Richard Diment Federation of Master Builders – UK EBC Congress 2009
EPA/OSRTI Sediment Remedies: Monitored Natural … › conf › tio › sedmnr_103006 › prez ›...
Transcript of EPA/OSRTI Sediment Remedies: Monitored Natural … › conf › tio › sedmnr_103006 › prez ›...
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EPA/OSRTI Sediment Remedies: Monitored Natural Recovery at Contaminated Sediment Sites
Natural Attenuation of Contaminated Sediments
Danny ReibleEnvironment and Water ResourcesThe University of Texas at Austin
Ph:512-471-4642 Email: [email protected]
EPA Sediment Remedies Internet Seminar A-1
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Selected Sediment Processes
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Environmental Characteristics
Key Fate and Transport Processes
Lacustrine Low energy environment Generally depositional environment Groundwater interaction decreasing away from shore Organic matter decreasing with distance from shore Often fine-grained sediment
Sediment deposition Water-side mass transfer limitations Groundwater advection in near-shore area Bioturbation (especially in near-shore area) Diffusion in quiescent settings Metal sorption Aerobic and anaerobic biotransformation Biotransformation of organic matter (e.g., gas formation)
Riverine Low to high energy environment Depositional or erosional environment Potential for significant groundwater interaction Significant variability in flow and sediment characteristics within and between rivers
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Local and generalized groundwater advection Sediment deposition and resuspension Aerobic biotransformation processes in surficial sediments (potentially anaerobic at depth) Bioturbation
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Environmental Characteristics
Key Fate and Transport Processes
Estuarine Generally low energy environment Generally depositional environment Generally fine-grained sediment Grading to coarse sediment at ocean boundary
Bioturbation Sediment deposition Water-side mass transfer limitations Aerobic and anaerobic biotransformation of contaminants Biotransformation of organic matter (e.g., gas formation)
Coastal Marine
Relatively high energy environment, decreasing with depth and distance from shore Often coarse sediments
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Bioturbation Sediment erosion and deposition Localized advection processes
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Table C-2 Summary of Characteristic Times of Sediment Fate and Transport Processes
Process Characteristic Time Relationship
Typical Range of Key Parameter Values
Illustrative Value of Characteristic Time1
Diffusion
D R4 H = eff
f 2
2diff π
τ Rf > 1,000
(Hydrophobic organics) Deff ~ 10-6 cm2/s
1,280 years
Advection
v H R = f
τ adv
Groundwater velocity,v, widely variable
100 years
Sediment Erosion
U H
τ ero = Bed erosion rate, U,
widely variable 10 years
Bioturbation
D H4
= bio
2
2bio π
τ 0.3 cm2/yr<Dbio<30
cm2/yr 13 years
Reaction
k
1 =
rxn τ fate
Reaction rate, krxn, widely variable
100 years
Assumes a 10m thick surface layer contaminated with a hydrophobic organic compound with an effective retardation factor of 1000 (e.g. a mid range PA H such as pyrene), a ground water up welling velocity of 1 m/yr, a bed erosion rate of 1 cm/yr, an effective bioturbation diffusion coefficient of 3 cm2/yr and a degradation rate of 0.01 yr-1 A-5
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Exposure and Risk in Overlying Water
• Direct flux to overlying water – Erosion and resuspension of contaminated
sediment where applicable
– Bioturbation moderated by partitioning and mass transfer resistances at sediment-water interface
• Accumulation in benthic community and food-chain transfer – Limited to depth of bioturbation
– Limited by availability of contaminants to organisms A-6
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Bioturbation• Normal life cycle activities of benthic organisms
leading to sediment mixing and transport – Controls depth of sediments leading to exposure
• Typically 5-15 cm • Controls access to contaminants
– Controls rate of sediment reworking and porewater release
• 0.3-30 cm/yr average sediment reworking rate (solid basis) • >100 cm/yr average porewater exchange rate (fluid basis)
• Dominated by deposit feeders that ingest sediment –Freshwater oligochaetes
• Densities up to 100,000 worms/m2 or more • Organisms may process 10-20 times their wt/day A-7
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The Bioturbation/Soluble Release Process
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Variety of processes may complicate this simple picture
• Limited bioavailability – e.g. does pore water better correlate with
availability than bulk sediment concentration?
• Presence of multiple contaminant phases – e.g. gas or non aqueous phase liquids
• Fate processes that affect exposure – e.g.limited mercury methylation
• Presence of other sources that limit recovery – e.g. Slowing passive recovery and negating
A-9active recovery
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Fractional Release for Labile and Desorption Resistant Fractions
Time / hrs
0 10 20 30 40 50
So
lid C
on
tam
ina
nt F
ract
ion
0.0
0.1
0.2
0.3
0.4
0.5
Reversibly Sorbed Fraction Desorption Resistant Fraction Total Sorbed Fraction
Phenanthrene
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BSAFs predicted by porewater concentrations (field and lab sediment)
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Contaminant Release via Gas Ebullition
Air Air emission
Clean cap layer Contaminant exchange with pore water.
Contaminated Sediment layer Contaminant uptake from
pore water by gas bubble
Water column
Contaminant desorption
Gas bubble generation
Relatively low – unless NAPL entrained in gas bubbling to surface
qv
Gas Flux (L/m2⋅day)
1
NAFluxPHE
mg/m2⋅hr
0.00030
keff
(NA/ρbWs) cm/yr
0.0033
Compares to ~ 1 cm/yr Bioturbation
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Thin zone of mercury methylation
Benoit et al.
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Coke Core 1 Total PAHs vs Depth October 2005-
Recontamination of Surface Anacostia River
Total PAHs Concentration (ug/kg)
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CB-C1-S-06
CB-C1-S-04
CB-C1-S-02
CB-C1-SD-04
CB-C1-SD-04-D
0
1
2
3
4
5
6
7
8
9
10
11
12
0 2000 4000 6000 8000 10000 12000 14000 16000 D
epth
Bel
ow C
ap-W
ater
Int
erfa
ce (
inch
es
S - Sand Layer
SD - Sed iment Layer
Mo nth 18 Mo nito ring Event
Coke Breeze Mat
Native Sediment
Sand
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MNR Definitions Monitored Natural Recovery (MNR) involvesleaving contaminated sediments in place and allowing ongoingaquatic, sedimentary, and biological processes to reduce the bioavailability of the contaminants in order to protect receptors [MNR] must be the result of a deliberate, thoughtful decision-making process following careful site assessment and characterization NRC, 1997. Contaminated Sediments in Ports and Waterways
MNR…uses known, ongoing, naturally occurring processes to contain, destroy, or otherwise reduce the bioavailability or toxicity ofcontaminants in sediment. MNR…includes…monitoring to assess whether risk is being reduced as expected. USEPA, 2005. Contaminated Sediment Remediation Guidance for Hazardous Waste Sites
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2005 EPA Guidance (Highlight 4-1: Hierarchy of Natural
Processes) A. Contaminant transformation to a less toxic form
(biological or abiotic transformation)
B. Reduced contaminant mobility/bioavailability (sorption or binding processes)
C. Reduced exposure at the sediment surface (burial, in-place mixing with cleaner sediment)
D. Contaminant release and off-site transport (particle dispersion, diffusive/advective transport)
A-16
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Remedy Selection Considerations
• The Guidance encourages project managers to use the concept of comparing net risk reduction between alternatives a part of the remedy selection process.
