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W2080921622 abstract "Measurement of cosmogenic 7Be in soils and sediments by gamma spectroscopy has been routine for three decades. However, the analytical constraints of this method have yet to be adequately described. Natural abundance of 7Be in bulk soils and sediments is typically low (106 to 108 atoms kg− 1), resulting in very low signal-to-noise ratio in the gamma spectrum. 7Be quantification is further complicated by numerous interferences from ubiquitous 238U- and 232Th-series radionuclides. We investigated the environmental gamma spectrum in the region of 7Be emission using spectra obtained from hundreds of natural stream sediment samples, one well-characterized sediment naturally-enriched in 7Be, and pure standard materials enriched in both 238U-series and 232Th-series decay chains. In typical samples no fewer than three discrete photopeaks directly interfere with 7Be measurement, one of which, the 228Ac 478.3 keV photon, yields significant positive bias. Risks of 7Be false-positives due to this overlapping photopeak approach 50% for typical soils or sediments. Detection limits for 7Be in these materials using conventional high-purity germanium instruments are as low as 0.1 Bq, but increase by up to a factor of four in the presence of modest activities of 238U- and 232Th-series nuclides. Here we demonstrate a methodology for the measurement of low 7Be abundances in soils and sediments that is unbiased and that optimizes precision." @default.
W2080921622 created "2016-06-24" @default.
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W2080921622 date "2012-01-01" @default.
W2080921622 modified "2023-10-18" @default.
W2080921622 title "Measurement of 7Be in soils and sediments by gamma spectroscopy" @default.
W2080921622 cites W1700926531 @default.
W2080921622 cites W1747565672 @default.
W2080921622 cites W1966416142 @default.
W2080921622 cites W1967204571 @default.
W2080921622 cites W1967435165 @default.
W2080921622 cites W1967718772 @default.
W2080921622 cites W1967931278 @default.
W2080921622 cites W1969078499 @default.
W2080921622 cites W1969930918 @default.
W2080921622 cites W1974036558 @default.
W2080921622 cites W1977326116 @default.
W2080921622 cites W1981934935 @default.
W2080921622 cites W1986561318 @default.
W2080921622 cites W1990647197 @default.
W2080921622 cites W1992031753 @default.
W2080921622 cites W1992223749 @default.
W2080921622 cites W1994029564 @default.
W2080921622 cites W1997871841 @default.
W2080921622 cites W2000620599 @default.
W2080921622 cites W2004538783 @default.
W2080921622 cites W2006295970 @default.
W2080921622 cites W2008385258 @default.
W2080921622 cites W2009388125 @default.
W2080921622 cites W2010920674 @default.
W2080921622 cites W2016229600 @default.
W2080921622 cites W2018262543 @default.
W2080921622 cites W2019873137 @default.
W2080921622 cites W2022234741 @default.
W2080921622 cites W2027795060 @default.
W2080921622 cites W2027815210 @default.
W2080921622 cites W2043372340 @default.
W2080921622 cites W2049045135 @default.
W2080921622 cites W2051972698 @default.
W2080921622 cites W2052769487 @default.
W2080921622 cites W2053121479 @default.
W2080921622 cites W2061951735 @default.
W2080921622 cites W2063254142 @default.
W2080921622 cites W2066661831 @default.
W2080921622 cites W2068448933 @default.
W2080921622 cites W2068702677 @default.
W2080921622 cites W2070197723 @default.
W2080921622 cites W2072516984 @default.
W2080921622 cites W2077667506 @default.
W2080921622 cites W2079217546 @default.
W2080921622 cites W2082720330 @default.
W2080921622 cites W2085061113 @default.
W2080921622 cites W2085639046 @default.
W2080921622 cites W2087188728 @default.
W2080921622 cites W2089911115 @default.
W2080921622 cites W2090145803 @default.
W2080921622 cites W2090986644 @default.
W2080921622 cites W2091810031 @default.
W2080921622 cites W2121571221 @default.
W2080921622 cites W2131971549 @default.
W2080921622 cites W2147309751 @default.
W2080921622 cites W2155362914 @default.
W2080921622 cites W2202860769 @default.
W2080921622 cites W2542689707 @default.
W2080921622 doi "https://doi.org/10.1016/j.chemgeo.2011.10.007" @default.
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