4.7 Article

A millennial-scale record of Pb and Hg contamination in peatlands of the Sacramento-San Joaquin Delta of California, USA

Journal

SCIENCE OF THE TOTAL ENVIRONMENT
Volume 551, Issue -, Pages 738-751

Publisher

ELSEVIER
DOI: 10.1016/j.scitotenv.2016.01.201

Keywords

California Gold Rush; Lead; Lead isotopes; Mercury; Peat archive

Funding

  1. CALFED Science Programof the California Resources Agency [F-O3-RE-029]

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In this paper, we provide the first record of millennial patterns of Pb and Hg concentrations on the west coast of the United States. Peat cores were collected from two micro-tidal marshes in the Sacramento-San Joaquin Delta of California. Core samples were analyzed for Pb, Hg, and Ti concentrations and dated using radiocarbon and Pb-210. Pre-anthropogenic concentrations of Pb and Hg in peat ranged from 0.60 to 13.0 mu g g(-1) and from 6.9 to 71 ng g(-1), respectively. For much of the past 6000+ years, the Delta was free from anthropogenic pollution, however, beginning in similar to 1425 CE, Hg and Pb concentrations, Pb/Ti ratios, Pb enrichment factors (EFs), and HgEFs all increased. Pb isotope compositions of the peat suggest that this uptick was likely caused by smelting activities originating in Asia. The next increases in Pb and Hg contamination occurred during the California Gold Rush (beginning similar to 1850 CE), when concentrations reached their highest levels (74 mu g g(-1) Pb, 990 ng g(-1) Hg; PbEF=12 and HgEF=28). Lead concentrations increased again beginning in the similar to 1920s with the incorporation of Pb additives in gasoline. The phase-out of lead additives in the late 1980s was reflected in changes in Pb isotope ratios and reductions in Pb concentrations in the surface layers of the peat. The rise and subsequent fall of Hg contamination was also tracked by the peat archive, with the highest Hg concentrations occurring just before 1963 CE and then decreasing during the post-1963 period. Overall, the results show that the Delta was a pristine region for most of its similar to 6700-year existence; however, since similar to 1425 CE, it has received Pb and Hg contamination from both global and regional sources. Published by Elsevier B.V.

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