Presentation is loading. Please wait.

Presentation is loading. Please wait.

Characterizing the Post-Dredge Surface: Comparison of In-Situ (Pre-dredge) and Post-Dredge Grab Samples at Three Sites in the Willamette River, Portland.

Published byClyde Morgan Modified over 8 years ago

Similar presentations

Presentation on theme: "Characterizing the Post-Dredge Surface: Comparison of In-Situ (Pre-dredge) and Post-Dredge Grab Samples at Three Sites in the Willamette River, Portland."— Presentation transcript:

1 Characterizing the Post-Dredge Surface: Comparison of In-Situ (Pre-dredge) and Post-Dredge Grab Samples at Three Sites in the Willamette River, Portland Harbor, Oregon Michelle Hollis Port of Portland & James McMillan Portland District Laura Inouye, Washington Department of Ecology Jonathan Freedman, US Environmental Protection Agency, Region 10

2 Purpose Compare concentrations from pre-dredge core samples and post-dredge grab samples at 3 sites Examine contributions to post-dredge surface (PDS) chemistry based on site conditions Use findings to inform risk-based regulatory decision making for dredging projects in the Portland Harbor PDS Dredge Prism PDS BEFOREAFTER

3 Problem Core samples measure the pre-dredge condition The in-situ core sample characterizing the PDS is often used in regulatory decision making BUT, in-situ PDS samples don’t account for: Post-dredge Surface (PDS) fallback & physical mixing from dredging deposition side slope sloughing mixing from marine traffic current mixing Fallback from the dredge Physical mixing during dredging Side-slope sloughing Current mixing within the dredge area Deposition during/after dredging Mixing caused by natural processes and marine traffic (After ERDC, 2008 The Four Rs of Environmental Dredging: Resuspension, Release, Residual, and Risk [TR-08-4])

4 Regulatory Review of Post-Dredge Surface Regulatory agencies want to know what’s being dredged AND what will be exposed after dredging Regulatory concerns regarding: Endangered species State water quality parameters (sediment-water column interface) State anti-degradation policies (i.e., exposed surface >> dredge prism = BAD) State and federal permits may require: Monitoring after dredging Physical isolation of the PDS Placement of a clean sand cover Natural infill (of cleaner sediment)

5 Methods Compared concentrations of chemicals of concern: PDS BEFORE DREDGING Dredge Prism In-situ core sample (pre-dredge estimate) AFTER DREDGING PDS Post-dredge grab samples (of the actual post-dredge surface)

6 Methods (cont.) Examined factors contributing to PDS chemistry: Post-dredge Surface (PDS) fallback & physical mixing from dredging deposition side slope sloughing mixing from marine traffic current mixing (After ERDC, 2008 The Four Rs of Environmental Dredging: Resuspension, Release, Residual, and Risk [TR-08-4])

7 Portland Harbor Sites (3) PORTLAND, OR VANCOUVER, WA PoP T5 Willamette FNC – PO Bar N 2460 miles PoP T2 Post Office Bar

8 Willamette R. FNC Post Office Bar PORTLAND, OR VANCOUVER, WA N 2460 miles DETAILS Location: Willamette River, RM 2.1-2.4 Volume: 52,300 cy Depth: Dredged to -40 feet CRD (plus 2 feet advanced maintenance) Disposal: Upland, West Hayden Is. Placement Site Project completed in Sept./Oct. 2011

9 73.280.483.8 -36 -32 -45 -33 -34 -43 -42 -41 -40 -39 -38 -37 -44 -35 Depth (feet CRD) VC-05 VC-01 VC-03 Downstream End (RM 2.1)Upstream End (RM 2.3) ZINC: WILLAMETTE R., POST OFFICE BAR – 2009 pre-dredge In-situ dredge prism core sample (PRE-dredge) 68.9 In-situ PDS core sample (PRE-dredge) 89 87.1 77.2 Dredge Prism Zinc SL = 130 ppm VC-02 VC-04 VC-06

