Griffith, Elizabeth M; Thomas, Ellen; Lewis, Angela R; Penman, Donald E; Westerhold, Thomas; Winguth, Arne M E (2021): BFAR for Eocene hyperthermals: PETM, ETM2, ETM3, ODP Site 208-1263 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.928032, In: Griffith, EM et al. (2021): ODP Site 208-1263 PETM, ETM2, ETM3: barite accumulation rates, benthic foraminiferal data [dataset bundled publication]. PANGAEA, https://doi.org/10.1594/PANGAEA.928031
Always quote citation above when using data! You can download the citation in several formats below.
Related to:
Griffith, Elizabeth M; Thomas, Ellen; Lewis, Angela R; Penman, Donald E; Westerhold, Thomas; Winguth, Arne M E (2021): Bentho‐pelagic Decoupling: the Marine Biological Carbon Pump During Eocene Hyperthermals. Paleoceanography and Paleoclimatology, https://doi.org/10.1029/2020PA004053
Jennions, Suzanne M; Thomas, E; Schmidt, Daniela N; Lunt, Ian D; Ridgwell, Andy (2015): Changes in benthic ecosystems and ocean circulation in the Southeast Atlantic across Eocene Thermal Maximum 2. Paleoceanography, 30(8), 1059-1077, https://doi.org/10.1002/2015PA002821
Jennions, Suzanne M; Thomas, Ellen; Schmidt, Daniela N; Lunt, Daniel; Ridgwell, Andy (2015): Benthic foraminiferal data pertaining to ODP Holes 208-1262A and 208-1263C [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.845417
Ma, Zhongwu; Gray, E; Thomas, Ellen; Murphy, Brandon; Zachos, James C; Paytan, Adina (2014): Barite Accumulation rates across Paleocene-Eocene Thermal Maximum (PETM) [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.856072
Ma, Zhongwu; Gray, E; Thomas, Ellen; Murphy, Brandon; Zachos, James C; Paytan, Adina (2014): Carbon sequestration during the Palaeocene–Eocene Thermal Maximum by an efficient biological pump. Nature Geoscience, 7(5), 382-388, https://doi.org/10.1038/ngeo2139
Thomas, Ellen; Boscolo-Galazzo, Flavia; Balestra, Barbara; Monechi, Simonetta; Donner, Barbara; Röhl, Ursula (2018): (Table S3) Relative abundances and accumulation rates of foraminifera from ODP Hole 208-1262A and 208-1263A sediments [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.891599
Thomas, Ellen; Boscolo-Galazzo, Flavia; Balestra, Barbara; Monechi, Simonetta; Donner, Barbara; Röhl, Ursula (2018): Early Eocene Thermal Maximum 3: Biotic Response at Walvis Ridge (SE Atlantic Ocean). Paleoceanography and Paleoclimatology, 33(8), 862-883, https://doi.org/10.1029/2018PA003375
Project(s):
Ocean Drilling Program (ODP)
Coverage:
Median Latitude: -28.532955 * Median Longitude: 2.779555 * South-bound Latitude: -28.533080 * West-bound Longitude: 2.779480 * North-bound Latitude: -28.532830 * East-bound Longitude: 2.779630
Date/Time Start: 2003-03-29T15:15:00 * Date/Time End: 2003-04-04T18:30:00
Minimum DEPTH, sediment/rock: 234.830 m * Maximum DEPTH, sediment/rock: 253.895 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
208-1263C * 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
Parameter(s):
# | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
---|---|---|---|---|---|---|
1 | Event label | Event | Griffith, Elizabeth M | |||
2 | Sample code/label | Sample label | Griffith, Elizabeth M | DSDP/ODP/IODP sample designation | ||
3 | DEPTH, sediment/rock | Depth sed | m | Griffith, Elizabeth M | Geocode – mbsf | |
4 | Depth, composite | Depth comp | mcd | Griffith, Elizabeth M | Intercore correlation | |
5 | Depth, composite revised | Depth comp r | rmcd | Griffith, Elizabeth M | Intercore correlation | |
6 | Foraminifera, benthic | Foram benth | #/cm3 | Griffith, Elizabeth M | ||
7 | AGE | Age | ka BP | Griffith, Elizabeth M | Geocode – Age W17 | |
8 | Age, relative | Age rel | ka | Griffith, Elizabeth M | from ETM2 | |
9 | Age, relative | Age rel | ka | Griffith, Elizabeth M | from ETM3 | |
