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Mercury Deposition Network – Mercury Analytical Laboratory Bob Brunette and David Gay National Atmospheric Deposition Program Mercury Deposition Network.

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Presentation on theme: "Mercury Deposition Network – Mercury Analytical Laboratory Bob Brunette and David Gay National Atmospheric Deposition Program Mercury Deposition Network."— Presentation transcript:

1 Mercury Deposition Network – Mercury Analytical Laboratory Bob Brunette and David Gay National Atmospheric Deposition Program Mercury Deposition Network DGay@illinois.edu RobertBrunette@EurofinsUS.com Atmospheric Mercury Deposition In The Pacific Northwest Mercury Deposition Network

2 Mercury Deposition Network – Mercury Analytical Laboratory 1)Elemental Gaseous Hg Is Emitted Into The Atmosphere through either combustion emissions or natural process (i.e. forest fires) 2) Some forms of Hg will fall once it is emitted. 3) Elemental Gaseous Hg can travel hundreds/thousands of miles until it is oxidized and falls out as wet Hg or dry Hg deposition 4) Once Hg wet/dry deposited to aquatic ecosystems these systems can convert the mercury to the toxic, bioaccumulative form of Methyl Mercury. 5) Mercury enters the food chain and works its way into fish, wildlife and humans. The Mercury Problem

3 Mercury Deposition Network – Mercury Analytical Laboratory Mercury Deposition in Precipitation 2010

4 Mercury Deposition Network – Mercury Analytical Laboratory Mercury Deposition in Precipitation 2010

5 Mercury Deposition Network – Mercury Analytical Laboratory Mercury Deposition in Precipitation 2010

6 Atmospheric Transport and Deposition Of Mercury To Water Bodies Is Dominant Pathway  Input Of Mercury To Water Bodies “Between 40%-75% is likely by wet deposition” (Sorensen et al., 1997; Scherbatskoy et al., 1997; Lamborg et al., 1995; Mason et al., 1997; Landis and Keeler, 2002; Mercury 2006 Committee Statement) Mercury Deposition Network

7 Mercury Deposition Network – Mercury Analytical Laboratory EPA National Rivers And Streams Assessment 2013-2104

8 Mercury Deposition Network – Mercury Analytical Laboratory EPA National Rivers And Streams Assessment 2013-2104

9 Mercury Deposition Network – Mercury Analytical Laboratory EPA National Rivers And Streams Assessment 2013-2104

10 Need For Mercury Deposition Network Mercury Deposition Network

11 State and provincial fish consumption advisories have increased to include: 4,249 advisories in 50 states which represent: - 16 Million Lake Acres - 1 Million River Miles - 42% of the Nations coastal waters and -100% of the Great Lakes - 81% Of All Fish Consumption Advisories Hg Mercury Deposition Network

12 Mercury Deposition Network – Mercury Analytical Laboratory NPS WCAP Hg Study 2002-2007

13 Mercury Deposition Network – Mercury Analytical Laboratory Western Airborne Contaminants Assessment Project National Park Service (2002-2007)  7 Ecosystems Monitored Across Western US (Including Hoh Rainforest National Park)  Contaminants Tended To Accumulate At Higher Elevations  Some Of The Highest Hg Concentrations In Fish At High Alpine Lakes Although Hg Deposition Relatively Low In Pacific Northwest Arctic Parks  “In-Lake Biological processes vary among lakes/eco-regions and likely contributes to higher rates of mercury bio-accumulation in Fish”  “Mercury concentrations in fish exceeded contaminant health thresholds for fish-eating wildlife at various parks  “Sources are from as far away as Europe and Asia and as near as the local county.....(some study locations have) “deposition is primarily influenced by global atmospheric transport”

14 Mercury Deposition Network – Mercury Analytical Laboratory WACAP Study Hg In Fish

15 Mercury Deposition Network – Mercury Analytical Laboratory USGS High Alpine Lakes Hg In Fish Study 2007

16 Mercury Deposition Network – Mercury Analytical Laboratory  The consistent cold temperatures and large amount of precipitation in the Olympic and Cascade ranges of Washington State are thought to enhance atmospheric deposition of contaminants.  Mercury was detected in trout from all lakes sampled (15 to 262 μg/kg ww)  median total and methyl mercury were 30.4 and 0.34 μg/kg dry (ww),  our results suggest that local urban areas contribute to the observed contaminant patterns in these high elevation lakes,  Evidence that mercury disrupts genetic information in fish

17 Mercury Deposition Network – Mercury Analytical Laboratory NPS/USGS Hg In Fish Study 2013-2014

18 Mercury Deposition Network – Mercury Analytical Laboratory NPS/USGS Hg In Fish Study 2008-2012

19 Mercury Deposition Network – Mercury Analytical Laboratory NPS/USGS Hg In Fish Study 2008-2012

20 Mercury Deposition Network – Mercury Analytical Laboratory NPS/USGS Hg In Fish Study 2008-2012

21 Mercury Deposition Network – Mercury Analytical Laboratory NPS/USGS Hg In Fish Study 2013

22 Mercury Deposition Network – Mercury Analytical Laboratory NPS/USGS Hg In Fish Study 2013  27 Lakes Samples (177 Fish)  1 Fish Exceeded EPA Human Health (0.3 mg/Kg)  54% Exceeded ODEQ Tissue Residue Critieria (0.04 mg/Kg)  25-68% Exceeded Levels For Mink and Kingfisher  “Total Hg May Be Present In These Lakes At Levels Associated With Ecological Risk”

