Suchéras-Marx, Baptiste; Mattioli, Emanuela; Allemand, Pascal; Giraud, Fabienne; Pittet, Bernard; Plancq, Julien; Escarguel, Gilles (2019): Calcareous nannofossils absolute abundance and accumulation rates from DSDP Site 72-516 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.902978, In supplement to: Suchéras-Marx, B et al. (2019): The colonization of the oceans by calcifying pelagic algae. Biogeosciences, 16(12), 2501-2510, https://doi.org/10.5194/bg-16-2501-2019
Always quote citation above when using data! You can download the citation in several formats below.
Related to:
Plancq, Julien; Grossi, Vincent; Henderiks, Jorijntje; Simon, Laurent; Mattioli, Emanuela (2012): Alkenone producers during late Oligocene-early Miocene revisited. Paleoceanography, 27(1), https://doi.org/10.1029/2011PA002164
Plancq, Julien; Mattioli, Emanuela; Henderiks, Jorijntje; Grossi, Vincent (2013): Global shifts in Noelaerhabdaceae assemblages during the late Oligocene–early Miocene. Marine Micropaleontology, 103, 40-50, https://doi.org/10.1016/j.marmicro.2013.07.004
Original version:
Further details:
Geisen, Markus; Bollmann, Jörg; Herrle, Jens O; Mutterlose, Jörg; Young, Jeremy R (1999): Calibration of the Random Settling Technique for Calculation of Absolute Abundances of Calcareous Nannoplankton. Micropaleontology, 45(4), 437, https://doi.org/10.2307/1486125
Suchéras-Marx, Baptiste; Mattioli, Emanuela; Allemand, Pascal; Giraud, Fabienne; Pittet, Bernard; Plancq, Julien; Escarguel, Gilles (2019): Calcareous nannofossils mean accumulation rates maps. PANGAEA, https://doi.org/10.1594/PANGAEA.902907
Suchéras-Marx, Baptiste; Mattioli, Emanuela; Allemand, Pascal; Giraud, Fabienne; Pittet, Bernard; Plancq, Julien; Escarguel, Gilles (2019): Total calcareous nannofossils abundance and accumulation rates over the past 200 Myr. PANGAEA, https://doi.org/10.1594/PANGAEA.903456
Coverage:
Latitude: -30.276300 * Longitude: -35.285200
Date/Time Start: 1980-03-11T00:00:00 * Date/Time End: 1980-03-11T00:00:00
Minimum DEPTH, sediment/rock: 104.5 m * Maximum DEPTH, sediment/rock: 239.1 m
Event(s):
72-516 * Latitude: -30.276300 * Longitude: -35.285200 * Date/Time: 1980-03-11T00:00:00 * Elevation: -1313.0 m * Penetration: 183.3 m * Recovery: 148.1 m * Location: South Atlantic/CONT RISE * Campaign: Leg72 * Basis: Glomar Challenger * Method/Device: Drilling/drill rig (DRILL) * Comment: 40 cores; 166.1 m cored; 17.2 m drilled; 89.2 % recovery
Parameter(s):
# | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
---|---|---|---|---|---|---|
1 | File name | File name | Suchéras-Marx, Baptiste | in original data file (Table_S1) | ||
2 | Country | Country | Suchéras-Marx, Baptiste | |||
3 | Site | Site | Suchéras-Marx, Baptiste | |||
4 | Stage | Stage | Suchéras-Marx, Baptiste | stage/substage | ||
5 | Nannofossil zone | Nannos zone | Suchéras-Marx, Baptiste | |||
6 | AGE | Age | ka BP | Suchéras-Marx, Baptiste | Geocode | |
7 | Nannofossils, abundance, absolute | Nannofossils abund abs | #/g | Suchéras-Marx, Baptiste | after Geisen et al., 1999 | |
8 | Sedimentation rate | SR | cm/ka | Suchéras-Marx, Baptiste | after Geisen et al., 1999 | |
9 | Accumulation rate, nannofossils | Acc rae nannos | #/m2/a | Suchéras-Marx, Baptiste | after Geisen et al., 1999 | |
10 | DEPTH, sediment/rock | Depth sed | m | Suchéras-Marx, Baptiste | Geocode |
License:
Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC-BY-NC-SA-4.0)
Size:
288 data points
Data
1 File name | 2 Country | 3 Site | 4 Stage | 5 Nannos zone | 6 Age [ka BP] | 7 Nannofossils abund abs [#/g] | 8 SR [cm/ka] | 9 Acc rae nannos [#/m2/a] | 10 Depth sed [m] |
---|---|---|---|---|---|---|---|---|---|
