Müller, Peter J; Budziak, Dörte (2004): C37-alkenones of sediment core GeoB3005-1 [dataset]. Department of Geosciences, Bremen University, PANGAEA, https://doi.org/10.1594/PANGAEA.143727
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Published: 2004-04-28 • DOI registered: 2009-06-09
Project(s):
Coverage:
Latitude: 14.971667 * Longitude: 54.370000
Date/Time Start: 1995-03-08T11:08:00 * Date/Time End: 1995-03-08T11:08:00
Minimum DEPTH, sediment/rock: 0.03 m * Maximum DEPTH, sediment/rock: 11.23 m
Event(s):
GeoB3005-1 (M31/3-108_GC) * Latitude: 14.971667 * Longitude: 54.370000 * Date/Time: 1995-03-08T11:08:00 * Elevation: -2316.0 m * Recovery: 11.48 m * Location: Western Arabian See * Campaign: M31/3 (BIGSET) * Basis: Meteor (1986) * Method/Device: Gravity corer (Kiel type) (SL) * Comment: Penetration until weight, 0 - 5 cm missing, CC: carbonate-ooze, olive-green, foraminifers
Parameter(s):
| # | Name | Short Name | Unit | Principal Investigator | Method/Device | Comment |
|---|---|---|---|---|---|---|
| 1 | DEPTH, sediment/rock | Depth sed | m | Geocode | ||
| 2 | Depth, composite | Depth comp | mcd | Müller, Peter J | Intercore correlation | |
| 3 | Sedimentation rate | SR | cm/ka | Müller, Peter J | Calculated | |
| 4 | Water content, wet mass | Water wm | % | Müller, Peter J | Calculated from mass/volume | |
| 5 | Porosity | Poros | % vol | Müller, Peter J | Calculated from mass/volume | |
| 6 | Density, wet bulk | WBD | g/cm3 | Müller, Peter J | Calculated from mass/volume | |
| 7 | Density, dry bulk | DBD | g/cm3 | Müller, Peter J | Calculated from mass/volume | |
| 8 | Carbon, total | TC | % | Müller, Peter J | Element analyser CHN, LECO | |
| 9 | Carbon, organic, total | TOC | % | Müller, Peter J | Element analyser CHN | |
| 10 | Carbon in carbonate | C (carb) | % | Müller, Peter J | Element analyser CHN, LECO | |
| 11 | Nitrogen, total | TN | % | Müller, Peter J | Element analyser CHN | |
| 12 | Heptatriaconta-8E,15E,22E-trien-2-one | C37:3Me | ng/g | Müller, Peter J | Gas chromatography | |
| 13 | Heptatriaconta-15E,22E-dien-2-one | C37:2Me | ng/g | Müller, Peter J | Gas chromatography | |
| 14 | Alkenone, C37:3+C37:2 | K37 | ng/g | Müller, Peter J | Gas chromatography | |
| 15 | Alkenone, unsaturation index UK'37 | UK'37 | Müller, Peter J | Calculated from C37 alkenones (Brassell et al., 1986) | ||
| 16 | Sea surface temperature, annual mean | SST (1-12) | °C | Müller, Peter J | Calculated from UK'37 (Müller et al, 1998) | |
| 17 | Alkenone, C37 normalized to total organic carbon | K37 n TOC | µg/g | Müller, Peter J | Calculated | |
| 18 | Globigerinoides ruber white, δ18O | G. ruber w δ18O | ‰ PDB | Müller, Peter J | Mass spectrometer Finnigan MAT 251 | size 250-315 µm |
| 19 | Globigerinoides ruber white, δ13C | G. ruber w δ13C | ‰ PDB | Müller, Peter J | Mass spectrometer Finnigan MAT 251 | |
| 20 | Neogloboquadrina dutertrei, δ18O | N. dutertrei δ18O | ‰ PDB | Müller, Peter J | Mass spectrometer Finnigan MAT 251 | size > 315 mm |
| 21 | Neogloboquadrina dutertrei, δ13C | N. dutertrei δ13C | ‰ PDB | Müller, Peter J | Mass spectrometer Finnigan MAT 251 | |
| 22 | Globigerina bulloides, δ18O | G. bulloides δ18O | ‰ PDB | Müller, Peter J | Mass spectrometer Finnigan MAT 251 | |
| 23 | Globigerina bulloides, δ13C | G. bulloides δ13C | ‰ PDB | Müller, Peter J | Mass spectrometer Finnigan MAT 251 | |
| 24 | Color reflectance at 550 nm | Color 550 | % | Müller, Peter J | Spectrophotometer Minolta CM-2002 | |
| 25 | Octatriaconta-9E,16E,23E-trien-3-one | C38:3Et | ng/g | Müller, Peter J | Gas chromatography | |
| 26 | Octatriaconta-9E,16E,23E-trien-2-one | C38:3Me | ng/g | Müller, Peter J | Gas chromatography | |
| 27 | Octatriaconta-16E,23E-dien-3-one | C38:2Et | ng/g | Müller, Peter J | Gas chromatography | |
| 28 | Octatriaconta-16E,23E-dien-2-one | C38:2Me | ng/g | Müller, Peter J | Gas chromatography | |
| 29 | Alkenone, C38:3Et+C38:2Et | K38e | ng/g | Müller, Peter J | Gas chromatography | |
| 30 | Alkenone, unsaturation index UK38Et | UK38Et | Müller, Peter J | Calculated from C38 alkenones (Brassel, 1993, in Engel, Organic Geochemistry) | ||
| 31 | Alkenone, C38:3Et+C38:2Et+C38:3Me+C38:2Me | K38 | ng/g | Müller, Peter J | Gas chromatography | |
| 32 | Alkenone, C38 normalized to total organic carbon | K38 n TOC | µg/g | Müller, Peter J | Calculated from C38 alkenones (Brassel, 1993, in Engel, Organic Geochemistry) | |
| 33 | Alkenone, C37/C38 ratio | K37/K38 | Müller, Peter J | Calculated | ||
| 34 | Alkenone, C37/C38e ratio | K37/K38e | Müller, Peter J | Calculated | ||
| 35 | Alkenone, C37/C38m ratio | K37/K38m | Müller, Peter J | Calculated | ||
| 36 | Alkenone, unsaturation index UK38 | UK38 | Müller, Peter J | Calculated from C38 alkenones (Brassel, 1993, in Engel, Organic Geochemistry) | ||
| 37 | Alkenone, unsaturation index UK38Me | UK38Me | Müller, Peter J | Calculated from C38 alkenones (Brassel, 1993, in Engel, Organic Geochemistry) | ||
| 38 | Accumulation rate, mass | MAR | g/cm2/ka | Müller, Peter J | Calculated | |
| 39 | Accumulation rate, total organic carbon | Acc rate TOC | g/cm2/ka | Müller, Peter J | Calculated | |
| 40 | Accumulation rate, calcium carbonate | Acc rate CaCO3 | g/cm2/ka | Müller, Peter J | Calculated | |
| 41 | Accumulation rate, alkenone C37 | Acc rate C37 | µg/cm2/ka | Müller, Peter J | Calculated from C37 alkenones (Brassell et al., 1986) | |
| 42 | Alkenone, C38:3Me+C38:2Me | K38m | ng/g | Müller, Peter J | Gas chromatography |
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