• Highlight 7-4 covers elements of comparative net risk for MNR, capping and dredging
(Sediment Guidance, p. 7-13) A-17
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A-18
Highlight Box 7-4
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EPA/OSRTI Sediment Remedies: Monitored Natural Recovery atContaminated Sediment Sites
Monitored Natural Recovery at Contaminated Sediment Sites
Victor S. Magar, PhD, PEVictor S. Magar, PhD, PEENVIRONENVIRON –– Chicago, ILChicago, IL
[email protected]@environcorp.com(312) 853(312) 853--94309430
EPA Sediment Remedies Internet Seminar B-1
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Training Outline
1. The role of natural recovery in the environment
2. MNR definitions
3. EPA 2005 Sediment Guidance Summary
4. Identify and describe MNR lines of evidence
5. Integrating MNR into remedy decision making
Purpose of this Presentation: Explore the primary lines of evidence supporting an MNR investigation, and how natural processes can facilitate sediment remediation
B-2
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MNR Advantages and Disadvantages
� Advantages – Low cost
– Takes advantage of ongoing processes (doesn’t fight nature)
– Does not negatively impact ecosystem
– Effective
� Disadvantages – Leaves contaminants in place
– Long-term liability
– Uncertainty
– Public perception of no action
– Future kinetics may not match historical kinetics B-3
Suggest this could be initial slide in the presentation
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Example Sites that Identified and Selected Natural Recovery in their RODs� Kepone, James River (VA)
– Active remediation estimated at $3 to $10 billion
– Active remediation would disturb existing habitat
– Sediments likely to be buried, or diluted by flushing and mixing
� Lead, Interstate Lead Company Superfund site (AL),1995 ROD – Historical trends indicated a general decline in sediment lead
concentrations,
– No evidence of damage to existing ecosystem
– Active remediation would damage existing ecosystem
– Natural recovery would result in minimal environmental disturbance
� PCBs, Lake Hartwell Superfund site (SC), 1994 ROD – Active remediation technically impracticable or too costly
– EPA and public agreed that fishing advisories could adequately reduce risk
– Source control was implemented at the former Sangamo-Weston plant
– 1-D (HEC-6) model predicted recovery to 1 mg/kg within a reasonable time
B-4
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MNR Today
� Advances in environmental science & engineering – Computers and modeling
– Analytical chemistry
– Sediment and contaminant mass transport processes
� Time: Decades since historical releases
� Increasing efforts to establish fundamental principles to evaluate MNR
B-5
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General Environmental Indicators(Are We Improving?)
+ Increased source control
+ Improved fisheries
+ Improved water quality
• DO levels rising
• Nutrients and organic loading decreasing
− Increased urbanization
− Increased driving and automobile use
− Decreasing wetland habitat B-6
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Impacts of Source Control: Sediment Trends in the US
van Metre et al., 1997, 1998, 2000
EPA-823-R-01-02 (2004) The Incidence and Severity of Sediment Contamination
in Surface Waters of the United States
Lead trends since 1975
PAH trends since 1970
DDT trends since 1970
B-7
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Sediment DDTWhite Rock Lake
Historical
Non-Point Source Control and Response in Surface Sediment Concentrations (White Rock Lake, TX)
van Metre et al., 1997, 1998, 2000
EPA-823-R-01-02 (2004) The Incidence and Severity of Sediment Contamination in Surface Waters of the United States
Total DDT (μ/kg)
DDT Use (metric tons/yr)
1940
1950
1960
1970
1980
1990
2000 0 10 20 30 40 50 60
0 20,000 40,000
Dat
e Total DDT (μ/kg)
Historical DDT Use
Lead (μ/g)
Atmospheric Lead (relative units)
0 20 40 60 80 100
0 1,000 3,0002,000
Sediment Lead
Atmos. Lead
Total PAH (μ/kg) 0 2,000 4,000
0 10,000 30,00020,000 40,000
Vehicle Miles Traveled
Vehicle Miles Traveled, Dallas, TX
Sediment PAH
B-8
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Source Control and Natural Recovery Can Contribute to Ecological Restoration
http://www.iisgcp.org/products/iisg0520.pdf#search=%22%22legacy%20contaminants%22%22
PCB concentrations in Great Lakes (US) open-water top-predator fish
B-9
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Training Outline
1. The role of natural recovery in the environment
2. MNR definitions
3. EPA 2005 Sediment Guidance Summary
4. Identify and describe MNR lines of evidence
5. Integrating MNR into remedy decision making
B-10
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MNR Definitions Monitored Natural Recovery (MNR) involves leaving contaminated sediments in place and allowing ongoing aquatic, sedimentary, and biological processes to reduce the bioavailability of the contaminants in order to protect receptors NRC, 1997. Contaminated Sediments in Ports and Waterways
MNR…uses known, ongoing, naturally occurring processes to contain, destroy, or otherwise reduce the bioavailability or toxicity of contaminants in sediment.
MNR…includes…monitoring to assess whether risk is being reduced as expected. USEPA, 2005. Contaminated Sediment Remediation Guidance for Hazardous Waste Sites
B-11
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2005 EPA Guidance� No presumed remedy: Consider all sediment management options
(MNR, Capping, and Dredging) on equal footing (§ 3.1 and 3-16)
� Implement source control (§2.6 and 3.1)
� Include watershed considerations (§ 2.5)
� Comparative Net Risk: Use risk-management principles during remedy selection (§ 7.1 and 7.4)
� Include comprehensive monitoring before and after remedy implementation (Chapter 8)
� Establish the (reasonable) time to achieve risk reduction (4-12)
� MNR can be combined with other remedies (4-12)
� Additional resource materials being developed
–MNR Technical Resource Document (EPA ORD, with support by ENVIRON and Battelle)
–DoD MNR Guidance (2007): (ESTCP, with support by EPA, Navy, USACE, and ENVIRON)
B-12
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2005 EPA Guidance� No presumed remedy
– “There should not be necessarily a presumption that removal of contaminated sediments from a water body will be necessarily more effective or permanent than capping or MNR.” (3-16)
– “Likewise, without sufficient evaluation there should not be a presumption that capping or MNR will be effective or permanent.”(3-16)
� Combine MNR with source control and other remedies – At large, complex sites, PM “should consider a combination of
sediment approaches…to manage the risk.” (3-2)– Select “site-specific, project-specific, and sediment-specific risk
management approaches that will achieve risk-based goals.” (7-1)
� Remedy effectiveness and permanence – “[MNR is] capable of reaching acceptable levels of…effectiveness
