-1263C * Latitude: -28.533080 * Longitude: 2.779630 * Date/Time Start: 2003-04-03T13:30:00 * Date/Time End: 2003-04-04T18:30:00 * Elevation: -2717.1 m * Penetration: 290.8 m * Recovery: 122.06 m * Location: Walvis Ridge, Southeast Atlantic Ocean * Campaign: Leg208 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 16 cores; 126.3 m cored; 164.5 m drilled; 96.6 % recovery
Comment:
Updated from Kast et al., 2019.
Parameter(s):
# | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
---|---|---|---|---|---|---|
1 | Event label | Event | Auderset, Alexandra | |||
2 | Ageprofile Datum Type | Ageprof dat typ | Auderset, Alexandra | |||
3 | Ageprofile Datum Description | Ageprof dat des | Auderset, Alexandra | Chron/Event/Datum | ||
4 | Sample code/label | Sample label | Auderset, Alexandra | DSDP/ODP/IODP sample designation | Sample ID top | |
5 | Depth, top/min | Depth top | m | Auderset, Alexandra | Depth top [mbsf] | |
6 | Depth, composite top | Depth comp top | mcd | Auderset, Alexandra | Depth top [mcd] | |
7 | Depth, bottom/max | Depth bot | m | Auderset, Alexandra | Depth bottom [mbsf] | |
8 | Depth, composite bottom | Depth comp bot | mcd | Auderset, Alexandra | Depth bottom [mcd] | |
9 | DEPTH, sediment/rock | Depth sed | m | Auderset, Alexandra | Geocode – Depth [mbsf] | |
10 | Depth, composite | Depth comp | mcd | Auderset, Alexandra | Depth [mcd] | |
11 | Age | Age | Ma | Auderset, Alexandra | Age model, Gradstein et al. (2012) GTS2012 | Age model GTS-12 |
12 | Comment | Comment | Auderset, Alexandra | |||
13 | Reference/source | Reference | Auderset, Alexandra |
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Status:
Curation Level: Enhanced curation (CurationLevelC)
Size:
1036 data points
Data
1 Event | 2 Ageprof dat typ | 3 Ageprof dat des | 4 Sample label | 5 Depth top [m] | 6 Depth comp top [mcd] | 7 Depth bot [m] | 8 Depth comp bot [mcd] | 9 Depth sed [m] | 10 Depth comp [mcd] | 11 Age [Ma] | 12 Comment | 13 Reference |
---|---|---|---|---|---|---|---|---|---|---|---|---|
208-1263A | Biostratigraphy - foraminifera | LAD Globigerinoides obliquus | 208-1263A-1H-CC | 2.29 | 2.29 | 11.66 | 12.07 | 6.98 | 7.18 | 1.30 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - foraminifera | LAD Globigerina apertura | 208-1263A-1H-CC | 2.29 | 2.29 | 11.66 | 12.07 | 6.98 | 7.18 | 1.64 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - foraminifera | FAD Globorotalia truncatulinoides | 208-1263A-1H-CC | 2.29 | 2.29 | 11.66 | 12.07 | 6.98 | 7.18 | 1.93 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - foraminifera | LAD Globoturborotalia woodi | 208-1263A-1H-CC | 2.29 | 2.29 | 11.66 | 12.07 | 6.98 | 7.18 | 2.30 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - nannofossils | LAD Discoaster pentaradiatus | 208-1263A-1H-CC | 2.29 | 2.29 | 11.66 | 12.07 | 6.98 | 7.18 | 2.39 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - nannofossils | LAD Discoaster surculus | 208-1263A-1H-CC | 2.29 | 2.29 | 11.66 | 12.07 | 6.98 | 7.18 | 2.49 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - foraminifera | LAD Sphaeroidinellopsis seminulina | 208-1263A-2H-CC | 11.66 | 12.07 | 21.17 | 23.29 | 16.42 | 17.68 | 3.16 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - foraminifera | FAD Globorotalia tosaensis | 208-1263A-2H-CC | 11.66 | 12.07 | 21.17 | 23.29 | 16.42 | 17.68 | 3.35 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - foraminifera | LAD Globorotalia plesiotumida | 208-1263A-2H-CC | 11.66 | 12.07 | 21.17 | 23.29 | 16.42 | 17.68 | 3.77 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - nannofossils | LAD Amaurolithus spp. | 208-1263A-2H-CC | 11.66 | 12.07 | 21.17 | 23.29 | 16.42 | 17.68 | 3.92 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - foraminifera | FAD Globorotalia crassaformis s.l. | 208-1263A-3H-CC | 21.17 | 23.29 | 30.85 | 34.68 | 26.01 | 28.99 | 4.31 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - foraminifera | FAD Sphaeroidinella dehiscens s.l. | 208-1263A-3H-CC | 21.17 | 23.29 | 30.85 | 34.68 | 26.01 | 28.99 | 5.53 