This dataset contains radiocarbon data and age modeled dates from modern (living) deep-sea proteinaceous corals (Kulamanamana haumaeae) collected from 447 and 415 m respectively from Cross Seamount (19°N, 158°W), southwest of the Big Island of Hawaii, in 2004 using the DSRV Pisces V. Radiocarbon on data and age modeled dates calculated using Calib Calibration 8.1 (Stuiver et al., 2021) and Marine20 Calibration curve (Heaton et al., 2020). These data were generated as part of a study of the p...
Show moreLiving and subfossil deep-sea proteinaceous corals (Kulamanamana haumaeae) were collected from 447 and 415 m respectively from Cross Seamount (19°N, 158°W), southwest of the Big Island of Hawaii, in 2004 using the DSRV Pisces V. See related dataset (https://www.bco-dmo.org/dataset/883713) for results from subfossil corals.
The polyps of live-collected corals were removed and all skeletons were rinsed first with seawater, followed by freshwater, before being air dried on deck. In the lab, ~0.7 cm thick cross-sectional disks were sectioned from near the base of each skeleton, then polished and mounted to glass slides.
A computerized Merchanteck micromill was used to drill a radial transect from the outside to the inner layers of the coral skeleton cross section at 0.1 mm resolution, yielding 2-3 mg of powdered skeletal material per sample interval. All 168 samples from the live-collected coral were analyzed (155 samples in duplicate); while of the 455 subfossil samples drilled, 193 were analyzed, with a greater sample density analyzed from the outermost 10 mm. Bulk powdered coral material (~0.4 mg) was enclosed in tin capsules for bulk δ13C and δ15N analyses via continuous-flow isotope-ratio mass spectrometry (IRMS) using a Carlo-Erba elemental analyzer connected to an Optima Isotope Ratio Mass Spectrometer (IRMS). C/N ratios were simultaneously determined. The analytical error for these measurements, as determined from analysis of standards of known composition (pugel and acetanilide), was ±0.2‰ for both δ13C and δ15N values and ±0.1 for C/N ratios. To test for the impact of secondary authigenic carbonate in the sample matrix, a subset of the same samples from the subfossil coral (1–2 mg each, n = 7) were acidified using 1 N HCl for 20 h under refrigerated conditions, followed by filtration onto a 0.22 μm glass fiber filter. The filter was dried overnight at 45°C before material was transferred into a tin capsule and analyzed following the same procedure as described above.
Radiocarbon dating was performed on nine sample aliquots (~1 mg total material) each spread ~5 mm apart along the skeleton cross section transect. Samples were first fumed with concentrated HCl and subsequently dried before being transferred with methanol into 6 mm short pre-baked (400C, 60 minutes) quartz tubes and dried. The 6 mm tubes were then placed inside larger 9 mm pre-baked (400C, 60mins) quartz tubes with an appropriate amount of pre-baked (400C, 60 mins) CuO, prior to pumping off excess atmosphere, sealing, and combusting to produce CO2. The CO2 after cryogenic purification was converted to graphite and analyzed at the Lawrence Livermore National Laboratory. Results were corrected for δ13C and background 14C using similarly handled 14C-free coal. Radiocarbon results were transformed into calibrated years before present (yr BP). These ages and subsequent age models were generated with Calib 8.2 (Stuiver et al. 2021) using a local reservoir (ΔR) correction of -177 ± 16, (Druffel et al., 2001; Guilderson et al., 2021) and the Marine20 database (Heaton et al. 2020) and linearly interpreted to provide a continuous age-model.
Issue Report:
For modern (live-collected) coral (Coral_Sample_ID: PV590), CAMS# 157843, PV 590 14.0mm was a 40µgC target. This is why the error is larger.
Guilderson, T. (2022) Cross Seamount modern (live) coral radiocarbon data and age modeled dates. Biological and Chemical Oceanography Data Management Office (BCO-DMO). (Version 1) Version Date 2022-12-07 [if applicable, indicate subset used]. http://lod.bco-dmo.org/id/dataset/884969 [access date]
Terms of Use
This dataset is licensed under Creative Commons Attribution 4.0.
If you wish to use this dataset, it is highly recommended that you contact the original principal investigators (PI). Should the relevant PI be unavailable, please contact BCO-DMO (info@bco-dmo.org) for additional guidance. For general guidance please see the BCO-DMO Terms of Use document.