Radiocarbon

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The majority of samples processed at the National Ocean Sciences AMS Facility (NOSAMS) thus far were collected as part of the World Ocean Circulation Experiment (WOCE). Due to the long storage time (2-3 yr) required to analyze thousands of samples on the accelerator mass spectrometer (AMS), a test was designed and implemented to determine the effects, if any, of storage time on (super 14) C concentration. We find no systematic offsets in AMS measurements made over a 5-yr period between a total of 16 replicate sets from surface and deep water collected at the same locality. Furthermore, the average delta (super 14) C value from the deepwater AMS replicates (-213.1 per mil, std. dev. 7.3) agrees very closely with the conventional (super 14) C results published for GEOSECS (-212.7 per mil) from station 320 taken 20 yr earlier. A total of 73 WOCE shipboard replicate sets (162 AMS measurements) were analyzed with a mean precision of 4.3 per mil. AMS results from 20 more shipboard replicate sets (44 AMS measurements) submitted as CO (sub 2) from the Stable Isotope Laboratory (SIL) at the University of Washington were analyzed with a mean precision of 3.4 per mil. These results suggests no significant difference between water stripping methods used in each preparation lab. To assess reproducibility, we calculate a pooled estimate of sigma for replicates called s, which we use as an approximation of sigma (sub TOT) for a given sample type. The s for WOCE seawater replicates is 4.9 per mil and 5.8 per mil for SIL gas replicates. These numbers demonstrate an overall reproducibility of seawater AMS results at NOSAMS that is in line with reported errors. We take the difference between total error s and machine error as the overall standard deviation of combined uncertainties associated with preparation of samples and with AMS. For seawater samples processed at NOSAMS, sigma (sub SPL) is calculated to be 2.4 per mil, and for the SIL gas replicates it is 4.8 per mil. Reproducibility of samples prepared with an acid hydrolysis technique is demonstrated using 24 coral samples submitted in triplicate by Dr. R. G. Fairbanks of Lamont Doherty Earth Observatory. Seventy-two replicates were prepared and analyzed at NOSAMS with a mean reported precision of 1.2 per mil. The pooled estimate s for the Fairbanks triplicates is 2.6 per mil. We calculate a laboratory reproducibility uncertainty for coral hydrolysis samples of 2.2 per mil. In 1993, NOSAMS participated in the Third International Radiocarbon Intercomparison (TIRI) Study. We report here 60 AMS analyses of the six TIRI test materials, five of which are organic carbon samples, to validate sample-processing methods for organic carbon sample AMS analyses at NOSAMS.

time factor;hydrolysis;inorganic materials;Anthozoa;Coelenterata;precision;sea water;concentration;organic carbon;statistical analysis;accuracy;accelerator mass spectroscopy;mass spectroscopy;spectroscopy;C 14;carbon;isotopes;radioactive isotopes;Invertebrata;carbon dioxide