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - nannofossils | FAD Sphenolithus ciperoensis | 208-1263A-6H-1,45 | 40.75 | 48.00 | 41.75 | 49.00 | 41.25 | 48.50 | 29.62 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - foraminifera | FAD Paragloborotalia opima | 208-1263A-6H-CC | 49.10 | 56.35 | 55.40 | 62.71 | 52.25 | 59.53 | The reported age of 30.72 Ma in GTS-12 is inconsistent with the established order of chronozones | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - nannofossils | FAD Sphenolithus distentus | 208-1263A-6H-CC | 49.10 | 56.35 | 59.61 | 68.72 | 54.36 | 62.54 | 30.00 | Zachos et al., 2004 | |
208-1263B | Magnetostratigraphy | C12n (t) | 208-1263B-7H-3,50 | 53.30 | 62.41 | 56.35 | 65.76 | 54.83 | 64.09 | 30.59 | Bowles et al., 2006 | |
208-1263B | Biostratigraphy - foraminifera | LAD Subbotina angiporoides | 208-1263B-1H-CC | 55.40 | 62.71 | 59.61 | 68.72 | 57.51 | 65.72 | The reported age of 29.84 Ma in GTS-12 is inconsistent with the established order of chronozones | Zachos et al., 2004 | |
208-1263A | Magnetostratigraphy | C12n (o) | 208-1263A-7H-6,145 | 58.75 | 67.86 | 59.85 | 70.56 | 59.30 | 69.21 | 31.03 | Bowles et al., 2006 | |
208-1263A | Biostratigraphy - foraminifera | LAD "Globigerina" ampliapertura | 208-1263A-7H-CC | 59.61 | 68.72 | 64.28 | 73.69 | 61.95 | 71.21 | The reported age of 30.28 Ma in GTS-12 is inconsistent with the established order of chronozones | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - nannofossils | LAD Reticulofenestra umbilicus >14 µm | 208-1263A-8H-4,140 | 65.20 | 75.91 | 65.75 | 76.46 | 65.48 | 76.19 | 32.02 | Zachos et al., 2004 | |
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-9H-3,46 | 72.26 | 82.90 | 32.77 | Westerhold et al., 2020 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-9H-4,86 | 74.16 | 84.80 | 32.98 | Westerhold et al., 2020 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-9H-6,53 | 76.83 | 87.47 | 33.22 | Westerhold et al., 2020 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-4H-3,86 | 78.36 | 89.29 | 33.42 | Westerhold et al., 2020 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-4H-5,11 | 80.61 | 91.54 | 33.64 | Westerhold et al., 2020 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-4H-5,51 | 81.01 | 91.94 | 33.79 | Westerhold et al., 2020 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-10H-4,21 | 83.01 | 93.80 | 34.19 | Westerhold et al., 2020 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-5H-1,96 | 84.96 | 98.71 | 34.58 | Westerhold et al., 2020 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-5H-4,39 | 88.72 | 102.47 | 34.97 | Westerhold et al., 2020 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-5H-5,114 | 90.97 | 104.72 | 35.42 | Westerhold et al., 2020 | |||||
208-1263C | Cyclostratigraphy | La2010b Eccenticity | 208-1263C-1H-3,145 | 94.45 | 106.67 | 35.86 | Westerhold et al., 2020 | |||||
208-1263C | Cyclostratigraphy | La2010b Eccenticity | 208-1263C-1H-5,33 | 96.33 | 108.55 | 36.28 | Westerhold et al., 2020 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-6H-2,82 | 95.82 | 110.59 | 36.66 | Westerhold et al., 2020 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-6H-4,26 | 98.26 | 113.03 | 37.06 | Westerhold et al., 2020 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-6H-6,34 | 101.34 | 116.11 | 37.43 | Westerhold et al., 2020 | |||||
208-1263C | Cyclostratigraphy | La2010b Eccenticity | 208-1263C-2H-2,83 | 101.83 | 118.83 | 37.87 | Westerhold et al., 2020 | |||||
208-1263C | Cyclostratigraphy | La2010b Eccenticity | 208-1263C-2H-5,89 | 106.39 | 123.39 | 38.27 | Westerhold et al., 2020 | |||||
208-1263C | Cyclostratigraphy | La2010b Eccenticity | 208-1263C-2H-7,55 | 108.55 | 125.55 | 38.65 | Westerhold et al., 2020 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-7H-4,51 | 108.01 | 128.33 | 39.04 | Westerhold et al., 2020 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-7H-5,7 | 109.07 | 129.39 | 39.15 | Westerhold et al., 2020 | |||||