23 Mercury Deposition Network – Mercury Analytical Laboratory How Much Mercury In Wet Deposition Will Impact Our Area?

24 Mercury Deposition Network – Mercury Analytical Laboratory How Much Mercury In Wet Deposition Will Impact Our Area?

25 Mercury Deposition Network – Mercury Analytical Laboratory How Much Mercury In Wet Deposition Will Impact Our Area? Western Airborne Contaminants Assessment Project National Park Service (2002-2007) Although Hg Deposition Relatively Low In Pacific Northwest Parks  “In-Lake Biological processes vary among lakes/eco- regions and likely contributes to higher rates of mercury bio-accumlation in Fish”  “Sources are from as far away as Europe and Asia and as near as the local county.....(some study locations have) “deposition is primarily influenced by global atmospheric transport”

26 Mercury Deposition Network – Mercury Analytical Laboratory Mercury Regulations Update EPA Mercury Air Toxics Standards (MATS) - Released :February 16, 2012 - Start Date: April 16, 2015 - Coal and Oil Fired Electric Generating Units - 90% Hg Emissions Reductions Required By 2018 - Recently Challenged

27 Mercury Deposition Network – Mercury Analytical Laboratory Mercury Regulations Update UNEP Global Mercury Emissions Treaty - Since Fall 2013 Technical Meeting - 140 Countries, Legally Binding - Deals with world-wide emissions and discharges of a pollutant that threatens the health of millions, - Agreed risk to human health and environment was so significant that accelerated action needed - Toxic, persistent and subject to long-range transport - High levels of mercury in certain fish / human health concern

28 Mercury Deposition Network – Mercury Analytical Laboratory Mercury Air Toxics Standard (MATS) Implementation Date: April 2015

29 Mercury Deposition Network – Mercury Analytical Laboratory Why Are The Pacific Northwest MDN Sites Important  Low Mercury Deposition Rates Does Not Equate To Low Hg In Fish  High Hg Deposition Rates Should Occur With High Precip Volume (Rainer / Olympic however no sites to measure) In-Lake Biological processes vary among lakes/eco-regions and likely contributes to higher rates of mercury bio-accumulation in Fish – NPS  Pending Mercury Emissions Regulations > The MDN is the only national wet deposition monitoring network in place > Opportunity to measure baseline before potential reductions occur  Mercury Is Transported Long Distances > WA03 / Olympic NP / Rainer NP / Oregon Jaffe, Daniel et al, Export of Atmospheric Mercury From Asia (2005), Atmospheric Environment, 39: 3029-3038 > WA03 Key North American Input Location > NPS WAPAC Report

30 Mercury Deposition Network – Mercury Analytical Laboratory Why Are The Pacific Northwest MDN Sites Important  Washington/Oregon State Wide Fish Consumption Hg Advisory  Estimated 50-90% Of Mercury Entering Inland Water Bodies Is From The Atmosphere  Reductions In Atmospheric Deposition Of Hg Can Lead To Rapid Reductions In Fish (Need to monitor both)  Studies suggest that a majority of Hg deposition on US is from non-US based sources  Hg Emission Reductions Are In Place To Decrease Hg Deposition  US Hg Emissions Reductions Do Not Necessarily = Deposition Reductions  Loss Of Makah MDN Site = Lost Opportunity To Measure Reductions ~ 4 years Of Baseline Data  Cost Benefit Of Mercury Deposition Network Sites: The cost of an MDN wet deposition monitoring station is minor as compared to other air programs.  Offers The Opportunity To Measure Other Global Environmental Events

31 Mercury Deposition Network – Mercury Analytical Laboratory Mercury Deposition in Precipitation 2010EPA Region 10 States – MDN Site Loss

32 Mercury Deposition Network – Mercury Analytical Laboratory Priority List Of Monitoring Needs  Washington 03 (Makah Nation) upwind of all US sources; Asian input, national background. Currently Unfunded.  High Elevation WA/OR we are predicting some of the highest deposition levels in the country; fish concentrations in these regions are also considered correspondingly high (WACAP, USGS, other)  State of Oregon - no coverage since OR01 and OR10 have stopped  State of Idaho - no coverage since ID03 has been stopped  Important Effect Of Increase In Hg Emissions (East Asia) and Upcoming US Based Reductions = Critical To Monitor Now

33 Mercury Deposition Network – Mercury Analytical Laboratory NADP Monitoring Observations During Fukushima Accident

34 Mercury Deposition Network – Mercury Analytical Laboratory NADP Monitoring Observations During Fukushima Nuclear Accident

35 Mercury Deposition Network – Mercury Analytical Laboratory NADP Monitoring Observations During Fukushima Nuclear Accident


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