and permanence.” (3-15) – “…deeper contaminated sediment that is not currently bioavailable
or bioaccessible, and that analyses have shown to be stable to a reasonable degree, do not necessarily contribute to site risks.” (7-3)
B-13
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Primary Lines of Evidence Supporting an MNR Assessment
� Demonstrate low baseline risk conditions
� Identify (and quantify) trends toward reduced chemical exposures and reduced risk
� Characterize long-term remedy stability (e.g., remedy effectiveness)
– Physical stability
– Geochemical stability
– Risk stability B-14
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2005 EPA Guidance (Highlight 4-1: Hierarchy of Natural Processes)
A. Contaminant transformation to a less toxic form (biological or abiotic transformation)
B. Reduced contaminant mobility/bioavailability (sorption or binding processes)
C. Reduced exposure at the sediment surface (burial, in-place mixing with cleaner sediment)
D. Contaminant release and off-site transport (particle dispersion, diffusive/advective transport)
B-15
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Training Outline
1. The role of natural recovery in the environment
2. MNR definitions
3. EPA 2005 Sediment Guidance Summary
4. Identify and describe MNR lines of evidence
5. Integrating MNR into remedy decision making
B-16
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MNR Begins with the Conceptual Site Model
� A CSM is a characterization of the key overall dynamics of the site (e.g., sources, sinks, contaminant fate and transport, exposure pathways and receptors), and provides the basis for developing a remedial strategy (EPA Guidance, § 2.2)
� The CSM is particularly important in evaluating MNR’s potential effectiveness because it results in an understanding of the basis/drivers of risk at the site
B-17
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MNR Approach Lines of Evidence
Contaminant weathering, transformation and risk attenuation (A & B)
� Biological (or chemical) oxidation/reduction � Sorption and sequestration � Geotechnical precipitation (metals)
Containment and dilution through natural sedimentation (C)
� Source control � Sediment deposition and burial � Consolidation � Benthic mixing processes
Sediment stability / resuspension (D)
� Desorption or dissolution � Hydrodynamic studies � Sediment critical shear strength � Modeling
Modeling to predict long-term recovery
� 1-D sediment modeling � Complex sediment transport modeling � Food-chain and risk modeling
Ecological recovery � Measure impacts to ecological receptors � Demonstrate long-term ecological recovery
Long-term monitoring � Demonstrate achievement of remedial
objectives � Demonstrate long-term recovery B-18
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Source Control Considerations
� Background sources can impact recovery
� Non-point sources – difficult to control
� Regulation of chemical use
� Terrestrial cleanup levels may not coincide with sediment cleanup levels
� Secondary sources can impact recovery
B-19
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Navy Hunters Point Shipyard (HPS) SedimentSampling Locations, San Francisco, CA
B-20
Courtesy of U.S. Navy, SWDiv (San Diego, CA)
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Se
dim
en
t D
ep
th (
cm)
Se
dim
ent
De
pth
(c
m)
Example Vertical PCB Profiles HPS, San Francisco, CA
PCB Concentration (μg/kg) PCB Concentration (μg/kg)
0 5,000 10,000 15,000 0 5,000 10,000 15,000
2.5 2.5
10.0 10.0
22.5 22.5
37.5 37.5
52.5 52.5
67.5 SB-102
67.5 SB-99 82.5
0 5,000 10,000 15,000 0 5,000 10,000 15,000
82.5
2.5 2.5
10.0 10.0
22.5 22.5
37.5 37.5
52.5 52.5
67.5 67.5 SB-100 82.5 82.5
Courtesy of U.S. Navy, SWDiv (San Diego, CA)
SB-103
B-21
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Surface Elevation PCB (μg/kg)
Courtesy of U.S. Navy, SWDiv (San Diego, CA) B-22
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PCB (μg/kg) at 1-ft Depth
Courtesy of U.S. Navy, SWDiv (San Diego, CA) B-23
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PCB (μg/kg) at 2-ft Depth
Courtesy of U.S. Navy, SWDiv (San Diego, CA) B-24
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Se
dim
en
t D
ep
th (
cm
)
Lake Hartwell Sediment Age Dating 0
� 210Pb 10 – 22.3-year half life
– Peak at surface 20
– Decays with depth
30 � 137Cs – 30-year half life
40
Cesium-137
Lead-210
ca. 1963 – Peak ca. 1963
– First appears ca. 1957 50
– Decays toward surface 60
0 5 10 � Deposition ~1 cm/yr 137Cs Activity
B-25Lake Hartwell Core
USEPA ORD (Cincinnati, OH) and Region 10
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Silt
1999 1995 1992 1989 1986 1983 1979 1975 1971 1967 1963 1959
0 10,000 20,000 30,000 40,000 50,000
82.5
72.5
62.5
52.5
42.5
32.5
22.5
12.5
2.5 C
ore
Seg
men
t D
epth
(cm
)
PCB Concentration (μg/kg) dry weight
y = 9.58Ln(x) - 0.563
R2=0.9685
Quantifying Sediment Deposition and Contaminant Burial
Brenner et al., ES&T, 38(8): 2328-2337 B-26
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1982
1989
2
t-PCB Concentration (mg/kg) t-PCB Concentration (mg/kg)
LH PCB Profiles,20.0 15.0 10.0 5.0 0.0 15.0 10.0 5.0 0.0
0 1999 0 1996Core T-OA Core T-LA 1990 1010
y = 11.90Ln(x) + 6.89 y = 7.51Ln(x) + 13.29 19842000 2020 21997 = 0.4888 = 0.7372 r r 19771993 30 301970
Sed
imen
t Dep
th (cm
) S
edim
ent D
epth
(cm
) S
edim
ent D
epth
(cm
) S
edim
ent D
epth
(cm)
Heterogeneity40 1962 401986 1953194150 50
197860
701973 80
60
70
801960(a) 90 901967 (d)
1952100 100
t-PCB Concentration (mg/kg) t-PCB Concentration (mg/kg)
10.0 8.0 6.0 4.0 2.0 0.0 50.0 40.0 30.0 20.0 10.0 0.0
0 0 2001
T-OB 10 Core T-LB 10y = 13.33Ln(x) + 1.42 200020
304050607080
(b) 90
2019972 = 0.9704 30
40
r 19951993
1989501987
1984 6019811978 70
1970 80197590(e)
100 100
t-PCB Concentration (mg/kg) t-PCB Concentration (mg/kg)
15.0 10.0 5.0 0.0 80.0 60.0 40.0 20.0 0.0
0 0 Core T-LC 10Core T-OC 10 y = 7.86Ln(x) - 0.798
y = 16.97Ln(x) + 23.49 20
3020 22000 = 0.8996 r2 = 0.5841 1994r 30
1988 1991 40
50
6070
80
401985 50
19811977 601973 701967
801962 9090(c) (f)
1952100 100
t-PCB Concentration (mg/kg) t-PCB Concentration (mg/kg) 30.0 25.0 20.0 15.0 10.0 5.0 0.0 30.0 25.0 20.0 15.0 10.0 5.0 0.0
0 0 1996 1996 1020001999
2000 10 1992 Brenner et al19991993 20
3020 .,30Core T-IA
ES&T, 38(8): 2328-2337Core T-IB 40 40y = 5.12Ln(x) + 0.425 y = 7.11Ln(x) - 3.32 502
2 50 = 0.9228 r = 0.9310 r 6060
B-2770708090
8090(h) (g)
100 100
Sedim
ent D
epth
(cm
) S
edim
ent D
epth
(cm
) S
edim
ent D
epth
(cm)
Sedim
ent D
epth
(cm
)
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Time to Achieve ROD (U.S. EPA 1994) Cleanup Goals� ROD surface sediment cleanup goal (1 mg/kg)
� Mean site-specific sediment quality criteria (0.4 mg/kg)
� NOAA effects range-low (0.05 mg/kg)
Time to Achieve Cleanup Goals 1 mg/kg t-PCB
0.4 mg/kg t-PCB
0.05 mg/kg t-PCB
1 – 5 yrs 2 – 10 yrs 10 – 30 yrs
95% confidence levels increased the time frame up to 95 yrs B-28
Brenner et al., ES&T, 38(8): 2328-2337
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Natural Sedimentation and Burial Summary