208-1263C | Cyclostratigraphy | La2010b Eccenticity | 208-1263C-3H-2,35 | 110.85 | 132.33 | 39.44 | Westerhold et al., 2020 | |||||
208-1263C | Cyclostratigraphy | La2010b Eccenticity | 208-1263C-3H-2,111 | 111.61 | 133.09 | 39.54 | Westerhold et al., 2020 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-8H-2,20 | 114.20 | 135.77 | 39.83 | Westerhold et al., 2020 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-8H-2,149 | 115.49 | 137.07 | 39.93 | Rivero-Cuesta et al. 2019 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-14H-3,93 | 120.23 | 141.26 | 40.27 | Rivero-Cuesta et al. 2019 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-9H-1,146 | 123.46 | 146.69 | 40.66 | Rivero-Cuesta et al. 2019 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-9H-4,96 | 127.46 | 150.69 | 41.14 | Rivero-Cuesta et al. 2019 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-15H-3,132 | 130.12 | 153.85 | 41.41 | Rivero-Cuesta et al. 2019 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-15H-4,80 | 131.10 | 154.83 | 41.52 | Rivero-Cuesta et al. 2019 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-15H-5,37 | 132.17 | 155.90 | 41.62 | Rivero-Cuesta et al. 2019 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-10H-2,112 | 134.12 | 158.16 | 41.91 | Rivero-Cuesta et al. 2019 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-10H-3,42 | 134.92 | 158.96 | 42.01 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-16H-2,1 | 136.81 | 161.94 | 42.39 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-16H-3,3 | 138.33 | 163.46 | 42.58 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-16H-3,117 | 139.47 | 164.60 | 42.68 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-11H-2,93 | 143.43 | 168.46 | 43.12 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-11H-4,43 | 145.93 | 170.96 | 43.40 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-11H-4,149 | 146.99 | 172.02 | 43.51 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-11H-5,97 | 147.97 | 173.00 | 43.62 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-17H-3,128 | 149.08 | 175.42 | 43.90 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-17H-4,58 | 149.88 | 176.22 | 44.00 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-17H-6,8 | 152.38 | 178.72 | 44.29 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-12H-3,0 | 153.50 | 179.70 | 44.39 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-12H-4,5 | 154.40 | 180.60 | 44.49 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-12H-6,52 | 157.22 | 183.42 | 44.78 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-18H-3,70 | 158.00 | 185.44 | 45.05 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-18H-4,74 | 159.54 | 186.98 | 45.13 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-13H-3,17 | 163.17 | 191.34 | 45.52 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-13H-4,7 | 164.57 | 192.74 | 45.62 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-19H-2,136 | 166.66 | 195.72 | 45.90 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-19H-3,138 | 168.18 | 197.24 | 46.00 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-14H-3,37 | 172.87 | 202.54 | 46.38 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-14H-4,51 | 174.51 | 204.18 | 46.49 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-20H-2,94 | 175.74 | 207.10 | 46.77 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-20H-5,10 | 179.40 | 210.76 | 47.05 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-15H-3,85 | 180.85 | 211.70 | 47.15 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-15H-4,37 | 181.87 | 212.72 | 47.25 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-15H-6,75 | 185.25 | 216.10 | 47.45 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-21H-1,51 | 183.31 | 217.14 | 47.64 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-16H-1,125 | 187.75 | 220.88 | 47.98 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-16H-2,95 | 188.95 | 222.08 | 48.07 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-16H-4,148 | 192.48 | 225.61 | 48.37 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-23H-2,128 | 204.57 | 237.12 | 49.67 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-23H-4,18 | 206.47 | 239.02 | 49.85 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-20H-2,35 | 206.75 | 240.46 | 49.95 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-20H-3,3 | 207.93 | 241.64 | 50.06 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-20H-4,59 | 209.99 | 243.70 | 50.27 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-20H-5,45 | 211.35 | 245.06 | 50.38 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-20H-6,67 | 213.07 | 246.78 | 50.49 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-24H-5,27 | 214.37 | 249.02 | 50.67 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-24H-6,17 | 215.77 | 250.42 | 50.77 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-24H-6,121 | 216.81 | 251.46 | 50.87 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-21H-2,76 | 216.66 | 252.58 | 50.96 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-21H-4,4 | 218.94 | 254.86 | 51.15 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-21H-5,28 | 220.68 | 256.60 | 51.25 | Westerhold et al. 2017 | |||||
208-1263C | Cyclostratigraphy | La2010b Eccenticity | 208-1263C-7H-2,38 | 223.33 | 257.60 | 51.35 | Westerhold et al. 2017 | |||||
208-1263C | Cyclostratigraphy | La2010b Eccenticity | 208-1263C-7H-2,134 | 224.29 | 258.56 | 51.45 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-26H-1,11 | 222.71 | 259.56 | 51.55 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-26H-3,37 | 225.97 | 262.82 | 51.97 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-22H-4,143 | 229.83 | 268.16 | 52.36 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-22H-5,101 | 230.91 | 269.24 | 52.46 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-22H-6,5 | 231.45 | 269.78 | 52.52 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-27H-2,15 | 233.75 | 273.78 | 52.74 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-27H-2,145 | 235.05 | 275.08 | 52.85 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-27H-3,113 | 236.23 | 276.26 | 52.95 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-27H-5,111 | 239.21 | 279.24 | 53.15 | Westerhold et al. 2017 | |||||
208-1263C | Cyclostratigraphy | La2010b Eccenticity | 208-1263C-9H-5,9 | 240.99 | 280.78 | 53.26 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-28H-2,7 | 243.17 | 285.69 | 53.56 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-28H-3,29 | 244.89 | 287.41 | 53.67 | Westerhold et al. 2017 | |||||
208-1263B | Cyclostratigraphy | La2010b Eccenticity | 208-1263B-24H-6,16 | 250.56 | 292.85 | 53.95 | Westerhold et al. 2017 | |||||
208-1263C | Cyclostratigraphy | La2010b Eccenticity | 208-1263C-10H-7,9 | 252.99 | 294.87 | 54.05 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-29H-4,115 | 256.75 | 300.53 | 54.35 | Westerhold et al. 2017 | |||||
208-1263C | Cyclostratigraphy | La2010b Eccenticity | 208-1263C-11H-4,2 | 258.42 | 302.21 | 54.45 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-30H-2,86 | 262.96 | 308.75 | 54.75 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | La2010b Eccenticity | 208-1263A-30H-4,48 | 265.58 | 311.37 | 54.87 | Westerhold et al. 2017 | |||||
208-1263C | Cyclostratigraphy | La2010b Eccenticity | 208-1263C-12H-6,111 | 272.01 | 317.51 | 55.17 | Westerhold et al. 2017 | |||||
208-1263D | Cyclostratigraphy | La2010b Eccenticity | 208-1263D-1H-2,45 | 273.95 | 319.71 | 55.27 | Westerhold et al. 2017 | |||||
208-1263A | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263A-32H-4,138 | 277.48 | 326.56 | 55.52 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-13H-5,13 | 279.03 | 327.01 | 55.54 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-13H-5,65 | 279.55 | 327.53 | 55.56 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-13H-5,142 | 280.32 | 328.30 | 55.58 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-13H-6,73 | 281.13 | 329.11 | 55.61 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-13H-6,120 | 281.60 | 329.58 | 55.63 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-13H-7,25 | 282.15 | 330.13 | 55.65 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-13H-8,3 | 282.80 | 330.78 | 55.67 | Westerhold et al. 2018 | |||||
