Abstract
This dataset contains short-lived radioisotope (SLRad) data collected aboard R/V Weatherbird II cruises WB-2010-08, WB-1109 and WB-1110 in the northern Gulf of Mexico from 2010-08-11 to 2010-12-09. Short-lived radioisotope (SLRad) data were generated for selected core sub-samples at 2mm sampling intervals for “surficial unit” and 5mm sampling resolution intervals to the base of cores. SLRad data generated include sample activity as disintegrations per minute per gram (dpm/g) of 1) Excess 234Th (234Thxs) activity, which is calculated by measuring the total 234Th (234ThTot) activity and the subtraction of the measured or estimated “Supported” 234Th (234ThSup) activity, 2) Excess 210Pb (210Pbxs) activity, which is calculated by measuring the total 210Pb (210PbTot) activity and subtraction of the measured background 210Pb (210PbSup) activity (average of 214Pb at 295keV, 214Pb at 351keV, and 214Bi at 609keV), 3) 137Cs activity, and 4) 7Be activity. Cruise documentation was provided for each of the R/V Weatherbird II cruises. The cruises were led by chief scientists Dr. Benjamin Flower (WB-1109) and Dr. David Hollander (WB-2010-08 and WB-1110).
Purpose
Provide age control and sedimentation rates for sediment cores.
Keywords
Sediment Core, Short-lived Radioisotopes, benthic, sediment analysis, geological, multicorer, Lead, Thorium, Caesium, Beryllium, Bismuth
UDI
R4.x267.000:0118
Date
March 2019
Point of Contact
Name
Gregg R. Brooks
Organization
Eckerd College / Marine Science
Name
Rebekka Larson
Organization
University of South Florida / College of Marine Science
Funding Source
RFP-4
DOI
10.7266/n7-81nq-dq02
Rights Information
This work is licensed under a
Creative Commons Public Domain Dedication 1.0 License.
Scholar Commons Citation
Gregg Brooks and Rebekka Larson. 2019. Short-lived radioisotope (SLRad) data collected aboard R/V Weatherbird II cruises WB-2010-08, WB-1109 and WB-1110 in the northern Gulf of Mexico from 2010-08-11 to 2010-12-09. Distributed by: Gulf of Mexico Research Initiative Information and Data Cooperative (GRIIDC), Harte Research Institute, Texas A&M University–Corpus Christi. doi:10.7266/n7-81nq-dq02
Comments
Supplemental Information
Water depth of core site (m), core collection date (MM/DD/YYYY), site identification (ID), sediment core identification (ID), top depth of interval (mm), bottom depth of interval (mm), average depth of interval (mm), 210Pb (Lead) total (dpm/g), 210Pb (Lead) total error (dpm/g), 234Th (Thorium) Total (dpm/g), 234Th (Thorium) error (dpm/g), re-Analysis of 234Th (Thorium) activity (dpm/g) represent 234ThSup (“supported” Thorium), re-Analysis of 234Th (Thorium) activity error (dpm/g) represent 234ThSup (“supported” Thorium), 137Cs (Caesium) activity (dpm/g), 137Cs (Caesium) activity error (dpm/g), 7Be (Beryllium) activity (dpm/g), 7Be (Beryllium) activity error (dpm/g), 214Pb (Lead, 295 keV) activity (dpm/g), 214Pb (Lead, 295 keV) actvity error (dpm/g), 214Pb (Lead, 351 keV) activity (dpm/g), 214Pb (Lead, 351 keV) actvity error (dpm/g), 214Bi (Bismuth) activity (dpm/g), 214Bi (Bismuth) activity error (dpm/g), 210PbSup (“supported” Lead) activity (dpm/g), 210PbSup (“supported” Lead) activity error (dpm/g), 210Pbxs (Excess Lead) activity (dpm/g), 210Pbxs (Excess Lead) activity error (dpm/g), decay corrected 210Pbxs (Excess Lead) activity (dpm/g), decay corrected 210Pbxs (Excess Lead) activity error (dpm/g), 234Thxs (Excess Thorium) activity (dpm/g), 234Thxs (Excess Thorium) activity error (dpm/g), decay corrected 234Thxs (Excess Thorium) activity (dpm/g), decay corrected 234Thxs (Excess Thorium) activity error (dpm/g), laboratory/ facility where analysis was performed: Eckerd College, St. Petersburg, Florida. Blank cell denotes no analysis performed.|The cores were extruded in the laboratory and the sediment core preservation was not required for this analysis. Samples were analyzed for short-lived radioisotopes by gamma spectrometry on Series HPGe (High-Purity Germanium) Coaxial Planar Photon Detectors. The detail methods on short-lived radioisotope geochronology can be found at Larson et al., 2018.|Series HPGe (High-Purity Germanium) Coaxial Planar Photon Detectors.|||Larson, R. A., Brooks, G. R., Schwing, P. T., Holmes, C. W., Carter, S. R., & Hollander, D. J. (2018). High-resolution investigation of event driven sedimentation: Northeastern Gulf of Mexico. Anthropocene, 24, 40–50. doi:10.1016/j.ancene.2018.11.002