Soil mercury and its response to atmospheric mercury deposition across the northeastern United States

Terrestrial soil is a large reservoir of atmospherically deposited mercury (Hg). However, few studies have evaluated the accumulation of Hg in terrestrial ecosystems in the northeastern United States, a region which is sensitive to atmospheric Hg deposition. We characterized Hg and organic matter in...

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Veröffentlicht in:	Ecological applications 2014-06, Vol.24 (4), p.812-822
Hauptverfasser:	Yu, Xue, Driscoll, Charles T, Warby, Richard A. F, Montesdeoca, Mario, Johnson, Chris E
Format:	Artikel
Sprache:	eng
Schlagworte:	Acid soils Air Pollutants - chemistry Atmosphere atmospheric mercury deposition Atmospherics Carbon - chemistry Environmental Monitoring Forest soils Mercury Mercury - chemistry Minerals New England Organic soils Soil - chemistry Soil air soil carbon Soil horizons Soil Pollutants - chemistry Soil pollution soil profile Soil samples spatial pattern
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creator	Yu, Xue Driscoll, Charles T Warby, Richard A. F Montesdeoca, Mario Johnson, Chris E
description	Terrestrial soil is a large reservoir of atmospherically deposited mercury (Hg). However, few studies have evaluated the accumulation of Hg in terrestrial ecosystems in the northeastern United States, a region which is sensitive to atmospheric Hg deposition. We characterized Hg and organic matter in soil profiles from 139 sampling sites for five subregions across the northeastern United States and estimated atmospheric Hg deposition to these sites by combining numerical modeling with experimental data from the literature. We did not observe any significant relationships between current net atmospheric Hg deposition and soil Hg concentrations or pools, even though soils are a net sink for Hg inputs. Soil Hg appears to be preserved relative to organic carbon (OC) and/or nitrogen (N) in the soil matrix, as a significant negative relationship was observed between the ratios of Hg/OC and OC/N (r = 0.54, P < 0.0001) that shapes the horizonal distribution patterns. We estimated that atmospheric Hg deposition since 1850 (3.97 mg/m2) accounts for 102% of the Hg pool in the organic horizons (3.88 mg/m2) and 19% of the total soil Hg pool (21.32 mg/m2), except for the southern New England (SNE) subregion. The mean residence time for soil Hg was estimated to be 1800 years, except SNE which was 800 years. These patterns suggest that in addition to atmospheric deposition, the accumulation of soil Hg is linked to the mineral diagenetic and soil development processes in the region.
doi_str_mv	10.1890/13-0212.1
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Soil Hg appears to be preserved relative to organic carbon (OC) and/or nitrogen (N) in the soil matrix, as a significant negative relationship was observed between the ratios of Hg/OC and OC/N (r = 0.54, P < 0.0001) that shapes the horizonal distribution patterns. We estimated that atmospheric Hg deposition since 1850 (3.97 mg/m2) accounts for 102% of the Hg pool in the organic horizons (3.88 mg/m2) and 19% of the total soil Hg pool (21.32 mg/m2), except for the southern New England (SNE) subregion. The mean residence time for soil Hg was estimated to be 1800 years, except SNE which was 800 years. 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F</creatorcontrib><creatorcontrib>Montesdeoca, Mario</creatorcontrib><creatorcontrib>Johnson, Chris E</creatorcontrib><title>Soil mercury and its response to atmospheric mercury deposition across the northeastern United States</title><title>Ecological applications</title><addtitle>Ecol Appl</addtitle><description>Terrestrial soil is a large reservoir of atmospherically deposited mercury (Hg). However, few studies have evaluated the accumulation of Hg in terrestrial ecosystems in the northeastern United States, a region which is sensitive to atmospheric Hg deposition. We characterized Hg and organic matter in soil profiles from 139 sampling sites for five subregions across the northeastern United States and estimated atmospheric Hg deposition to these sites by combining numerical modeling with experimental data from the literature. We did not observe any significant relationships between current net atmospheric Hg deposition and soil Hg concentrations or pools, even though soils are a net sink for Hg inputs. Soil Hg appears to be preserved relative to organic carbon (OC) and/or nitrogen (N) in the soil matrix, as a significant negative relationship was observed between the ratios of Hg/OC and OC/N (r = 0.54, P < 0.0001) that shapes the horizonal distribution patterns. We estimated that atmospheric Hg deposition since 1850 (3.97 mg/m2) accounts for 102% of the Hg pool in the organic horizons (3.88 mg/m2) and 19% of the total soil Hg pool (21.32 mg/m2), except for the southern New England (SNE) subregion. The mean residence time for soil Hg was estimated to be 1800 years, except SNE which was 800 years. 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subjects	Acid soils Air Pollutants - chemistry Atmosphere atmospheric mercury deposition Atmospherics Carbon - chemistry Environmental Monitoring Forest soils Mercury Mercury - chemistry Minerals New England Organic soils Soil - chemistry Soil air soil carbon Soil horizons Soil Pollutants - chemistry Soil pollution soil profile Soil samples spatial pattern
title	Soil mercury and its response to atmospheric mercury deposition across the northeastern United States
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