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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

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Keyword(s):
Barite; Benthic Foraminifers; Eocene; hyperthermal; PETM
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):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
Event labelEventGriffith, Elizabeth M
Sample code/labelSample labelGriffith, Elizabeth MDSDP/ODP/IODP sample designation
DEPTH, sediment/rockDepth sedmGriffith, Elizabeth MGeocode – mbsf
Depth, compositeDepth compmcdGriffith, Elizabeth MIntercore correlation
Depth, composite revisedDepth comp rrmcdGriffith, Elizabeth MIntercore correlation
Foraminifera, benthicForam benth#/cm3Griffith, Elizabeth M
AGEAgeka BPGriffith, Elizabeth MGeocode – Age W17
Age, relativeAge relkaGriffith, Elizabeth Mfrom ETM2
Age, relativeAge relkaGriffith, Elizabeth Mfrom ETM3
10 Linear sedimentation rateLSRcm/kaGriffith, Elizabeth MCalculated
11 Density, dry bulkDBDg/cm3Griffith, Elizabeth M
12 Accumulation rate, massMARg/cm2/kaGriffith, Elizabeth MCalculated
13 Accumulation rate, number of benthic foraminiferaBFAR#/cm2/kaGriffith, Elizabeth MCalculatedusing Age W17
14 Reference/sourceReferenceGriffith, Elizabeth M
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Size:
950 data points

Data

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


Event
Sample label
(DSDP/ODP/IODP sample designation)
Depth sed [m]
(mbsf)
Depth comp [mcd]
(Intercore correlation)
Depth comp r [rmcd]
(Intercore correlation)
Foram benth [#/cm3]
Age [ka BP]
(Age W17)
Age rel [ka]
(from ETM2)
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-2,122-123234.830274.860274.8550187.0652826.828181.2381.4881.842160Thomas et al., 2018
208-1263A208-1263A-27H-2,124-125234.850274.880274.8750094.7252828.442171.2381.4881.842174Thomas et al., 2018
208-1263A208-1263A-27H-2,126-127234.870274.900274.89499100.9852830.057151.2381.4881.842186Thomas et al., 2018
208-1263A208-1263A-27H-2,128-129234.890274.920274.9150175.6352831.674131.2381.4881.842139Thomas et al., 2018
208-1263A208-1263A-27H-2,130-131234.910274.940274.9350089.7652833.288121.2381.4881.842165Thomas et al., 2018
208-1263A208-1263A-27H-2,132-133234.930274.960274.9549965.7752834.903101.2381.4881.842121Thomas et al., 2018
208-1263A208-1263A-27H-2,134-135234.950274.980274.9750174.9652836.52081.2381.4881.842138Thomas et al., 2018
208-1263A208-1263A-27H-2,136-137234.970275.000274.9950061.2452838.13571.2381.4881.842113Thomas et al., 2018
208-1263A208-1263A-27H-2,138-139234.990275.020275.0150140.8752839.75151.2381.4881.84275Thomas et al., 2018
208-1263A208-1263A-27H-2,140-141235.010275.040275.0350064.0452841.36541.2381.4881.842118Thomas et al., 2018
208-1263A208-1263A-27H-2,142-143235.030275.060275.0549935.7152842.98021.2381.4881.84266Thomas et al., 2018
208-1263A208-1263A-27H-2,144-145235.050275.080275.0750140.2552844.59701.1941.4881.77772Thomas et al., 2018
208-1263A208-1263A-27H-2,146-147235.070275.100275.0950036.9752846.271-11.1801.4881.75665Thomas et al., 2018
208-1263A208-1263A-27H-2,148-149235.090275.120275.1149912.1652847.965-31.1801.4881.75621Thomas et al., 2018
208-1263A208-1263A-27H-3,0-1235.110275.140275.1350139.6652849.662-51.1801.4881.75670Thomas et al., 2018
208-1263A208-1263A-27H-3,2-3235.130275.160275.1550038.1952851.356-61.1801.4881.75667Thomas et al., 2018
208-1263A208-1263A-27H-3,4-5235.150275.180275.1749933.8252853.050-81.1801.4881.75659Thomas et al., 2018
208-1263A208-1263A-27H-3,6-7235.170275.200275.1950131.6952854.747-101.1801.4881.75656Thomas et al., 2018
208-1263A208-1263A-27H-3,8-9235.190275.220275.2150047.0152856.441-111.1801.4881.75683Thomas et al., 2018
208-1263A208-1263A-27H-3,10-11235.210275.240275.2349933.3852858.135-131.1801.4881.75659Thomas et al., 2018
208-1263A208-1263A-27H-3,12-13235.230275.260275.2550057.6152859.831-151.1801.4881.756101Thomas et al., 2018
208-1263A208-1263A-27H-3,14-15235.250275.280275.2749947.8752861.525-171.1801.4881.75684Thomas et al., 2018