� Source control can lead to reduced surface sediment contaminant concentrations
� Coring provides rapid assessment of historical recovery � Coring also provides highly relevant information in support
of other remedies in addition to MNR – History of contaminant release – Surface sediment concentrations and trends – Depositional rates – Indications of sediment stability – Physical and chemical information about sediments
(PSD, TOC, bulk density, AVS, redox, pH)– Depth of contamination
� Can be combined with geochronology – Age dating sediment cores – Sediment deposition rates – Benthic mixing B-29
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MNR Approach Lines of Evidence
Contaminant weathering, transformation and risk attenuation (A & B)
� Biological (or chemical) oxidation/reduction � Sorption and sequestration � Geotechnical precipitation (metals)
Containment and dilution through natural sedimentation (C)
� Source control � Sediment deposition and burial � Consolidation � Benthic mixing processes
Sediment stability / resuspension (D)
� Desorption or dissolution � Hydrodynamic studies � Sediment critical shear strength � Modeling
Modeling to predict long-term recovery
� 1-D sediment modeling � Complex sediment transport modeling � Food-chain and risk modeling
Ecological recovery � Measure impacts to ecological receptors � Demonstrate long-term ecological recovery
Long-term monitoring � Demonstrate achievement of remedial
objectives � Demonstrate long-term recovery B-30
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Contaminant Transformation Processes
� Transformation processes (weathering) – Sorption/Sequestration – Biological transformation
– Precipitation – Abiotic transformation
– Dissolution/volatilization
� Can lead to chemical detoxification – PCB dechlorination
– PAH degradation
– Metals precipitation
� Can lead to increased toxicity – Mercury methylation
– Some dioxin dechlorination processes
� Chemical forensics/fingerprinting, multivariate statistics, laboratory studies, in situ studies
Transformation Processes to be Discussed • PCBs
• PAHs
• Divalent metals and Chromium
B-31
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Impacts primarily tri-through deca-Cl BPHigh Cl > Low ClReductive
dechlorination
coplanar increases, meta/para > orthoHigh Cl > Low ClToxicity
Impacts primarily mono-, di-, tri-Cl BPLow Cl > High ClBiological
oxidation
Impacts primarily mono, di, tri-Cl BPLow Cl > High Cl
Solubility, Dissolution, Volatilization
Level of ChlorinationRelative KineticsMechanism
PCB Weathering metameta ortho orthoortho ortho metameta
Decreased chlorination decreases molecular weight
paraparaand hydrophobicity, increases parapara
solubility and mobility metameta orthoortho orthor otho metameta
B-32
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Lake Hartwell Case Study Major Congener Shifts Observed in Core L
IUPAC No. Congener Name Percent Change
PCB 1 2-chlorobiphenyl 4.4 PCB 4/10 2,2'/2,6-dichlorobiphenyls 29 PCB 8/5 2,4'/2,3-dichlorobiphenyls 5.8 PCB 16/32 2,2',3/2,4',6-trichlorobiphenyls 5.8 PCB 19 2,2',6-trichlorobiphenyl 8.4 PCB 24/27 2,3,6/2,3',6-trichlorobiphenyls 2.5
PCB 66 -156 tetra- through hexachlorobiphenyls
-45
B-33
Magar et al., ES&T 39(10):3538-3547, ES&T 39(10):3548-3554
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Av
era
ge
No
. o
f C
hlo
rin
es
Ave
rag
e N
o.
of
Ch
lori
nes
Lake Hartwell Case Study ortho, meta, and para dechlorination
2.5
2.0 Average Rates (n = 11)
1.0
1.5 ortho meta para
meta = 0.053 ± 0.04 para = 0.037 ± 0.03
0.5 18 yr per meta Cl 0.0 27 yr per para Cl
0 20 40 60 80 100
Depth (cm)
2.5
metameta ortho orthoortho ortho metameta2.0
meta rate = 0.048 mol Cl yr-1
para rate = 0.034 mol Cl yr-1 1.5
parapara parapara1.0
ortho metameta orthoortho orthoortho metametameta0.5
Magar et al., ES&T 39(10):3538-para 3547, ES&T 39(10):3548-35540.0
1995 1985 1975 1965 1955 1945 1935 B-34 Depth (cm)
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Lake Hartwell Toxicity Equivalencies (TEQ)
0.030 70 7.0
WHO TEQ
t-PCB
40 0.015
WHO TEQ:t-PCB Ratio 60 6.0 0.025
t-PC
B (m
g/kg
)
WH
O T
EQ
:t-P
CB
(x1
06)
5.0
4.0
3.0
2.0
1.0
0.0
PC
B T
EQ
(m
g/k
g)
50 0.020
30
0.010 20
0.005 10
0.000 0
2.5
12.
5
22.
5
32.
5
42.
5
52.
5
62.
5
72.
5
82.
5
2.5
12.
5
22.
5
32.
5
42.
5
52.
5
62.
5
72.
5
82.
5
Core L Depth (cm) Core L Depth (cm)
TEQ values based on World Health Organization (WHO) B-35
toxicity equivalency factors (TEF)
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Lake Hartwell Case Study World Health Organization (WHO) Toxic Equivalency Factors (TEF)
IUPAC No.
Chlorine Substitution Characteristics
Toxic Equivalency Factor (relative to 2,3,7,8-TCDD)
WHO Congeners Included in Lake Hartwell Sediment PCB Analyses PCB105 mono-ortho substituted 0.00010 PCB114 mono-ortho substituted 0.00050 PCB118 mono-ortho substituted 0.00010 PCB156 mono-ortho substituted 0.00050 PCB167 mono-ortho substituted 0.00001 PCB169 non-ortho substituted (coplanar) 0.01000 PCB170 di-ortho substituted 0.00010 PCB180 di-ortho substituted 0.00001 PCB189 mono-ortho substituted 0.00010
WHO Congeners Not Included in Lake Hartwell Sediment PCB Analyses(a)
PCB77 non-ortho substituted (coplanar) 0.00050 PCB123 mono-ortho substituted 0.00010 PCB126 non-ortho substituted (coplanar) 0.10000 PCB157 mono-ortho substituted 0.00050 (a) Congeners require EPA Method 1668
B-36
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PCB Weathering and Dechlorination Summary
� Dechlorination processes – Tetra–deca PCBs transform to mono–tri PCBs – Ortho-chlorines (least toxic) are conserved – Provides long-term reduced toxicity
(short-term relies on burial)� Toxicity reduction
– Dechlorination reduces toxicity (fewer chlorines and reduced coplanar congeners)
– Dechlorination is a progressive process – Increasing dechlorination with depth and age
� Natural weathering processes – Reduce t-PCB concentrations – Primarily impacts lower MW PCBs – PCBs may resemble higher MW Aroclors with time
B-37
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PAH Weathering Total PAH concentration is not a
Naphthalene good indicator of toxicity; need to consider pore water concentration Benzo(a)pyrene
Mechanism Relative Kinetics
Solubility, Dissolution, Volatility Low MW > High MW
Aerobic oxidation
Kinetics: Low MW > High MW
PAHs: naphthalene, acenaphthene, fluorene, dibenzothiophene, anthracene, phenanthrene, fluoranthene, pyrene, chrysene, benzo(a)anthracene, and benzo(a)pyrene (Prince and Drake, 1999)
Anaerobic oxidation
Nitrate-reducing: Naphthalene, acenaphthene (Milhelcic and Luthy, 1991; Durant et al., 1995)
Sulfate-reducing: Naphthalene and phenanthrene (Coates et al., 1996, 1997)
Toxicity Low MW > availability, acute toxicity
High MW (e.g., B(a)P) > carcinogenicity B-38
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20%
15% PAH Weathering in Creosote-Dominated 10%
5%
Pe
rce
nt
t-P
AH
Pe
rce
nt
t-P
AH
Pe
rce
nt
t-P
AH
Pe
rce
nt
t-P
AH
Pe
rce
nt
t-P
AH Wyckoff