10 73.280.483.8 -36 -32 -45 -33 -34 -43 -42 -41 -40 -39 -38 -37 -44 -35 Depth (feet CRD) VC-05 VC-01 VC-03 BC-01 BC-02 BC-03 BC-04 BC-05 Downstream End (RM 2.1)Upstream End (RM 2.3) ZINC: WILLAMETTE R., POST OFFICE BAR – 2009 pre-dredge; 2011 post-dredge In-situ dredge prism core sample (PRE-dredge) 68.9 91103 96 97 112 In-situ PDS core sample (PRE-dredge) Surface grab sample (POST-dredge) 89 87.1 77.2 Dredge Prism Zinc SL = 130 ppm VC-02 VC-04 VC-06

11 73.280.483.8 -36 -32 -45 -33 -34 -43 -42 -41 -40 -39 -38 -37 -44 -35 Depth (feet CRD) VC-05 VC-01 VC-03 BC-01 BC-02 BC-03BC-04BC-05 Downstream End (RM 2.1)Upstream End (RM 2.3) ZINC: WILLAMETTE R., POST OFFICE BAR – 2009 pre-dredge; 2011 & 2012 post-dredge In-situ dredge prism core sample (PRE-dredge) 68.9 91103 96 97 112 In-situ PDS core sample (PRE-dredge) Surface grab sample (POST-dredge) 88 7598 86 88 89 87.1 77.2 Dredge Prism Zinc SL = 130 ppm VC-02 VC-04 VC-06

12 <7.2<12 -36 -32 -45 -33 -34 -43 -42 -41 -40 -39 -38 -37 -44 -35 Depth (feet CRD) VC-05 VC-01 VC-03 Downstream End (RM 2.1)Upstream End (RM 2.3) PCBs: WILLAMETTE R., POST OFFICE BAR – 2009 pre-dredge In-situ dredge prism core sample (PRE-dredge) <7.4 In-situ PDS core sample (PRE-dredge) <12 56 <12 Dredge Prism PCBs SL = 60 ppb VC-02 VC-04 VC-06

13 <7.2<12 -36 -32 -45 -33 -34 -43 -42 -41 -40 -39 -38 -37 -44 -35 Depth (feet CRD) VC-05 VC-01 VC-03 BC-01BC-02 BC-03 BC-04 BC-05 Downstream End (RM 2.1)Upstream End (RM 2.3) PCBs: WILLAMETTE R., POST OFFICE BAR – 2009 pre-dredge; 2011 post-dredge In-situ dredge prism core sample (PRE-dredge) <7.4 16<9.8 <9.6 <10 39 In-situ PDS core sample (PRE-dredge) Surface grab sample (POST-dredge) <12 56 <12 Dredge Prism PCBs SL = 60 ppb VC-02 VC-04 VC-06

14 <7.2<12 -36 -32 -45 -33 -34 -43 -42 -41 -40 -39 -38 -37 -44 -35 Depth (feet CRD) VC-05 VC-01 VC-03 BC-01 BC-02 BC-03BC-04BC-05 Downstream End (RM 2.1)Upstream End (RM 2.3) PCBs: WILLAMETTE R., POST OFFICE BAR – 2009 pre-dredge; 2011 & 2012 post-dredge In-situ dredge prism core sample (PRE-dredge) <7.4 16<9.8 <9.6 <10 39 In-situ PDS core sample (PRE-dredge) Surface grab sample (POST-dredge) <9.7 <9.9<9.8 <9.7 <12 56 <12 Dredge Prism PCBs SL = 60 ppb VC-02 VC-04 VC-06

15 Port of Portland Terminal 2, Berth 205 DETAILS Location: Willamette River, RM 10 Volume: ~10,000 cy (project total 12,424 cy) Depth: Dredged to -37 feet CRD (plus 2 feet overdepth allowance) Disposal: Upland, West Hayden Island Placement Site Project completed in July/Aug. 2008 PORTLAND, OR VANCOUVER, WA N 2 4 6 0 miles