208-1263A208-1263A-27H-3,16-17235.270275.300275.2950176.1152863.221-181.1801.4881.756134Thomas et al., 2018
208-1263A208-1263A-27H-3,18-19235.290275.320275.3150077.9652864.915-201.1801.4881.756137Thomas et al., 2018
208-1263A208-1263A-27H-3,20-21235.310275.340275.3349979.2552866.609-221.1801.4881.756139Thomas et al., 2018
208-1263A208-1263A-27H-3,22-23235.330275.360275.3550169.2452868.306-231.1801.4881.756122Thomas et al., 2018
208-1263A208-1263A-27H-3,24-25235.350275.380275.3750070.3352870.000-251.1801.4881.756123Thomas et al., 2018
208-1263A208-1263A-27H-3,26-27235.370275.400275.3949973.7652871.694-271.1801.4881.756130Thomas et al., 2018
208-1263A208-1263A-27H-3,28-29235.390275.420275.4150172.5252873.391-281.1801.4881.756127Thomas et al., 2018
208-1263A208-1263A-27H-3,30-31235.410275.440275.4350062.3752875.085-301.1801.4881.756110Thomas et al., 2018
208-1263A208-1263A-27H-3,32-33235.430275.460275.4549954.1052876.779-321.1801.4881.75695Thomas et al., 2018
208-1263A208-1263A-27H-3,34-35235.450275.480275.4750187.0852878.475-331.1801.4881.756153Thomas et al., 2018
208-1263A208-1263A-27H-3,36-37235.470275.500275.4950071.2752880.169-351.1801.4881.756125Thomas et al., 2018
208-1263A208-1263A-27H-3,38-39235.490275.520275.5150176.9052881.865-371.1801.4881.756135Thomas et al., 2018
208-1263A208-1263A-27H-3,40-41235.510275.540275.5350066.6152883.559-391.1801.4881.756117Thomas et al., 2018
208-1263A208-1263A-27H-3,42-43235.530275.560275.5549964.4952885.253-401.1801.4881.756113Thomas et al., 2018
208-1263A208-1263A-27H-3,44-45235.550275.580275.5750174.0252886.950-421.1801.4881.756130Thomas et al., 2018
208-1263A208-1263A-27H-3,46-47235.570275.600275.5950082.2552888.644-441.1801.4881.756144Thomas et al., 2018
208-1263A208-1263A-27H-3,48-49235.590275.620275.6149969.0352890.338-451.1801.4881.756121Thomas et al., 2018
208-1263A208-1263A-27H-3,50-51235.610275.640275.6350155.1852892.035-471.1801.4881.75697Thomas et al., 2018
208-1263A208-1263A-27H-3,54-55235.650275.680275.6749978.1352895.423-501.1801.4881.756137Thomas et al., 2018
208-1263A208-1263A-27H-3,56-57235.670275.700275.6950189.1852897.119-521.1801.4881.756157Thomas et al., 2018
208-1263A208-1263A-27H-3,58-59235.690275.720275.7150078.6352898.814-541.1801.4881.756138Thomas et al., 2018
208-1263A208-1263A-27H-3,60-61235.710275.740275.7349982.1952900.508-561.1801.4881.756144Thomas et al., 2018
208-1263A208-1263A-27H-3,62-63235.730275.760275.7550095.0952902.203-571.1801.4881.756167Thomas et al., 2018
208-1263A208-1263A-27H-3,64-65235.750275.780275.77499110.6952903.897-591.1801.4881.756194Thomas et al., 2018
208-1263C 208-1263C-10H-6,0-1251.905293.785293.7850032.8153993.601561.9241.4302.75090Jennions et al., 2015
208-1263C208-1263C-10H-6,10-11252.005293.885293.8850158.1953998.800511.9241.4302.750160Jennions et al., 2015
208-1263C208-1263C-10H-6,18-19252.085293.965293.9650055.5654002.958471.9241.4302.750153Jennions et al., 2015
208-1263C208-1263C-10H-6,28-29252.185294.065294.0650049.7454008.156421.9241.4302.750137Jennions et al., 2015
208-1263C208-1263C-10H-6,38-39252.285294.165294.1650149.1254013.354371.9241.4302.750135Jennions et al., 2015
208-1263C208-1263C-10H-6,48-49252.385294.265294.2650157.5554018.553311.9241.4302.750158Jennions et al., 2015
208-1263C208-1263C-10H-6,58-59252.485294.365294.3649952.2954023.749261.9241.4302.750144Jennions et al., 2015
208-1263C208-1263C-10H-6,59-69252.540294.420294.4200149.0254026.609231.9241.4302.750135Jennions et al., 2015
208-1263C208-1263C-10H-6,78-79252.685294.565294.5650058.7254034.146161.9241.4302.750162Jennions et al., 2015
208-1263C208-1263C-10H-6,80-81252.705294.585294.5849941.3654035.185151.9241.4302.750114Jennions et al., 2015
208-1263C208-1263C-10H-6,82-83252.725294.605294.6050150.0254036.226141.9241.4302.750138Jennions et al., 2015
208-1263C208-1263C-10H-6,84-85252.745294.625294.6250040.5854037.265131.9241.4302.750112Jennions et al., 2015
