Post on 20-Mar-2016
description
Reconnaissance Survey of Mercury in Water, Sediment,
and Fish from U.S. Streams
ByBarbara Scudder, Lia Chasar, Nancy Bauch,
Dennis Wentz, Mark Brigham, David Krabbenhoft, Patrick Moran, William Brumbaugh, and Michelle
Lutz
U.S. Department of the InteriorU.S. Geological Survey
Fish Consumption Advisories – 2004
(source: USEPA National Listing of Fish Advisories)
Percentage of Lake Acres / River Miles with Mercury Advisories
(source: USEPA National Listing of Fish Advisories, 2004)
USGS Mercury Studies in RiversReconnaissance Survey of Mercury
1998 Pilot: 106 sitesKrabbenhoft and others (1999)Brumbaugh and others (2001)
1999-2002: 113 sites2004-5: 60 sites
Detailed Studies of Mercury Cycling and Bioaccumulation2003-4: 8 sites2006-7: 5 sites
Reconnaissance Survey Objectives Assess total mercury (THg) and methylmercury (MeHg) in
water and streambed sediment, and THg in fish
Span regional and national gradients in mercury source strength (deposition, mining) and factors that govern mercury cycling
Identify ecosystem characteristics that favor the production and bioaccumulation of MeHg
Explore environmental factors that may drive regional and national variations in fish mercury concentrations
Study Design – 1998 Pilot
Sites selected based on factors thought to be important in bioavailability of mercury, in priority:
wetland density in basin pH, sulfate, organic carbon Suspected or known mercury loading
Samples collected June through October 1998
Study Design: > 1998 Expand on site coverage from 1998 Base site network on:
Targeted settingsReference/noncultivatedCultivated agriculture UrbanMining (current or abandoned)
Factors thought to affect mercury methylationWetland density in watershed Water chemistry (pH, sulfate, DOC) Mercury loading – suspected or known
Ag Urban Forest Range
Land Cover/ Land Use of All U.S. Stream Basins (n=62,000) in Blue
and USGS Mercury Reconnaissance Basins (n=219) in Green
Perc
ent
Land
Cov
er/L
and
Use
0
20
40
60
80
100
Methods Surface-water
Single grab sample – center of stream flow Filtered and particulate MeHg, THg (unfiltered in 1998) pH, temperature, DO, DOC, sulfate
Streambed sediment Single composite sample Bulk (unsieved) – surface, depositional areas MeHg and THg Particle size, dry weight Acid volatile sulfide Loss on ignition (surrogate for organic carbon)
Methods (continued) Sampled Predator Fish
Electrofishing THg Target: 3-4 year old Largemouth bass Single-species composites (3-5 fish) Skin-off fillets Length, weight, age
Modeled fish (Wente, 2004) Accounts for variability among sample events and
sample characteristics Based on THg and length of sampled fish from sites 35.5 cm (14 in) largemouth bass and rainbow trout
Sampling Sites
Sampling sites
2004 - 2005
1998 - 20021998 - 2002, Mining-impacted
Surface water, whole(MeHg in ng/L)
0.004 - 0.0410.042 - 0.1050.106 - 0.2210.222 - 3.528Mining-impacted
Surface Water
Bed sediment(MeHg in ng/g)
0.01 - 0.180.19 - 0.630.64 - 2.602.61 - 38.18Mining-impacted
Bed Sediment
Sampled fish(THg in ppm, wet weight)
<0.1000.100 - 0.1990.200 - 0.299
0.300Mining-impacted
Sampled Fish
≥
Modeled fish, largemouth bass(THg in ppm, wet weight)
<0.1000.100 - 0.1990.200 - 0.299
0.300Mining-impacted
Modeled Fish
≥
Modeled FishSampled Fish
< 0.1000.100 - 0.1990.200 - 0.299≥ 0.300
(THg in ppm, wet weight)
Mining-impacted
Modeled FishSampled Fish
< 0.1000.100 - 0.1990.200 - 0.299≥ 0.300
(THg in ppm, wet weight)
Due to bioaccumulation and biomagnification, mercury in sampled fish was several orders of magnitude higher than the river water
10 10 10 10 10 10 10 10 10 1 10
Whole Water MeHg
Sediment MeHg
Sampled Fish THg
Mer
cury
conc
entr
ation
(ppm
)
-9-8
-7-6
-5
-4-3-2
-1
Mercury in sampled fish increased with methylmercury in water
r2 = 0.39, p<0.001
- 4
- 3
- 2
- 1
0
1
2
3
- 6 - 5 - 4 - 3 - 2 - 1 0 1 2
ln [MeHg in whole water] (ng/L)
ln [T
Hg in
fish
/leng
th]
(ug/
g /m
)
1998 ONLYBrumbaugh and others, 2001
Mercury in sampled fish increased with methylmercury in water
r2 = 0.15, p<0.001
- 4
- 3
- 2
- 1
0
1
2
3
- 6 - 5 - 4 - 3 - 2 - 1 0 1 2
ln [MeHg in whole water] (ng/L)
ln [T
Hg in
fish
/leng
th] (
ug/g
/m)
All Species1998- 2002
Relation stronger for Hg in sampled largemouth bass and water
r2 = 0.32, p<0.001
-4
-3-2
-1
0
12
3
-6 -5 -4 -3 -2 -1 0 1 2
ln [MeHg in whole water] (ng/ l)
ln [
THg
in fi
sh/l
engt
h] (u
g/g
/m)
Largemouth Bass1998- 2002
ConclusionsTotal mercury concentrations in fish
increased with increasing methylmercury concentrations in whole (unfiltered) water
Weak correlation between fish mercury and sediment methylmercury
Fish mercury concentrations exceeding the 0.3 ppm criterion were widespread, and particularly common in SE US streams and western mining-impacted streams.
Acknowledgments State and Tribal personnel USGS personnel - Technical assistance
NAWQA study unit personnel George Aiken, USGS-WRD, Boulder, CO Amanda Bell, USGS-WRD, Middleton, WI Rod DeWeese, USGS-BRD, Denver, CO Kerie Hitt, USGS-WRD, Reston, VA Steve Wente, USGS-WRD, Mounds View, MN
Contact info: Barb Scudder (bscudder@usgs.gov)US Geological Survey, 8505 Research Way, Middleton, WI 53711