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN3 | 16761.82 | 6.59E9 | 1.7000000 | 1.33E11 | 104.5 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN3 | 17078.89 | 3.36E9 | 1.7000000 | 6.76E10 | 109.8 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN3 | 17299.41 | 4.48E9 | 1.7000000 | 9.02E10 | 113.5 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN3 | 17466.88 | 4.58E9 | 1.7000000 | 9.23E10 | 116.3 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN3 | 17666.54 | 5.70E9 | 1.7000000 | 1.15E11 | 119.6 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 17873.36 | 4.94E9 | 1.7000000 | 9.95E10 | 123.1 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 17987.79 | 3.15E9 | 1.7000000 | 6.34E10 | 125.0 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 18089.70 | 7.20E9 | 1.7000000 | 1.45E11 | 126.7 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 18713.72 | 4.90E9 | 1.7000000 | 9.87E10 | 137.2 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 19149.39 | 4.22E9 | 1.7000000 | 8.50E10 | 144.5 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 19442.03 | 5.65E9 | 1.7000000 | 1.14E11 | 149.4 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 19661.95 | 5.44E9 | 1.7000000 | 1.09E11 | 153.1 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 19704.86 | 6.02E9 | 1.7000000 | 1.21E11 | 153.8 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 19920.02 | 6.58E9 | 1.7000000 | 1.33E11 | 157.4 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 20160.21 | 5.52E9 | 1.7000000 | 1.11E11 | 161.5 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 20445.69 | 6.91E9 | 1.7000000 | 1.39E11 | 166.3 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 20539.26 | 6.12E9 | 1.7000000 | 1.23E11 | 167.8 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 20661.44 | 5.15E9 | 1.7000000 | 1.04E11 | 169.9 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 20783.03 | 3.12E9 | 1.7000000 | 6.28E10 | 171.9 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 20834.28 | 9.00E9 | 1.7000000 | 1.81E11 | 172.8 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 21140.03 | 3.56E9 | 1.7000000 | 7.17E10 | 177.9 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 21162.08 | 5.74E9 | 1.7000000 | 1.16E11 | 178.3 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 21175.20 | 3.47E9 | 1.7000000 | 6.98E10 | 178.5 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 21196.06 | 2.97E9 | 1.7000000 | 5.97E10 | 178.9 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 21212.74 | 4.31E9 | 1.7000000 | 8.68E10 | 179.1 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 21230.03 | 1.98E9 | 1.7000000 | 4.00E10 | 179.4 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 21246.72 | 4.93E9 | 1.7000000 | 9.93E10 | 179.7 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 21294.40 | 5.25E9 | 1.7000000 | 1.06E11 | 180.5 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 21532.20 | 5.13E9 | 1.7000000 | 1.03E11 | 184.5 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 21848.08 | 2.36E9 | 1.7000000 | 4.75E10 | 189.8 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN2 | 22122.24 | 3.74E9 | 1.7000000 | 7.53E10 | 194.4 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN1 | 22387.46 | 5.36E9 | 1.7000000 | 1.08E11 | 198.8 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN1 | 22646.72 | 6.77E9 | 1.7000000 | 1.36E11 | 203.2 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN1 | 22843.40 | 3.41E9 | 1.7000000 | 6.87E10 | 206.5 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Miocene | NN1 | 23009.09 | 7.40E9 | 1.7000000 | 1.49E11 | 209.3 |
Oligocene-Miocene DSDP516 | South Atlantic | DSDP516 | Oligocene | NN1 | 24783.38 | 4.87E9 | 1.7000000 | 9.80E10 | 239.1 |