Creosote NAPL
Samples at Eagle Harbor� Rapid loss of Naphthalene
and alkyl-naphthalenes � Progressive loss of 3-ring
PAHs and alkyl-derivatives – Naphthalene – Acenaphthylene – Acenaphthene
0%
20%
Core B02, 37-42 cm 15%
Unweathered 31.7% 10% Creosote
5%
0%
20%
Core B02, 12-17 cm 15%
23.1% Slightly Weathered 10% Creosote
5%
0%
– Dibenzofuran 20%
– Fluorene – Anthracene – Phenanthrene – Dibenzothiophene
� High molecular-weight PAHs are more persistent
Brenner et al., ES&T, 36(12): 2605-2613
Core B03, 24-29 cm 15% Moderately Weathered 10%
5%
0%
Creosote
20%
Core B03, 14-19 cm 15%
Severely Weathered 28.3% Creosote 10%
5% B-39
0%
Stout et al., J. Env. Forensics, 2(4): 287-300 N0
N3
Acl
F0
F3
D2
AN
P2
FL
FP
2
C0
C3
BkF
Ba
P
DA
DlP
Dh
P
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PAH Fingerprinting (Petrogenic vs. Pyrogenic)
0
5,000
10,000
15,000
20,000
25,000
N0
N1
N2
N3
N4
Bp
hA
clA
ceD
bF F0
F1
F2
F3
D0
D1
D2
D3
D4
AN P0
P1
P2
P3
P4
FL
PY
FP
1F
P2
FP
3B
aA C0
C1
C2
C3
C4
Bb
FB
kFB
aFB
ePB
aPP
ER ID DA
Bg
P
PAH
mg
/kg
oil
43 mg/kg
Naphthalenes
Fluorenes
Phenanthrenes/Anthracenes
Fluoranthenes/Pyrenes
Coal-tar sample: C0 >> C1 > C2 > C3 > C4
0
1,000
2,000
3,000
4,000
5,000
6,000
N0
N1
N2
N3
N4
Bp
hA
clA
ceD
bF F0
F1
F2
F3
D0
D1
D2
D3
D4
AN P0
P1
P2
P3
P4
FL
PY
FP
1F
P2
FP
3B
aA C0
C1
C2
C3
C4
Bb
FB
kFB
aFB
ePB
aPP
ER ID DA
Bg
P
PAH
mg
/kg
oil
Petroleum sample: C0 < C1 < C2 > C3 > C4
Naphthalenes
Fluorenes Phenanthrenes/Anthracenes
Fluoranthenes/Pyrenes
Pyrogenic (e.g., tars and coal byproducts)
C0 > C1 > C2 > C3 > C4
Petrogenic (e.g., petroleum products)
C0 < C1 < C2 > C3 > C4
B-40
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PAH and TPH Characteristics in Eagle Harbor (WA) Sediments
Natural Background
N
Natural Background
Urban Runoff
Unweathered Creosote
Slightly Weathered Creosote
Urban Runoff & Weathered Creosote
Moderately Weathered Creosote
Natural Background
N
Natural Background
Urban Runoff
Unweathered Creosote
Slightly WeatheredCreosote
Urban Runoff & Weathered Creosote
Moderately Weathered CreosoteBrenner et al., ES&T, 36(12): 2605-2613
Stout et al., J. Env. Forensics, 2(4): 287-300 B-41
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PAH Weathering Summary � Degradation
– Degradation is an oxidative process – Evidence for anaerobic oxidation exists – Kinetics: Lower-MW PAHs > Higher-MW PAHs – ≥4-ring PAHs degrade very slowly (if at all)
� Toxicity reduction – Degradation reduces highly mobile low MW PAHs – Reduces acute PAH toxicity due to 2- and 3-ring PAHs – PAH in pore water is a much better indicator of toxicity
than whole sediment PAH concentration
� Natural weathering processes – Primarily impacts lower MW PAHs – Virtually indistinguishable from degradation – Can make source identification difficult B-42
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Metals Mobility / Bioavailability
� Divalent metals and AVS:SEM
� Chromium
� Organo-metals
AVS = Acid Volatile Sulfides
SEM = Simultaneously Extracted Metals
Whole sediment total-metal concentration is a poor indicator of metal toxicity; need
to consider pore water concentrations
B-43
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Metals Mobility / BioavailabilityDivalent metals
= are not bioavailable or toxic
Divalent metals
= may be bioavailable or toxic
Do not assume metals are toxic if AVS < SEM Requires additional testing (e.g., pore water, surface water, TCLP)
USEPA 2005. Procedures for the Derivation of Equilibrium Partitioning Sediment Benchmarks (ESBs) for the B-44 Protection of Benthic Organisms: Metal Mixtures. EPA/600/R-02/011
SEM>AVS
SEM<AVS
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Metals Mobility / Bioavailability � If SEM > AVS, check pore water concentrations
M∑ i,d ≤ 1 ⇒ non − toxic FCVi ,d
– M = Metal interstitial (pore water) molar concentration (Cadmium, Copper, Lead, Nickel, Silver and Zinc)
– FCV = Final chronic value
– SCV = Secondary chronic value if FCV is unavailable
USEPA 2005. Procedures for the Derivation of Equilibrium Partitioning Sediment Benchmarks (ESBs) for the B-45 Protection of Benthic Organisms: Metal Mixtures. EPA/600/R-02/011
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Chromium Bioavailability and Toxicity in Sediments
+ Sulfide (AVS)
Cr(VI) + TOC Cr(III)
+ Iron
Cr(VI)
� Cr(VI) is soluble and exhibits greater toxicity than Cr(III)
� Cr(VI) is transformed to Cr(III) under reducing conditions
� Cr(III) is relatively insoluble & thermodynamically stable
� Cr(III) is the dominant chromium species in sediment
� Cr(III) exhibits very low mobility and toxicity
USEPA, 2005; Berry et al., 2004; Hansel et al., 2004 B-46
Walter Berry is with USEPA Narragansett Bay labs
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Organo-Metals and Other Considerations
� Mercury – Forms organo-Hg (Methyl-Hg) complexes
– Methyl-Hg is mobile, bioaccumulative, and toxic
– Formed anaerobically under sulfate-reducing or methanogenic conditions
– Not all Hg is bioavailable: HgS is insoluble and immobile
– Hg MNR may rely on burial more than on HgS precipitation
� Arsenic – Arsenic solubility increases anaerobically
– Increased mobility B-47
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Metals Summary � MNR for divalent metals relies primarily on
reduction and precipitation to non-toxic Me-S precipitates
� MNR for chromium relies on anaerobic reduction to immobile and non-toxic Cr(III)
� AVS/SEM is used to screen toxicity
� Pore water measurements are used to measure bioavailability directly
� Burial also contributes to MNR, particularly for Hg and possibly Se
B-48
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MNR Approach Lines of Evidence
Contaminant weathering, transformation and risk attenuation (A & B)
� Biological (or chemical) oxidation/reduction � Sorption and sequestration � Geotechnical precipitation (metals)
Containment and dilution through natural sedimentation (C)
� Source control � Sediment deposition and burial � Consolidation � Benthic mixing processes
Sediment stability / resuspension (D)
� Desorption or dissolution � Hydrodynamic studies � Sediment critical shear strength � Modeling
Modeling to predict long-term recovery
� 1-D sediment modeling � Complex sediment transport modeling � Food-chain and risk modeling
Ecological recovery � Measure impacts to ecological receptors � Demonstrate long-term ecological recovery
Long-term monitoring � Demonstrate achievement of remedial
objectives � Demonstrate long-term recovery B-49
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Sediment Stability
� USEPA 2005 Guidance
– Sediment need not be “stable” per se
– Focus should be on potential for the creation of unacceptable future risk of exposure to contaminants if/when sediment moves
– Sediments can move without causing unacceptable increases in risk
� Measuring sediment stability: A balance of forces
– Sediment critical shear strength
– Hydrodynamic shear stress
B-50
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Why are we interested in sediment stability?
