Capabilities of the Lamont–Doherty Earth Observatory in situ14C extraction laboratory updated

We report on the status and capabilities of the Lamont–Doherty Earth Observatory in situ14C extraction laboratory. In late 2006 we began, in collaboration with the AMS group at the University of Arizona, construction of a new laboratory to extract in situ cosmogenic 14C from terrestrial silicates. Long-term measurements of the process blank over the last two years give an arithmetic mean and standard deviation of 125 ± 43 × 103 atoms 14C (n = 9) and show significant improvement in the number of atoms, as well as stability compared to initial measurements of the process blank. We report long-term measurements of the intercomparison material CRONUS-A, which has been developed as part of the CRONUS-Earth effort to characterize inter- and intra-laboratory variability. We interpret the standard deviation (5%) of six replicate measurements of CRONUS-A as the reproducibility of in situ14C extractions in our laboratory.

► Detail the development of the LDEO in situ14C Laboratory. ► Laboratory yields low, stable process blanks. ► Measurement of intercomparison material yields low levels of scatter, ∼5%