208-1263C208-1263C-10H-6,86-87252.765294.645294.6449938.2654038.304121.9241.4302.750105Jennions et al., 2015
208-1263C208-1263C-10H-6,88-89252.785294.665294.6650146.4154039.345111.9241.4302.750128Jennions et al., 2015
208-1263C208-1263C-10H-6,90-91252.805294.685294.6850043.8654040.384101.9241.4302.750121Jennions et al., 2015
208-1263C208-1263C-10H-6,92-93252.825294.705294.7049942.4954041.42391.9241.4302.750117Jennions et al., 2015
208-1263C208-1263C-10H-6,94-95252.845294.725294.7250143.6054042.46381.9241.4302.750120Jennions et al., 2015
208-1263C208-1263C-10H-6,96-97252.865294.745294.7450049.3054043.50261.9241.4302.750136Jennions et al., 2015
208-1263C208-1263C-10H-6,98-99252.885294.765294.7650154.4954044.54351.9241.4302.750150Jennions et al., 2015
208-1263C208-1263C-10H-6,100-101252.905294.785294.7850035.4754045.58241.9241.4302.75098Jennions et al., 2015
208-1263C208-1263C-10H-7,0-1252.905294.785294.7850041.6354045.58241.9241.4302.750115Jennions et al., 2015
208-1263C208-1263C-10H-7,3-4252.935294.815294.8150035.6454047.14131.9241.4302.75098Jennions et al., 2015
208-1263C208-1263C-10H-7,5-6252.955294.835294.8349941.2554048.18021.9241.4302.750113Jennions et al., 2015
208-1263C208-1263C-10H-7,6-7252.965294.845294.8450033.7954048.70011.9241.4302.75093Jennions et al., 2015
208-1263C208-1263C-10H-7,7-8252.975294.855294.8550118.7454049.22111.9241.4302.75052Jennions et al., 2015
208-1263C208-1263C-10H-7,8-9252.985294.865294.864992.9354049.74001.9211.4302.7508Jennions et al., 2015
208-1263C208-1263C-10H-7,9-10252.995294.875294.875001.5354050.26101.9191.4302.7404Jennions et al., 2015
208-1263C208-1263C-10H-7,10-11253.005294.885294.885013.4254050.782-11.9191.4302.7409Jennions et al., 2015
208-1263C208-1263C-10H-7,11-12253.015294.895294.8949917.8554051.302-11.9191.4302.74049Jennions et al., 2015
208-1263C208-1263C-10H-7,13-14253.035294.915294.9150143.2054052.346-21.9191.4302.740119Jennions et al., 2015
208-1263C208-1263C-10H-7,15-16253.055294.935294.9350049.5554053.388-31.9191.4302.740136Jennions et al., 2015
208-1263C208-1263C-10H-7,17-18253.075294.955294.9549946.5554054.430-41.9191.4302.740128Jennions et al., 2015
208-1263C208-1263C-10H-7,19-20253.095294.975294.9750142.6054055.473-51.9191.4302.740117Jennions et al., 2015
208-1263C208-1263C-10H-7,21-23253.120295.000295.0000041.6154056.776-71.9191.4302.740114Jennions et al., 2015
208-1263C208-1263C-10H-7,23-24253.135295.015295.0150136.8354057.558-81.9191.4302.740101Jennions et al., 2015
208-1263C208-1263C-10H-7,25-26253.155295.035295.0350042.9754058.600-91.9191.4302.740118Jennions et al., 2015
208-1263C208-1263C-10H-7,27-28253.175295.055295.0549942.0354059.642-101.9191.4302.740115Jennions et al., 2015
208-1263C208-1263C-10H-7,29-30253.195295.075295.0750143.5454060.685-111.9191.4302.740119Jennions et al., 2015
208-1263C208-1263C-10H-7,31-33253.220295.100295.1000145.5954061.988-121.9191.4302.740125Jennions et al., 2015
208-1263C208-1263C-10H-7,33-34253.235295.115295.1149952.8854062.769-131.9191.4302.740145Jennions et al., 2015
208-1263C208-1263C-10H-7,35-36253.255295.135295.1350161.5854063.812-141.9191.4302.740169Jennions et al., 2015
208-1263C208-1263C-10H-7,37-38253.275295.155295.1550046.1554064.854-151.9191.4302.740127Jennions et al., 2015
208-1263C208-1263C-10H-7,39-41253.300295.180295.1799942.7254066.157-161.9191.4302.740117Jennions et al., 2015
208-1263C208-1263C-10H-7,49-51253.400295.280295.2800071.4154071.369-211.9191.4302.740196Jennions et al., 2015
208-1263C208-1263C-10H-7,59-61253.500295.380295.3800057.9054076.581-271.9191.4302.740159Jennions et al., 2015
208-1263C208-1263C-10H-7,70-71253.605295.485295.4849959.7754082.053-321.9191.4302.740164Jennions et al., 2015
208-1263C208-1263C-10H-7,79-80253.695295.575295.57501127.2054086.745-371.9191.4302.740349Jennions et al., 2015
208-1263C208-1263C-10H-7,89-90253.795295.675295.6749985.8654091.956-421.9191.4302.740236Jennions et al., 2015
208-1263C208-1263C-10H-7,99-100253.895295.775295.77499116.9754097.168-471.9191.4302.740321Jennions et al., 2015