208-1263D | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263D-3H-1,28 | 281.78 | 332.12 | 55.73 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-14H-1,48 | 282.88 | 332.79 | 55.75 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-14H-1,108 | 283.48 | 333.39 | 55.77 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-14H-2,7 | 283.97 | 333.88 | 55.79 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-14H-2,48 | 284.38 | 334.29 | 55.82 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-14H-2,76 | 284.66 | 334.57 | 55.84 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-14H-2,101 | 284.91 | 334.82 | 55.86 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-14H-2,123 | 285.13 | 335.04 | 55.88 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-14H-2,146 | 285.36 | 335.27 | 55.93 | Westerhold et al. 2018 | |||||
208-1263A | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263A-34H-1,68 | 284.78 | 335.64 | 55.94 | Westerhold et al. 2018 | |||||
208-1263A | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263A-34H-2,40 | 286.00 | 336.86 | 56.02 | Westerhold et al. 2018 | |||||
208-1263A | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263A-34H-2,65 | 286.25 | 337.11 | 56.05 | Westerhold et al. 2018 | |||||
208-1263A | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263A-34H-2,96 | 286.56 | 337.42 | 56.07 | Westerhold et al. 2018 | |||||
208-1263A | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263A-34H-2,136 | 286.96 | 337.82 | 56.09 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-16H-1,142 | 287.12 | 338.20 | 56.11 | Westerhold et al. 2018 | |||||
208-1263C | Cyclostratigraphy | Precession cycle counting relative onset PETM @ 55.930 Ma | 208-1263C-16H-2,19 | 287.39 | 338.47 | 56.13 | Westerhold et al. 2018 | |||||
208-1263A | Biostratigraphy - foraminifera | LAD Globanomalina pseudomenardii | 208-1263A-35X-CC | 296.61 | 348.97 | 300.17 | 352.73 | 298.39 | 350.85 | 57.10 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - foraminifera | LAD Acarinina mckannai | 208-1263A-35X-CC | 296.61 | 348.97 | 300.17 | 352.73 | 298.39 | 350.85 | 57.66 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - nannofossils | FAD Discoaster multiradiatus | 208-1263A-36X-3,40 | 303.40 | 357.50 | 304.15 | 358.25 | 303.78 | 357.88 | There exist two ages for Discoaster multiradiatus in GTS-12: "common" 57.21 Ma and "rare" 57.32 | Zachos et al., 2004 | |
208-1263B | Biostratigraphy - foraminifera | FAD Morozovella subbotinae | 208-1263B-30X-CC | 301.78 | 356.08 | 312.15 | 367.53 | 306.97 | 361.81 | 57.10 | Zachos et al., 2004 | |
208-1263B | Biostratigraphy - foraminifera | FAD Morozovella aequa | 208-1263B-30X-CC | 301.78 | 356.08 | 312.15 | 367.53 | 306.97 | 361.81 | 57.79 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - nannofossils | FAD Discoaster nobilis | 208-1263A-37X-3,86 | 310.96 | 366.34 | 311.80 | 367.18 | 311.38 | 366.76 | 57.50 | Zachos et al., 2004 | |
208-1263B | Biostratigraphy - foraminifera | FAD Acarinina soldadoensis | 208-1263B-31X-CC | 315.03 | 371.06 | 323.45 | 380.56 | 319.24 | 375.81 | 57.79 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - nannofossils | FAD Heliolithus riedelii | 208-1263A-39X-2,140 | 329.30 | 388.15 | 329.80 | 388.65 | 329.55 | 388.40 | 58.70 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - nannofossils | FAD Discoaster mohleri | 208-1263A-39X-3,140 | 330.80 | 389.65 | 331.60 | 390.45 | 331.20 | 390.05 | 58.97 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - nannofossils | FAD Heliolithus kleinpellii | 208-1263A-40X-3,65 | 339.65 | 400.23 | 340.07 | 400.65 | 339.86 | 400.44 | 59.54 | Zachos et al., 2004 | |
208-1263A | Biostratigraphy - nannofossils | FAD Sphenolithus anarrhopus | 208-1263A-40X-3,65 | 339.65 | 400.23 | 340.07 | 400.65 | 339.86 | 400.44 | 59.68 | Zachos et al., 2004 |