Brenner et al., ES&T, 38(8): 2328-2337
0 10,000 20,000 30,000 40,000 50,000
82.5
72.5
62.5
52.5
42.5
32.5
22.5
12.5
2.5
Co
re S
egm
ent
Dep
th (
cm)
PCB Concentration (μg/kg) dry weight
y = 9.58Ln(x) - 0.563
R2=0.9685
B-51
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Sediment Stability � Tier 1: Estimate sediment erosion potential based on
conventional sediment and hydrodynamic properties – Bulk density
– Sediment grain size
– Surface water velocities based on available hydrodynamic data – Rainfall records and USGS records
� Tier 2: Calculate sediment erosion potential using direct sediment shear strength and current velocity measurements
– Critical shear strength
– Bulk density
– Current and wave velocity measurements – Long-term hydrodynamic measurements (e.g. tide gauges)
– Modeled high-energy events (e.g., 100-year storms)
Mass balance approach Net depositional: Mass In > Mass Out Net erosional: Mass In < Mass Out B-52
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Measuring Sediment Stability � Sediment shear strength
– Cohesive, consolidated sediments require direct measurement of critical shear strength
– Measure in situ current velocities – Predict long-term hydrodynamic velocities and
corresponding shear forces• Normal currents • High-energy events (e.g., 100-year storms) • Waves (natural, storm, or wind-induced) • Navigation (prop wash)
� Sedimentary processes – Surface water hydrodynamic shear forces – Sediment scour potential (resisted by sediment mass,
cohesive forces, and consolidation) – Bedload transport – Surface sediment coarsening B-53
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Peak (100-Year) Storm Surge Velocities
B-54
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Peak (100-Year) Storm Hydrodynamic Shear
B-55
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Measure Sediment Shear Strength
SedFlume
Courtesy of Sea Engineering, Inc. (Santa Cruz, CA) B-56
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Predicting Sediment Scour Potential � Combine hydrodynamic
shear stress and sediment shear strength measurements
� 100-year storm scour potential: ~3 cm
� Rebound due to sediment deposition
� Site specific and location specific
B-57
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Sediment Scour Potential Summary
� What is the potential for sediment scour?
� Does sediment scour risk exposure of higher (unacceptable) surface sediment concentrations?
� What are appropriate responses to sediment scour? –Long-term monitoring and risk assessment
–Preventive measures such as capping or armoring
– When is dredging an appropriate preventative measure?
B-58
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MNR Approach Lines of Evidence
Contaminant weathering, transformation and risk attenuation (A & B)
� Biological (or chemical) oxidation/reduction � Sorption and sequestration � Geotechnical precipitation (metals)
Containment and dilution through natural sedimentation (C)
� Source control � Sediment deposition and burial � Consolidation � Benthic mixing processes
Sediment stability / resuspension (D)
� Desorption or dissolution � Hydrodynamic studies � Sediment critical shear strength � Modeling
Modeling to predict long-term recovery
� 1-D sediment modeling � Complex sediment transport modeling � Food-chain and risk modeling
Ecological recovery � Measure impacts to ecological receptors � Demonstrate long-term ecological recovery
Long-term monitoring � Demonstrate achievement of remedial
objectives � Demonstrate long-term recovery B-59
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Modeling � Conceptual site models
� 1-dimensional vertical models
� Hydrodynamic modeling
� Sediment transport modeling
� Contaminant F&T modeling
� Biological modeling – Food-chain
– Toxicity
– Contaminant transport B-60
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Fate & Transport Modeling
Incr
easi
ng
co
mp
lexit
y &
d
ata
req
uir
em
en
ts
1. Hydrodynamic – simple statistical model Provides basic information about flow direction and factors governing hydraulics at the site
2. Hydrodynamic – detailed numerical model Predicts flow direction and magnitude under site-specific conditions, establishing links between sources and deposition
3. Hydrodynamic with particle transport Predicts sediment particle transport pathways
4. Mechanistic Sediment Transport Provides quantitative estimates of the magnitude and direction of sediment transport, short-term and long-term, calibrated to water column solid loads and geochronological data
5. Contaminant Fate and Transport Provides quantitative estimates of amount and direction of dissolved and sediment-bound contaminant transport, short-term and long-term, calibrated to water column loads, sediment bed concentrations, etc. B-61
Courtesy of Tim Dekker (LimnoTech, Inc., Ann Arbor, MI)
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Modeling Long-Term Sediment Recovery (Case 1: No Deposition)
B-62
Courtesy of Craig Jones (Sea Engineering, Inc., Santa Cruz, CA)
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Modeling Long-Term Sediment Recovery (Case 2: Deposition = 0.5 cm/yr; normal mixing)
Courtesy of Craig Jones (Sea Engineering, Inc., Santa Cruz, CA)
B-63
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Modeling Long-Term Sediment Recovery (Case 3: Deposition = 0.5 cm/yr; heavy mixing)
B-64
Courtesy of Craig Jones (Sea Engineering, Inc., Santa Cruz, CA)
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MNR Approach Lines of Evidence
Contaminant weathering, transformation and risk attenuation (A & B)
� Biological (or chemical) oxidation/reduction � Sorption and sequestration � Geotechnical precipitation (metals)
Containment and dilution through natural sedimentation (C)
� Source control � Sediment deposition and burial � Consolidation � Benthic mixing processes
Sediment stability / resuspension (D)
� Desorption or dissolution � Hydrodynamic studies � Sediment critical shear strength � Modeling
Modeling to predict long-term recovery
� 1-D sediment modeling � Complex sediment transport modeling � Food-chain and risk modeling
Ecological recovery � Measure impacts to ecological receptors � Demonstrate long-term ecological recovery
Long-term monitoring � Demonstrate achievement of remedial
objectives � Demonstrate long-term recovery B-65
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Measuring Ecological Recovery
� Ecological recovery is likely to lag behind sediment recovery
� Establish meaningful and achievable goals
� Monitor above statistical variability
B-66
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Balancing Multiple Lines of Evidence
Monitoring Ecological Recovery � Establish meaningful, achievable goals
� Ecological recovery is likely to lag behind sediment recovery
� Monitor above statistical variability
Balancing Multiple Lines of Evidence � Source identification
� Nature vs. anthropogenic
� Distinguishing chemical vs. non-chemical stressors
� Detecting ecological changes with time
� Causality
� Risk assessment and ecological exposure
B-67
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Assessing Ecological Health
Source: TetraTech (2005) Biological Assessment of the Patapsco River Tributary Watersheds http://www.co.ho.md.us/DPW/DOCS/patapsco.pdf#search=%22fish%20trends%20in%20Patapsco%20River%22
B-68
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Booth, P. et al., SETAC 2004, Portland, OR
Lake Hartwell Long-Term Monitoring
B-69
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Training Outline
1. The role of natural recovery in the environment
2. MNR definitions
3. EPA 2005 Sediment Guidance Summary
4. Identify and describe MNR lines of evidence
5. Integrating MNR into remedy decision making
B-70
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Recipe for Successful Environmental Assessment
� Rigorous source characterization to understand source control and long-term contamination potential
� Characterize surface sediment deposition processes – Long-term concentration changes
– Role of surface sediment in ecological exposure and risk
– Containment of buried contaminants
� Understand hydrodynamics
� Characterize contaminant transformation processes
� Understand bioaccumulation (biota), biological and human health effects, and risk
� Quantify sediment scour potential
� Characterize chemical / geochemical stability B-71
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Remedy Comparisons� Compare MNR with capping and dredging
– What is a “reasonable time frame” for MNR?
– Compare to the realistic time tables for dredging and/or capping to be fully implemented
– When are risk-levels acceptable for MNR?
– Balancing costs: Is it worth accelerating MNR?