10 | Linear sedimentation rate | LSR | cm/ka | Griffith, Elizabeth M | Calculated | |
11 | Density, dry bulk | DBD | g/cm3 | Griffith, Elizabeth M | ||
12 | Accumulation rate, mass | MAR | g/cm2/ka | Griffith, Elizabeth M | Calculated | |
13 | Accumulation rate, number of benthic foraminifera | BFAR | #/cm2/ka | Griffith, Elizabeth M | Calculated | using Age W17 |
14 | Reference/source | Reference | Griffith, Elizabeth M |
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Size:
950 data points
Data
1 Event | 2 Sample label (DSDP/ODP/IODP sample designation) | 3 Depth sed [m] (mbsf) | 4 Depth comp [mcd] (Intercore correlation) | 5 Depth comp r [rmcd] (Intercore correlation) | 6 Foram benth [#/cm3] | 7 Age [ka BP] (Age W17) | 8 Age rel [ka] (from ETM2) | 9 Age rel [ka] (from ETM3) | 10 LSR [cm/ka] (Calculated) | 11 DBD [g/cm3] | 12 MAR [g/cm2/ka] (Calculated) | 13 BFAR [#/cm2/ka] (using Age W17, Calculated) | 14 Reference |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
208-1263A | 208-1263A-27H-2,122-123 | 234.830 | 274.860 | 274.85501 | 87.06 | 52826.828 | 18 | 1.238 | 1.488 | 1.842 | 160 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-2,124-125 | 234.850 | 274.880 | 274.87500 | 94.72 | 52828.442 | 17 | 1.238 | 1.488 | 1.842 | 174 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-2,126-127 | 234.870 | 274.900 | 274.89499 | 100.98 | 52830.057 | 15 | 1.238 | 1.488 | 1.842 | 186 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-2,128-129 | 234.890 | 274.920 | 274.91501 | 75.63 | 52831.674 | 13 | 1.238 | 1.488 | 1.842 | 139 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-2,130-131 | 234.910 | 274.940 | 274.93500 | 89.76 | 52833.288 | 12 | 1.238 | 1.488 | 1.842 | 165 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-2,132-133 | 234.930 | 274.960 | 274.95499 | 65.77 | 52834.903 | 10 | 1.238 | 1.488 | 1.842 | 121 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-2,134-135 | 234.950 | 274.980 | 274.97501 | 74.96 | 52836.520 | 8 | 1.238 | 1.488 | 1.842 | 138 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-2,136-137 | 234.970 | 275.000 | 274.99500 | 61.24 | 52838.135 | 7 | 1.238 | 1.488 | 1.842 | 113 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-2,138-139 | 234.990 | 275.020 | 275.01501 | 40.87 | 52839.751 | 5 | 1.238 | 1.488 | 1.842 | 75 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-2,140-141 | 235.010 | 275.040 | 275.03500 | 64.04 | 52841.365 | 4 | 1.238 | 1.488 | 1.842 | 118 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-2,142-143 | 235.030 | 275.060 | 275.05499 | 35.71 | 52842.980 | 2 | 1.238 | 1.488 | 1.842 | 66 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-2,144-145 | 235.050 | 275.080 | 275.07501 | 40.25 | 52844.597 | 0 | 1.194 | 1.488 | 1.777 | 72 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-2,146-147 | 235.070 | 275.100 | 275.09500 | 36.97 | 52846.271 | -1 | 1.180 | 1.488 | 1.756 | 65 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-2,148-149 | 235.090 | 275.120 | 275.11499 | 12.16 | 52847.965 | -3 | 1.180 | 1.488 | 1.756 | 21 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,0-1 | 235.110 | 275.140 | 275.13501 | 39.66 | 52849.662 | -5 | 1.180 | 1.488 | 1.756 | 70 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,2-3 | 235.130 | 275.160 | 275.15500 | 38.19 | 52851.356 | -6 | 1.180 | 1.488 | 1.756 | 67 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,4-5 | 235.150 | 275.180 | 275.17499 | 33.82 | 52853.050 | -8 | 1.180 | 1.488 | 1.756 | 59 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,6-7 | 235.170 | 275.200 | 275.19501 | 31.69 | 52854.747 | -10 | 1.180 | 1.488 | 1.756 | 56 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,8-9 | 235.190 | 275.220 | 275.21500 | 47.01 | 52856.441 | -11 | 1.180 | 1.488 | 1.756 | 83 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,10-11 | 235.210 | 275.240 | 275.23499 | 33.38 | 52858.135 | -13 | 1.180 | 1.488 | 1.756 | 59 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,12-13 | 235.230 | 275.260 | 275.25500 | 57.61 | 52859.831 | -15 | 1.180 | 1.488 | 1.756 | 101 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,14-15 | 235.250 | 275.280 | 275.27499 | 47.87 | 52861.525 | -17 | 1.180 | 1.488 | 1.756 | 84 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,16-17 | 235.270 | 275.300 | 275.29501 | 76.11 | 52863.221 | -18 | 1.180 | 1.488 | 1.756 | 134 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,18-19 | 235.290 | 275.320 | 275.31500 | 77.96 | 52864.915 | -20 | 1.180 | 1.488 | 1.756 | 137 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,20-21 | 235.310 | 275.340 | 275.33499 | 79.25 | 52866.609 | -22 | 1.180 | 1.488 | 1.756 | 139 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,22-23 | 235.330 | 275.360 | 275.35501 | 69.24 | 52868.306 | -23 | 1.180 | 1.488 | 1.756 | 122 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,24-25 | 235.350 | 275.380 | 275.37500 | 70.33 | 52870.000 | -25 | 1.180 | 1.488 | 1.756 | 123 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,26-27 | 235.370 | 275.400 | 275.39499 | 73.76 | 52871.694 | -27 | 1.180 | 1.488 | 1.756 | 130 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,28-29 | 235.390 | 275.420 | 275.41501 | 72.52 | 52873.391 | -28 | 1.180 | 1.488 | 1.756 | 127 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,30-31 | 235.410 | 275.440 | 275.43500 | 62.37 | 52875.085 | -30 | 1.180 | 1.488 | 1.756 | 110 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,32-33 | 235.430 | 275.460 | 275.45499 | 54.10 | 52876.779 | -32 | 1.180 | 1.488 | 1.756 | 95 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,34-35 | 235.450 | 275.480 | 275.47501 | 87.08 | 52878.475 | -33 | 1.180 | 1.488 | 1.756 | 153 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,36-37 | 235.470 | 275.500 | 275.49500 | 71.27 | 52880.169 | -35 | 1.180 | 1.488 | 1.756 | 125 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,38-39 | 235.490 | 275.520 | 275.51501 | 76.90 | 52881.865 | -37 | 1.180 | 1.488 | 1.756 | 135 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,40-41 | 235.510 | 275.540 | 275.53500 | 66.61 | 52883.559 | -39 | 1.180 | 1.488 | 1.756 | 117 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,42-43 | 235.530 | 275.560 | 275.55499 | 64.49 | 52885.253 | -40 | 1.180 | 1.488 | 1.756 | 113 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,44-45 | 235.550 | 275.580 | 275.57501 | 74.02 | 52886.950 | -42 | 1.180 | 1.488 | 1.756 | 130 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,46-47 | 235.570 | 275.600 | 275.59500 | 82.25 | 52888.644 | -44 | 1.180 | 1.488 | 1.756 | 144 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,48-49 | 235.590 | 275.620 | 275.61499 | 69.03 | 52890.338 | -45 | 1.180 | 1.488 | 1.756 | 121 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,50-51 | 235.610 | 275.640 | 275.63501 | 55.18 | 52892.035 | -47 | 1.180 | 1.488 | 1.756 | 97 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,54-55 | 235.650 | 275.680 | 275.67499 | 78.13 | 52895.423 | -50 | 1.180 | 1.488 | 1.756 | 137 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,56-57 | 235.670 | 275.700 | 275.69501 | 89.18 | 52897.119 | -52 | 1.180 | 1.488 | 1.756 | 157 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,58-59 | 235.690 | 275.720 | 275.71500 | 78.63 | 52898.814 | -54 | 1.180 | 1.488 | 1.756 | 138 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,60-61 | 235.710 | 275.740 | 275.73499 | 82.19 | 52900.508 | -56 | 1.180 | 1.488 | 1.756 | 144 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,62-63 | 235.730 | 275.760 | 275.75500 | 95.09 | 52902.203 | -57 | 1.180 | 1.488 | 1.756 | 167 | Thomas et al., 2018 | |
