MercNet: a national monitoring network to assess responses to changing mercury emissions in the United States

Schmeltz, D.; Evers, David C.; Driscoll, Charles T.; Artz, Richard S.; Cohen, Mark; Haeuber, Richard; Krabbenhoft, David P.; Mason, Robert P.; Morris, Kristi; Wiener, James G.

doi:10.1007/s10646-011-0756-4

Cited by 65 publications

(61 citation statements)

References 25 publications

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“…Higher atmospheric Hg deposition and soil Hg concentrations and pools were found in the ADR and the CATPOC regions. These two subregions likely receive higher atmospheric Hg deposition due to their closer proximity to elevated Hg emission sources in the Midwest and urban centers of the Northeast (Choi et al 2008, Schmeltz et al 2011 and their relatively higher elevations (Yu et al 2011). The lack of significant correlations between current atmospheric Hg deposition and soil Hg concentrations and pools has been reported in previous investigations (Obrist et al 2011).…”

Section: Factors Influencing Spatial Patterns Of Hgmentioning

confidence: 66%

“…The historical record obtained from paleolimnological studies suggests that atmospheric Hg deposition has increased steadily (two-to three-fold) since the onset of industrialization until the late 1900s (Swain et al 1992, Fitzgerald et al 1998, Lorey and Driscoll 1999, Schuster et al 2002, Biester et al 2007). Studies have also indicated that regional Hg deposition has decreased in recent decades, which is coincident with efforts to control Hg emissions in North America (Engstrom and Swain 1997, Drevnick et al 2011, Schmeltz et al 2011. Studies suggest that Hg deposition Notes: The deposition before industrialization (,1850) was considered to be steadfast at each of the subregions.…”

Section: Reconstruction Of Historical Hg Depositionmentioning

confidence: 99%

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

Xia

Driscoll

Warby

et al. 2014

Ecological Applications

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Abstract. 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 ¼ 0.54, P , 0.0001) that shapes the horizonal distribution patterns. We estimated that atmospheric Hg deposition since 1850 (3.97 mg/m 2 ) accounts for 102% of the Hg pool in the organic horizons (3.88 mg/m 2 ) and 19% of the total soil Hg pool (21.32 mg/m 2 ), 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.

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Section: Factors Influencing Spatial Patterns Of Hgmentioning

confidence: 66%

Section: Reconstruction Of Historical Hg Depositionmentioning

confidence: 99%

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

Xia

Driscoll

Warby

et al. 2014

Ecological Applications

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“…Widespread, and often elevated, biological Hg exposure implies the need for Hg monitoring at a regional and national scale that can track changes in Hg emissions and effluents. Long-term Hg monitoring across the Great Lakes region by the Mercury Deposition Network needs to be supplemented with components as described in the proposed National Mercury Monitoring Program or MercNet (Mason et al 2005;Harris et al 2007;USEPA 2008;Schmeltz et al 2011). Such a standardized network is necessary to inform federal and state Hg-related policies, provide data for predictive models, and characterize the biological effects in the United States from the redistribution of anthropogenic Hg on the landscape.…”

Section: Policy and Management Implicationsmentioning

confidence: 99%

Spatial gradients of methylmercury for breeding common loons in the Laurentian Great Lakes region

et al. 2011

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Much of the Laurentian Great Lakes region is a mercury-sensitive landscape, in which atmospheric deposition and waterborne sources of mercury (Hg) have led to high concentrations of bioavailable methylmercury (MeHg) in predatory fish and piscivorous wildlife. Efforts since the early 1990s have established the common loon (Gavia immer) as the primary avian indicator for evaluating the exposure and effects of MeHg in North America. A regional Hg dataset was compiled from multiple loon tissue types and yellow perch (Perca flavescens), a preferred prey fish species for loons. Hg exposure in loons and perch was modeled to develop male and female loon units (MLU and FLU, respectively), standardized metrics that represent the estimated blood Hg exposure of a male or female loon for a given loon territory or water body. Using this common endpoint approach to assess loon Hg exposure, the authors demonstrate spatial trends in biotic Hg concentrations, examine MeHg availability in aquatic ecosystems of the Great Lakes region in relation to landscape-level characteristics, and identify areas with potentially significant adverse reproductive impacts to loons and other avian piscivores. Based on 8,101 MLUs, seven biological Hg hotspots were identified in the Great Lakes region. Policy-relevant applications are presented.

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“…Mercury (Hg) is a highly toxic pollutant released from anthropogenic sources such as waste from chemical plants and emissions from coal burning power plants (Scheuhammer et al, 2007;Schmeltz et al, 2011;Walker, 2014). In aquatic habitats mercury is methylated into methylmercury (MeHg), which increases its toxicity (Lindqvist et al, 1991;Bloom, 1992).…”

Section: Introductionmentioning

confidence: 99%

High levels of maternally transferred mercury disrupt magnetic responses of snapping turtle hatchlings (Chelydra serpentina)

Landler

Painter

Coe

et al. 2017

Environmental Pollution

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a b s t r a c tThe Earth's magnetic field is involved in spatial behaviours ranging from long-distance migration to nongoal directed behaviours, such as spontaneous magnetic alignment (SMA). Mercury is a harmful pollutant most often generated from anthropogenic sources that can bio-accumulate in animal tissue over a lifetime. We compared SMA of hatchling snapping turtles from mothers captured at reference (i.e., low mercury) and mercury contaminated sites. Reference turtles showed radio frequency-dependent SMA along the north-south axis, consistent with previous studies of SMA, while turtles with high levels of maternally inherited mercury failed to show consistent magnetic alignment. In contrast, there was no difference between reference and mercury exposed turtles on standard performance measures. The magnetic field plays an important role in animal orientation behaviour and may also help to integrate spatial information from a variety of sensory modalities. As a consequence, mercury may compromise the performance of turtles in a wide variety of spatial tasks. Future research is needed to determine the threshold for mercury effects on snapping turtles, whether mercury exposure compromises spatial behaviour of adult turtles, and whether mercury has a direct effect on the magnetoreception mechanism(s) that mediate SMA or a more general effect on the nervous system.

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MercNet: a national monitoring network to assess responses to changing mercury emissions in the United States

Cited by 65 publications

References 25 publications

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

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

Spatial gradients of methylmercury for breeding common loons in the Laurentian Great Lakes region

High levels of maternally transferred mercury disrupt magnetic responses of snapping turtle hatchlings (Chelydra serpentina)

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