16 DEHP: PORT OF PORTLAND, TERMINAL 2 – January 2008 pre-dredge -29 -38 -26 -27 -36 -35 -34 -33 -32 -31 -30 -37 -28 Depth (feet CRD) DownstreamUpstream Aug. 2008 PDS DEHP SL = 220 ppb -39 C-5 130 C-3 In-situ dredge prism core sample (PRE-dredge) In-situ PDS core sample (PRE-dredge) Dredge Prism Jan. 2008 mudline 100 (dredge prism composite)

17 DEHP: PORT OF PORTLAND, TERMINAL 2 – January 2008 pre-dredge; August 2008 post-dredge -29 -38 -26 -27 -36 -35 -34 -33 -32 -31 -30 -37 -28 Depth (feet CRD) DownstreamUpstream Aug. 2008 PDS DEHP SL = 220 ppb -39 100 C-5 130 C-3 In-situ dredge prism core sample (PRE-dredge) In-situ PDS core sample (PRE-dredge) Surface grab sample (POST-dredge) Dredge Prism Jan. 2008 mudline 100 (dredge prism composite)

18 PORTLAND, OR VANCOUVER, WA N 2460 miles Port of Portland Terminal 5, Berth 501 DETAILS Location: Willamette River, RM 1-2 Volume: 12,246 cy (project total 25,000 cy) Depth: Dredged to -43 feet CRD (plus 3 feet overdepth allowance) Disposal: Upland, West Hayden Island Placement Site Project completed in July/Aug. 2010

19 ZINC: PORT OF PORTLAND, TERMINAL 5 – 2008 pre-dredge -36 -45 -33 -34 -43 -42 -41 -40 -39 -38 -37 -44 -35 Depth (feet CRD) DownstreamUpstream July 2010 PDS Zinc SL = 130 ppm -46 C-7 126 C-12 74 85 C-6 In-situ dredge prism core sample (PRE-dredge) In-situ PDS core sample (PRE-dredge) Dredge Prism

20 ZINC: PORT OF PORTLAND, TERMINAL 5 – 2008 pre-dredge; 2010 post-dredge -36 -45 -33 -34 -43 -42 -41 -40 -39 -38 -37 -44 -35 Depth (feet CRD) DownstreamUpstream July 2010 PDS Zinc SL = 130 ppm -46 98 116 C-7 126 C-12 74 85 C-6 C-7 C-12 C-6 In-situ dredge prism core sample (PRE-dredge) In-situ PDS core sample (PRE-dredge) Surface grab sample (POST-dredge) Dredge Prism

21 ZINC: PORT OF PORTLAND, TERMINAL 5 – 2008 pre-dredge; 2010 & 2011 post-dredge -36 -45 -33 -34 -43 -42 -41 -40 -39 -38 -37 -44 -35 Depth (feet CRD) DownstreamUpstream July 2010 PDS Zinc SL = 130 ppm -46 98 116 Aug. 2011 surface C-7 126 C-12 74 85 C-6 C-7 C-12 93 C-6 120 In-situ dredge prism core sample (PRE-dredge) In-situ PDS core sample (PRE-dredge) Surface grab sample (POST-dredge) Dredge Prism

22 PCBs: PORT OF PORTLAND, TERMINAL 5 – 2008 pre-dredge -36 -45 -33 -34 -43 -42 -41 -40 -39 -38 -37 -44 -35 Depth (feet CRD) DownstreamUpstream July 2010 surface PCBs SL = 60 ppb -46 C-7 34 47 38 C-6 C-12 <3.9 22 In-situ dredge prism core sample (PRE-dredge) In-situ PDS core sample (PRE-dredge) Dredge Prism

23 PCBs: PORT OF PORTLAND, TERMINAL 5 – 2008 pre-dredge; 2010 post-dredge -36 -45 -33 -34 -43 -42 -41 -40 -39 -38 -37 -44 -35 Depth (feet CRD) DownstreamUpstream July 2010 surface PCBs SL = 60 ppb -46 28 25.3 37 C-7 34 47 38 C-6 C-12 <3.9 22 C-7 C-12 C-6 In-situ dredge prism core sample (PRE-dredge) In-situ PDS core sample (PRE-dredge) Surface grab sample (POST-dredge) Dredge Prism

