Tracing the sources and depositional history of mercury to coastal northeastern U.S. lakes

Mercury (Hg) deposition was reconstructed in sediment cores from lakes in two coastal U.S. National Parks: Acadia National Park (ANP) and Cape Cod National Seashore (CCNS), to fill an important spatial gap in Hg deposition records and to explore changing sources of Hg and processes affecting Hg accu...

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Bibliographic Details
Published in:Environmental science--processes & impacts 2022-10, Vol.24 (1), p.185-182
Main Authors: Taylor, Vivien F, Landis, Joshua D, Janssen, Sarah E
Format: Article
Language:English
Subjects:
Accumulation
Beryllium
Beryllium 7
Cores
Deposition
Depth profiling
Emissions
Emissions control
Environmental Monitoring
Fallout
Fluctuations
Geologic Sediments
Heavy metals
Isotope ratios
Lakes
Lead
Lead isotopes
Mercury
Mercury (metal)
Mercury - analysis
Mountains
National parks
Ponds
Radioisotopes
Sediments
Water Pollutants, Chemical - analysis
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Summary:Mercury (Hg) deposition was reconstructed in sediment cores from lakes in two coastal U.S. National Parks: Acadia National Park (ANP) and Cape Cod National Seashore (CCNS), to fill an important spatial gap in Hg deposition records and to explore changing sources of Hg and processes affecting Hg accumulation in these coastal sites. Recent Hg deposition chronology was assessed using (1) a newly developed lead-210 ( 210 Pb) based sediment age model which employs 7 Be to constrain deposition and sediment mixing of 210 Pb-excess, (2) coinciding Pb flux and isotope ratios ( 206 Pb/ 207 Pb), and (3) Hg isotope ratios and their response to changes in Hg flux. At both sites, Hg flux increased substantially from pre-1850 levels, with accumulation in ANP peaking in the 1970s, whereas in CCNS, Hg levels were highest in recent sediments. Negative values of δ 202 Hg and Δ 199 Hg indicated terrestrially-derived Hg was a major constituent of Hg flux to Sargent Mountain Pond, ANP, although recent decreases in Hg flux were in agreement with precipitation Hg records, indicating a rapid watershed response. By contrast, δ 202 Hg and Δ 199 Hg profiles in Long Pond, CNNS reflect direct Hg deposition, but disturbances in the sedimentary record were indicated by bomb fallout radionuclide inventories and by peaks in both Pb and Hg isotope depth profiles. These cores provided poor reconstructions of atmospheric deposition and reveal responses that are decoupled from emissions reduction due to complex post-depositional redistribution of atmospheric metals including Hg. The application of multiple tracers of Hg deposition provide insight into the sources and pathways governing Hg accumulation in these lakes. Mercury deposition was reconstructed in lake sediment cores in two coastal U.S. National Parks using a new chronometric model and stable Hg and Pb isotope ratios to reveal differences in depositional processes affecting Hg accumulation under declining Hg emissions.
ISSN:2050-7887
2050-7895
DOI:10.1039/d2em00214k