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Tidal fluxes of mercury and methylmercury for Mendall Marsh, Penobscot River estuary, Maine.

Authors :
Turner, R.R.
Mitchell, C.P.J.
Kopec, A.D.
Bodaly, R.A.
Source :
Science of the Total Environment. Oct2018, Vol. 637, p145-154. 10p.
Publication Year :
2018

Abstract

Tidal marshes are both important sites of in situ methylmercury production and can be landscape sources of methylmercury to adjacent estuarine systems. As part of a regional investigation of the Hg-contaminated Penobscot River and Bay system, the tidal fluxes of total suspended solids, total mercury and methylmercury into and out of a regionally important mesohaline fluvial marsh complex, Mendall Marsh, were intensively measured over several tidal cycles and at two spatial scales to assess the source-sink function of the marsh with respect to the Penobscot River. Over four tidal cycles on the South Marsh River, the main channel through which water enters and exits Mendall Marsh, the marsh was a consistent sink over typical 12-h tidal cycles for total suspended solids (8.2 to 41 g m −2 ), total Hg (9.2 to 47 μg m −2 ), total filter-passing Hg (0.4 to 1.1 μg m −2 ), and total methylmercury (0.2 to 1.4 μg m −2 ). The marsh's source-sink function was variable for filter-passing methylmercury, acting as a net source during a large spring tide that inundated much of the marsh area and that is likely to occur during approximately 17% of tidal cycles. Additional measurements on a small tidal channel draining approximately 1% of the larger marsh area supported findings at the larger scale, but differences in the flux magnitude of filter-passing fractions suggest a highly non-conservative transport of these fractions through the tidal channels. Overall the results of this investigation demonstrate that Mendall Marsh is not a significant source of mercury or methylmercury to the receiving aquatic systems (Penobscot River and Bay). While there is evidence of a small net export of filter-passing (<0.4 μm pore size) methylmercury under some tidal conditions, the mass involved represents <3% of the mass of filter-passing methylmercury carried by the Penobscot River. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00489697
Volume :
637
Database :
Academic Search Index
Journal :
Science of the Total Environment
Publication Type :
Academic Journal
Accession number :
130224198
Full Text :
https://doi.org/10.1016/j.scitotenv.2018.04.395