Global Biogeochemical Implications of Mercury Discharges from Rivers and Sediment Burial

Amos, H. M.; Jacob, Daniel; Kocman, David; Horowitz, Hannah Marie; Zhang, Yanxu; Dutkiewicz, Stephanie; Horvat, Milena; Corbitt, Elizabeth S.; Krabbenhoft, David P.; Sunderland, Elsie M.

doi:10.1021/es502134t

Cited by 235 publications

(298 citation statements)

References 73 publications

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“…Our GEOS-Chem simulations take into account the effect of anthropogenic emissions changes on concentrations of mercury in surface reservoirs only, and consequently underestimate the total deposition benefits attributable to policy. To roughly estimate the extent of this underestimation, we use a seven-box, biogeochemical model developed by Amos et al (28,29), which captures the deep ocean and soil reservoirs, but not the spatial distribution of impacts (SI Appendix, Chemical transport modeling). We find that globally, deposition reductions under policy are ∼30% larger when taking into account enrichment of these subsurface pools.…”

Section: Resultsmentioning

confidence: 99%

Benefits of mercury controls for the United States

Giang

Selin

2015

Proc. Natl. Acad. Sci. U.S.A.

131

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Mercury pollution poses risks for both human and ecosystem health. As a consequence, controlling mercury pollution has become a policy goal on both global and national scales. We developed an assessment method linking global-scale atmospheric chemical transport modeling to regional-scale economic modeling to consistently evaluate the potential benefits to the United States of global (UN Minamata Convention on Mercury) and domestic [Mercury and Air Toxics Standards (MATS)] policies, framed as economic gains from avoiding mercury-related adverse health endpoints. This method attempts to trace the policies-to-impacts path while taking into account uncertainties and knowledge gaps with policy-appropriate bounding assumptions. We project that cumulative lifetime benefits from the Minamata Convention for individuals affected by 2050 are $339 billion (2005 USD), with a range from $1.4 billion to $575 billion in our sensitivity scenarios. Cumulative economy-wide benefits to the United States, realized by 2050, are $104 billion, with a range from $6 million to $171 billion. Projected Minamata benefits are more than twice those projected from the domestic policy. This relative benefit is robust to several uncertainties and variabilities, with the ratio of benefits (Minamata/MATS) ranging from ≈1.4 to 3. However, we find that for those consuming locally caught freshwater fish from the United States, rather than marine and estuarine fish from the global market, benefits are larger from US than global action, suggesting domestic policies are important for protecting these populations. Per megagram of prevented emissions, our domestic policy scenario results in US benefits about an order of magnitude higher than from our global scenario, further highlighting the importance of domestic action. mercury | policy | impacts assessment | Minamata Convention | economic benefits

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Section: Resultsmentioning

confidence: 99%

Benefits of mercury controls for the United States

Giang

Selin

2015

Proc. Natl. Acad. Sci. U.S.A.

131

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“…The concentrations of major oxidants for atmospheric Hg 0 , including OH, O 3 , and Br, have remained relatively steady or slightly decreased since the mid-1990s and are thus not an important driver for the observed decline (5). Decreasing riverine discharges, which was previously speculated to drive the decline in North Atlantic Ocean Hg concentration and subsequent reemission flux (6), are also insufficient for forcing the global atmospheric trend (31,33).…”

Section: Consistency With Observed Atmospheric Trendsmentioning

confidence: 99%

Observed decrease in atmospheric mercury explained by global decline in anthropogenic emissions

Zhang

Jacob

Horowitz

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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303

258

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). These decreases are inconsistent with current global emission inventories indicating flat or increasing emissions over that period. However, the inventories have three major flaws: (i) they do not account for the decline in atmospheric release of Hg from commercial products; (ii) they are biased in their estimate of artisanal and small-scale gold mining emissions; and (iii) they do not properly account for the change in Hg 0 /Hg II speciation of emissions from coal-fired utilities after implementation of emission controls targeted at SO 2 and NO x . We construct an improved global emission inventory for the period 1990 to 2010 accounting for the above factors and find a 20% decrease in total Hg emissions and a 30% decrease in anthropogenic Hg 0 emissions, with much larger decreases in North America and Europe offsetting the effect of increasing emissions in Asia. Implementation of our inventory in a global 3D atmospheric Hg simulation [GEOS-Chem (Goddard Earth Observing System-Chemistry)] coupled to land and ocean reservoirs reproduces the observed large-scale trends in atmospheric Hg 0 concentrations and in Hg II wet deposition. The large trends observed in North America and Europe reflect the phase-out of Hg from commercial products as well as the cobenefit from SO 2 and NO x emission controls on coal-fired utilities.mercury | trend | emission | atmosphere

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“…Terrestrial emissions in some other models are mapped according to biogenic CO emission and/or historical Hg deposition and scaled by global Hg budgets Chen et al, 2015;Jung et al, 2009). Simulated global Hg 0 fluxes from terrestrial surfaces range from -1300 to 3500 Mg yr -1 Chen et al, 2015;Lei et al, 2013;Corbitt et al, 2011;SmithDowney et al, 2010;Kikuchi et al, 2013;Amos et al, 2013Amos et al, , 2014De Simone et al, 2014). Net Hg 0 fluxes from the contiguous United States may also be positive or negative based on flux scaling methods (-183 to 269 Mg yr -1 , 50% uncertainty range; Agnan et al, 2016) and a newly developed bidirectional exchange model (118-141 Mg yr -1 , Wang et al, 2014).…”

Section: Domain Editor-in-chiefmentioning

confidence: 99%

“…Most surface ocean waters have been observed to be supersaturated in DGM, generating a positive net flux of Hg 0 to the atmosphere (Sprovieri et al, 2010;Soerensen et al, 2014;Kuss et al, 2011;Ci et al, 2011a). Global Hg 0 fluxes from oceanic surfaces have been estimated in the range of 800-5500 Mg yr -1 by different numerical models Soerensen et al, 2010;Zhang et al, 2014;De Simone et al, 2014;Lei et al, 2013;Chen et al, 2015;Amos et al, 2013Amos et al, , 2014Sunderland and Mason, 2007) and using flux scaling methods (Mason and Sheu, 2002).…”

Section: Domain Editor-in-chiefmentioning

confidence: 99%