208-1263A | 208-1263A-27H-3,64-65 | 235.750 | 275.780 | 275.77499 | 110.69 | 52903.897 | -59 | 1.180 | 1.488 | 1.756 | 194 | Thomas et al., 2018 | |
208-1263C | 208-1263C-10H-6,0-1 | 251.905 | 293.785 | 293.78500 | 32.81 | 53993.601 | 56 | 1.924 | 1.430 | 2.750 | 90 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,10-11 | 252.005 | 293.885 | 293.88501 | 58.19 | 53998.800 | 51 | 1.924 | 1.430 | 2.750 | 160 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,18-19 | 252.085 | 293.965 | 293.96500 | 55.56 | 54002.958 | 47 | 1.924 | 1.430 | 2.750 | 153 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,28-29 | 252.185 | 294.065 | 294.06500 | 49.74 | 54008.156 | 42 | 1.924 | 1.430 | 2.750 | 137 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,38-39 | 252.285 | 294.165 | 294.16501 | 49.12 | 54013.354 | 37 | 1.924 | 1.430 | 2.750 | 135 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,48-49 | 252.385 | 294.265 | 294.26501 | 57.55 | 54018.553 | 31 | 1.924 | 1.430 | 2.750 | 158 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,58-59 | 252.485 | 294.365 | 294.36499 | 52.29 | 54023.749 | 26 | 1.924 | 1.430 | 2.750 | 144 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,59-69 | 252.540 | 294.420 | 294.42001 | 49.02 | 54026.609 | 23 | 1.924 | 1.430 | 2.750 | 135 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,78-79 | 252.685 | 294.565 | 294.56500 | 58.72 | 54034.146 | 16 | 1.924 | 1.430 | 2.750 | 162 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,80-81 | 252.705 | 294.585 | 294.58499 | 41.36 | 54035.185 | 15 | 1.924 | 1.430 | 2.750 | 114 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,82-83 | 252.725 | 294.605 | 294.60501 | 50.02 | 54036.226 | 14 | 1.924 | 1.430 | 2.750 | 138 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,84-85 | 252.745 | 294.625 | 294.62500 | 40.58 | 54037.265 | 13 | 1.924 | 1.430 | 2.750 | 112 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,86-87 | 252.765 | 294.645 | 294.64499 | 38.26 | 54038.304 | 12 | 1.924 | 1.430 | 2.750 | 105 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,88-89 | 252.785 | 294.665 | 294.66501 | 46.41 | 54039.345 | 11 | 1.924 | 1.430 | 2.750 | 128 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,90-91 | 252.805 | 294.685 | 294.68500 | 43.86 | 54040.384 | 10 | 1.924 | 1.430 | 2.750 | 121 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,92-93 | 252.825 | 294.705 | 294.70499 | 42.49 | 54041.423 | 9 | 1.924 | 1.430 | 2.750 | 117 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,94-95 | 252.845 | 294.725 | 294.72501 | 43.60 | 54042.463 | 8 | 1.924 | 1.430 | 2.750 | 120 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,96-97 | 252.865 | 294.745 | 294.74500 | 49.30 | 54043.502 | 6 | 1.924 | 1.430 | 2.750 | 136 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,98-99 | 252.885 | 294.765 | 294.76501 | 54.49 | 54044.543 | 5 | 1.924 | 1.430 | 2.750 | 150 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-6,100-101 | 252.905 | 294.785 | 294.78500 | 35.47 | 54045.582 | 4 | 1.924 | 1.430 | 2.750 | 98 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,0-1 | 252.905 | 294.785 | 294.78500 | 41.63 | 54045.582 | 4 | 1.924 | 1.430 | 2.750 | 115 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,3-4 | 252.935 | 294.815 | 294.81500 | 35.64 | 54047.141 | 3 | 1.924 | 1.430 | 2.750 | 98 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,5-6 | 252.955 | 294.835 | 294.83499 | 41.25 | 54048.180 | 2 | 1.924 | 1.430 | 2.750 | 113 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,6-7 | 252.965 | 294.845 | 294.84500 | 33.79 | 54048.700 | 1 | 1.924 | 1.430 | 2.750 | 93 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,7-8 | 252.975 | 294.855 | 294.85501 | 18.74 | 54049.221 | 1 | 1.924 | 1.430 | 2.750 | 52 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,8-9 | 252.985 | 294.865 | 294.86499 | 2.93 | 54049.740 | 0 | 1.921 | 1.430 | 2.750 | 8 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,9-10 | 252.995 | 294.875 | 294.87500 | 1.53 | 54050.261 | 0 | 1.919 | 1.430 | 2.740 | 4 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,10-11 | 253.005 | 294.885 | 294.88501 | 3.42 | 54050.782 | -1 | 1.919 | 1.430 | 2.740 | 9 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,11-12 | 253.015 | 294.895 | 294.89499 | 17.85 | 54051.302 | -1 | 1.919 | 1.430 | 2.740 | 49 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,13-14 | 253.035 | 294.915 | 294.91501 | 43.20 | 54052.346 | -2 | 1.919 | 1.430 | 2.740 | 119 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,15-16 | 253.055 | 294.935 | 294.93500 | 49.55 | 54053.388 | -3 | 1.919 | 1.430 | 2.740 | 136 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,17-18 | 253.075 | 294.955 | 294.95499 | 46.55 | 54054.430 | -4 | 1.919 | 1.430 | 2.740 | 128 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,19-20 | 253.095 | 294.975 | 294.97501 | 42.60 | 54055.473 | -5 | 1.919 | 1.430 | 2.740 | 117 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,21-23 | 253.120 | 295.000 | 295.00000 | 41.61 | 54056.776 | -7 | 1.919 | 1.430 | 2.740 | 114 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,23-24 | 253.135 | 295.015 | 295.01501 | 36.83 | 54057.558 | -8 | 1.919 | 1.430 | 2.740 | 101 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,25-26 | 253.155 | 295.035 | 295.03500 | 42.97 | 54058.600 | -9 | 1.919 | 1.430 | 2.740 | 118 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,27-28 | 253.175 | 295.055 | 295.05499 | 42.03 | 54059.642 | -10 | 1.919 | 1.430 | 2.740 | 115 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,29-30 | 253.195 | 295.075 | 295.07501 | 43.54 | 54060.685 | -11 | 1.919 | 1.430 | 2.740 | 119 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,31-33 | 253.220 | 295.100 | 295.10001 | 45.59 | 54061.988 | -12 | 1.919 | 1.430 | 2.740 | 125 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,33-34 | 253.235 | 295.115 | 295.11499 | 52.88 | 54062.769 | -13 | 1.919 | 1.430 | 2.740 | 145 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,35-36 | 253.255 | 295.135 | 295.13501 | 61.58 | 54063.812 | -14 | 1.919 | 1.430 | 2.740 | 169 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,37-38 | 253.275 | 295.155 | 295.15500 | 46.15 | 54064.854 | -15 | 1.919 | 1.430 | 2.740 | 127 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,39-41 | 253.300 | 295.180 | 295.17999 | 42.72 | 54066.157 | -16 | 1.919 | 1.430 | 2.740 | 117 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,49-51 | 253.400 | 295.280 | 295.28000 | 71.41 | 54071.369 | -21 | 1.919 | 1.430 | 2.740 | 196 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,59-61 | 253.500 | 295.380 | 295.38000 | 57.90 | 54076.581 | -27 | 1.919 | 1.430 | 2.740 | 159 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,70-71 | 253.605 | 295.485 | 295.48499 | 59.77 | 54082.053 | -32 | 1.919 | 1.430 | 2.740 | 164 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,79-80 | 253.695 | 295.575 | 295.57501 | 127.20 | 54086.745 | -37 | 1.919 | 1.430 | 2.740 | 349 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,89-90 | 253.795 | 295.675 | 295.67499 | 85.86 | 54091.956 | -42 | 1.919 | 1.430 | 2.740 | 236 | Jennions et al., 2015 | |
208-1263C | 208-1263C-10H-7,99-100 | 253.895 | 295.775 | 295.77499 | 116.97 | 54097.168 | -47 | 1.919 | 1.430 | 2.740 | 321 | Jennions et al., 2015 |