� When Should I Consider/Use MNR? – Natural processes are always ongoing
– Maximize MNR to reduce negative impacts of more aggressive remedies
– Make sure remedies complement MNR processes
– Integrate MNR with other remedies
– Monitor to reduce uncertainty B-72
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What About Enhanced MNR?
� Sediment capping
– Isolates sediment contaminants
– Creates a relatively clean sediment surface
� Thin layer capping can accelerate surface sediment concentration reductions, and achievement of cleanup goals
� Novel materials (e.g., carbon) may reduce bioavailability
B-73
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B-74
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EPA/OSRTI Sediment Remedies: Monitored Natural Recovery atContaminated Sediment Sites
Monitoring Sediment Remedies and Ecological Recovery
Leah H.Leah H. EvisonEvison, PhD, PhDUSEPAUSEPA –– Office of Superfund Remediation & TechnoloOff gy Innovationgyice of Superfund Remediation & Technolo Innovation
[email protected]@epa.gov(312) 886(312) 886--71937193
Victor S. Magar, PhD, PEVictor S. Magar, PhD, PEENVIRONENVIRON –– Chicago,Chicago ILI, L
vmagar@envvmagar@e ironcorp.comnvironcorp.com(312) 853(312) 853--94309430
EPA Sediment Remedies Internet Seminar C-1
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Training Objectives 1. Establish monitoring objectives
2. Identify remedy-specific monitoring goals – MNR
– Capping
– Dredging
3. Present EPA’s six-step monitoring DQO process
4. Identify monitoring tools
5. Wyckoff/Eagle Harbor case study
6. Summary C-2
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Why Monitor?Manage Remedy Uncertainty
Uncertainty is inherent to any cleanup activity (USDOE 1997, 1999)….If all uncertainties could be eliminated prior to remedy implementation, there would be no need for post-implementation monitoring (U.S. DOE 1999).
� Physical and Chemical Uncertainties – Natural heterogeneity, and contaminant distributions – Background contaminants and ecological stressors – Adequacy of source control – Sediment and contaminant transport kinetics
� Biological Uncertainties – Biota home range, lipid content, age, feeding regime, contaminant excretion rates – Influence of low contaminant concentrations, and sample/analytical variability – Relationships between sediment chemical concentrations and biological effects – Remedy effectiveness and remedy impacts on aquatic ecology
� Future Uncertainties – Future sedimentation rates based on historical profiles – Future hydrodynamic conditions – Changes to future site use and impacts on sedimentation, sediment/chemical stability
� Monitoring uncertainties – Analytical, statistical, sampling
C-3 – Sample positioning and representativeness
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Distinguishing Construction, Short-Term and Long-Term Monitoring� Construction / Performance Monitoring
– Remedy construction and implementation
– Acute construction risks to community, ecology, and workers
– Treatment and operation facilities during implementation
� Short-term – Remedy during shake-down period (e.g., one year)
– Engineering site controls during shake-down period
– First 5-year review
� Long-term – Monitoring and maintenance of institutional controls
– Long-term monitoring, sampling, testing, analysis, and reporting
– Long-term maintenance of remedy and engineering site controls
The goal of long-term monitoring is not to re-characterize the C-4
site at each monitoring event
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Training Objectives 1. Establish monitoring objectives
2. Identify remedy-specific monitoring goals – MNR
– Capping
– Dredging
3. Present EPA’s six-step monitoring DQO process
4. Identify monitoring tools
5. Wyckoff/Eagle Harbor case study
6. Summary C-5
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Remedy-Specific MonitoringPrimary Remedy Functions
MNR Capping � Chemical � Burial and
transformation isolation
� Chemical � Chemical sequestration sequestration
� Natural � Creation of a sedimentation clean sediment and burial surface
Dredging � Sediment and
contaminant removal
� Reduce contaminant mass in sediment
� Often combine with MNR or backfill to achieve RAOs
C-6
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Sediment Remedy Overview
Untreated State Concentration
Dredging Concentration Natural Recovery Concentration
Sediment Capping Concentration
C-7
MNR or Backfill
Clean Cap greatest potential exposure
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Remedy-Specific Monitoring GoalsMNR
� Validate CSM
� Reduced contaminant availability
� Ongoing transformation processes
� Ongoing sedimentary processes
� Geochemical stability
� Sediment stability
� Ecological recovery
Capping � Validate
construction
� Demonstrate cap stability, long-term isolation
� Cap surface recontamination potential
� Ecological recovery – Benthos (cap
surface) – Higher-trophic
levels
Dredging � Validate
construction and mass removal
� Evaluate surface sediment concentrations
� Validate backfill
� Monitor natural recovery (see MNR)
� Ecological recovery
C-8
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Training Objectives 1. Establish monitoring objectives
2. Identify remedy-specific monitoring goals – MNR
– Capping
– Dredging
3. Present EPA’s six-step monitoring DQO process
4. Identify monitoring tools
5. Wyckoff/Eagle Harbor case study
6. Summary C-9
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USEPA (2005) Six-Step Process for Developing and Implementing a Monitoring Plan
� Step 1. Identify Monitoring Plan Objectives – Evaluate the site activity
• Identify the activity objectives
• Identify the activity endpoints
• Identify the activity mode of action
– Identify monitoring objectives
– Obtain stakeholder input
� Step 2. Develop Monitoring Plan Hypotheses – Develop monitoring conceptual models
– Develop monitoring hypotheses and questions
C-10
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USEPA (2005) Six-Step Process for Developing and Implementing a Monitoring Plan
� Step 3. Formulate Monitoring Decision Rules – Identify the monitoring parameter and expected outcome
– Establish an action level as the basis for the monitoring decision
– Identify a response for the specified action
� Step 4. Design the Monitoring Plan – Identify data needs
– Determine monitoring plan boundaries
– Identify data collection and analysis methods
– Identify data analysis methods
– Finalize the decision rules
– Prepare monitoring quality assurance project plans (QAPPs) C-11
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USEPA (2005) Six-Step Process for Developing and Implementing a Monitoring Plan � Step 5. Conduct Monitoring and Characterize Results
– Conduct data collection and analysis
– Evaluate results per the monitoring DQOs
– Revise data collection and analysis as necessary
– Characterize analytical results and evaluate against decision rules
� Step 6. Establish the Management Decision
– Conclude monitoring if results support the decision rule for remedy success
– Continue remedy and monitoring if results do not support the decision rule for remedy success but trend toward supporting remedy success
– Re-assess uncertainty, revised site activity, or continue monitoring if results do not support the decision rule for remedy success and do not trend toward supporting remedy success C-12
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Training Objectives 1. Establish monitoring objectives
2. Identify remedy-specific monitoring goals – MNR
– Capping
– Dredging
3. Present EPA’s six-step monitoring DQO process
4. Identify monitoring tools � Physical, Chemical, and Biological tools
5. Wyckoff/Eagle Harbor case study
6. Summary C-13
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Physical Measurements
Sediment erosion/deposition, ground water and surface water flow rates, and sediment physical characteristics (e.g., particle size, heterogeneity, bulk density)
� Sediment Physical Properties: Fate and transport modeling, sediment characteristics, post-remedy surface sediment features
� Water Column Physical Measurements (e.g., turbidity, suspended solids): Sediment suspension during remedy implementation
� Bathymetry: Evaluate pre-remedy and post-remedy bottom elevations
� Side Scan Sonar Data: Monitor sediment types and bedforms
� Settlement Plate Data: Changes in cap thickness, cap consolidation
� Sediment Profile Camera Data: Visual surface sediment characteristics, bioturbation/oxidation depths, presence of gas bubbles
� Subbottom Profiler Data: Changes in sediment surface and subsurface composition, presence of gas bubbles C-14
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Chemical MeasurementsSurface or buried (as appropriate) sediment chemical concentrations, surface water and pore water chemical concentrations, chemical transformations, ancillary measures
� Sediment Sampling – Grab Samples: Surface sediment chemistry
– Sediment Coring: Vertical chemical profiles, or contaminant migration through a cap or through naturally deposited clean sediment
� Surface Water Sampling – Direct Water Column Measurements: Dissolved oxygen, pH
– Surface Water Samples: Chemical concentrations (dissolved and particulate), water-column releases during remedy construction
� Pore Water Sampling – Direct Pore Water Sampling: Trident probe (Navy) to measure contaminants
– Passive Samplers (Peepers): Establish pore water equilibrium to measure contaminants
– Passive Samplers (SPMD/SPME): Semi-Permeable Membrane Devices, and solid-phase microextraction measure dissolved contaminants
C-15 – Seepage Meters: Contaminant flux into the water column
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Biological MeasurementsBiological testing can include toxicity assays, assessment of changes in the biological assemblages at sites, or toxicant bioaccumulation and food chain effects.
� Benthic Community Analysis: Evaluate population size, density, and diversity, and monitor recovery
� Toxicity Testing: Measure acute and long-term lethal or sub-lethal contaminant effects on organisms
� Tissue Sampling: Measure bioaccumulation, model trophic transfer potential, and estimate food web effects
� Caged Fish/Invertebrate Studies: Monitor changes in contaminant uptake (bioaccumulation rates) by biota in sediment or water column
� Sediment Profile Camera Studies: Characterize macroinvertebrate recolonization, polychaete population density, redox zones, and benthic mixing
C-16
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Training Objectives 1. Establish monitoring objectives
2. Identify remedy-specific monitoring goals – MNR
– Capping
– Dredging
3. Present EPA’s six-step monitoring DQO process
4. Identify monitoring tools � Physical, Chemical, and Biological tools
5. Wyckoff/Eagle Harbor case study
6. Summary C-17
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Eagle Harbor Cap
C-18
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Wyckoff/Eagle Harbor Monitoring Objectives
1. Is the cap physically stable, remaining in place at a desired thickness?
2. Is the cap effectively isolating the underlying contaminated sediments?
3. Are sediments in the biologically active zone (0-10 cm) remaining clean relative to the Washington State Sediment Management Standards (SMS)?
Monitoring Tool Cap Performance Objective Addressed
Bathymetry Objective 1
Surface sediment chemistry Objective 3
Through-cap coring and chemistry Objective 1, Objective 2
C-19
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Wyckoff/Eagle Harbor Monitoring Plan � Precision Navigation
– Integrated navigation provided for all monitoring
– Positional accuracy of 2 meters
� Bathymetry – Bathymetric soundings measure differences in seafloor elevations
– Determine cap thickness after capping, and long-term changes in cap thickness
� On-Cap Surface Sediment Grabs – Surface sediment samples (0-10 cm) collected from 15 stations
– Analyzed for PAH to evaluate the chemical character of cap surface
� Off-Cap Surface Sediment Grabs – Surface sediment samples (0-10 cm) collected from 1 station
– Analyzed for PAH to characterize and monitor off-cap subtidal and intertidal areas
� Through-Cap Coring – Core samples of the cap were collected at 9 stations
– Analyzed the 15-30 cm portion of cap overlying contaminated native sediment
– Analyze for PAH to evaluate upward contamination migration through cap
– Archive remaining core portions C-20
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1999-2002 Bathymetric Transects
C-21
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2002-2004 Bathymetric Transects
C-22
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1999 to 2002 Bathymetric Surveys
C-23
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2004 Bathymetric Survey
C-24
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Bathymetric Change: 2002 to 2004
C-25
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Subtidal Cap Surface Sampling
C-26
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Through-Cap Subtidal Sediment Coring Results
C-27
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Intertidal Sediment Surface Sampling
C-28
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Improvement in English Sole Health AfterImprovement in English Sole Health After Sediment CappingSediment Cappin at Eagle Harborg at Eagle Harbor
For more information, contact:
M.S. Myers, B.F. Anulacion, B.L. French, C.A. Laetz, W.D. Reichert, J.L. Buzitis, and T.K. Collier
Environmental Conservation Division Northwest Fisheries Science Center National Marine Fisheries Service
Seattle, WA USA
C-29
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English Sole (Pleuronectes vetulus) � Bottom dwelling, feeding � High site fidelity � Excellent sentinel species
C-30
Using English sole as our chosen sentinel species, also found high levels of PAH metabolites in bile, PAHs in stomach contents (84,000 ppb)
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Od
ds
Rat
io /
Rel
ativ
e R
isk
0
1
2
3
4
� Risk of lesion defined as 1.0 at start of capping � Relative risks at other sampling points determined by
stepwise logistic regression, after accounting for fish age
Liver Lesion Risk in English Sole Eagle Harbor, 1983-May 2002
1983-85 0 1 2 3 4 5 6 7 8 8.7
Years Post Cap Initiation C-31
Perhaps the most dramatic changes have been in risk of toxicopathic liver lesions. If we define the baseline risk at the start of capping as 1.0, the relative risk in ‘83-85 was almost 3x the baseline risk. After adjusting for influence of age on risk of lesion occurrence, relative risks up to 3 years after capping were highly variable. But from year 4 after capping to the latest sampling in May ‘02, the relative risks have been very low, in the vicinity of 0.1 (corr. to ~2-4% prevalence).
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Wyckoff Conclusions � Bathymetry and coring verified cap placement
� Onshore source control and capping reduced surface sediment concentrations – Surface sediment monitoring verified reduced
sediment concentrations
– Sediment coring showed absence of vertical PAH migration
� Liver lesion risk dropped significantly in English sole since capping (monitored by NOAA) – Risk reduction most evident 3 years post-capping
– Risks remained low and stable for the last five years
C-32
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Training Objectives 1. Establish monitoring objectives
2. Identify remedy-specific monitoring goals – MNR
– Capping
– Dredging
3. Present EPA’s six-step monitoring DQO process
4. Identify monitoring tools � Physical, Chemical, and Biological tools
5. Wyckoff/Eagle Harbor case study
6. Summary C-33
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MNR Monitoring Summary� Validate CSM and numerical model predictions � Monitor direct or indirect measures of natural processes
– Sediment accumulation – Degradation products – Sediment and contaminant transport
� Monitor environmental contaminant levels – Surface sediment – Surface water – Surface-sediment pore water
� Monitor ecological recovery – Sediment contaminant toxicity – Biological community health, density, diversity – Contaminant bioaccumulation – Higher food-chain ecological receptors
� Sediment stability under normal and high-energy events C-34
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Cap Monitoring Summary� Construction Monitoring
– Material quality
– Thickness & extent
– Resuspension & displacement
� Performance Monitoring – Physical isolation (bathymetric survey)
– Chemical isolation/recontamination
– Recolonization/benthic biological recovery – Cap integrity after high-energy events
� Long-term monitoring – Cap erosion under normal and high-energy events
– Contaminant fluxes through the cap – Surface sediment recontamination
C-35
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Dredge/Excavation Monitoring Summary � Dredge Compliance Monitoring
– Residual contaminant concentrations
– Dredge excavation depths – Dredge throughput volumes
� Construction performance monitoring – Near-field and far-field surface water
– Dewatering and water treatment performance – Acute toxicity biological monitoring (e.g., caged fish or mussels)
– Transport/dewatering/pretreatment
– Air monitoring – On-site treatment and disposal operations
� Long-term monitoring – Surface sediment contaminant concentrations
– Benthic community recovery – Tissue concentrations in fish or shellfish
C-36
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