24 PCBs: PORT OF PORTLAND, TERMINAL 5 – 2008 pre-dredge; 2010 & 2011 post-dredge -36 -45 -33 -34 -43 -42 -41 -40 -39 -38 -37 -44 -35 Depth (feet CRD) DownstreamUpstream July 2010 surface PCBs SL = 60 ppb -46 28 25.3 37 Aug. 2011 surface C-7 34 47 38 C-6 C-12 <3.9 22 C-7 <3.8 C-12 <3.9 C-6 9.6 In-situ dredge prism core sample (PRE-dredge) In-situ PDS core sample (PRE-dredge) Surface grab sample (POST-dredge) Dredge Prism

25 What might account for differences between in-situ cores and PDS grabs? Fallback is a reality Mixing happens: physical mixing during dredging natural river processes, marine traffic Side slope sloughing Known rates of deposition: 4” to 6” year accumulation

26 PDS Regulatory requirements for the PDS (based on pre-dredge core sampling) BEFORE DREDGING Bioassays on pre-dredge core samples Benthic invertebrate study AFTER DREDGING PDS sediment sampling Monitored natural recovery Additional sediment sampling Bathymetric surveys Additional benthic invertebrate studies OR OVERDREDGE and cover with sand

27 Conclusions The in-situ PDS core sample generally over-predicted the post-dredge condition Depending on site conditions and patterns of contamination, the in-situ PDS sample may under- predict the post-dredge condition When available, consider historic information and knowledge of site conditions to help predict PDS chemistry and potentially reduce sampling burden: C PDS = ƒ[c in-situ core, c DP(mixed&fallback), c side slope, c deposition ]

28 Conclusions Agencies and the regulated community should use these findings to inform risk-based regulatory decision making for dredging projects in the Portland Harbor Future Work Examine additional paired in-situ core and PDS grab samples to improve risk-based decision making in the Portland Harbor

29 Questions?

Download ppt "Characterizing the Post-Dredge Surface: Comparison of In-Situ (Pre-dredge) and Post-Dredge Grab Samples at Three Sites in the Willamette River, Portland."

Similar presentations

ABSTRACT Background. Sydney Harbour (SH), Nova Scotia has long been subject to effluent and atmospheric inputs of metals, polycyclic aromatic hydrocarbons.

ABSTRACT Background. Sydney Harbour (SH), Nova Scotia has long been subject to effluent and atmospheric inputs of metals, polycyclic aromatic hydrocarbons.
EMAP Efforts in SF Bay Overview of EMAP Western Pilot Overview of Coastal component Activities in SF Bay (FY 2000) Relationship to other SF Bay efforts.

EMAP Efforts in SF Bay Overview of EMAP Western Pilot Overview of Coastal component Activities in SF Bay (FY 2000) Relationship to other SF Bay efforts.
Framework for the Ecological Assessment of Impacted Sediments at Mining Sites in Region 7 By Jason Gunter (R7 Life Scientist) and.

Framework for the Ecological Assessment of Impacted Sediments at Mining Sites in Region 7 By Jason Gunter (R7 Life Scientist) and.
Rivanna Water & Sewer Authority Community Water Supply Plan Update Public Meeting Monticello High School September 21, 2004 7:00 pm.

Rivanna Water & Sewer Authority Community Water Supply Plan Update Public Meeting Monticello High School September 21, :00 pm.
Restoration Alternatives Development and Evaluation West Branch Grand Calumet River By Dan Sparks, USFWS, BFO Presented by Jim Smith, IDEM, OLQ.

Restoration Alternatives Development and Evaluation West Branch Grand Calumet River By Dan Sparks, USFWS, BFO Presented by Jim Smith, IDEM, OLQ.
Analysis of Dike 14 CDF to Public Greenspace. Who owns Dike 14? State of Ohio holds Dike 14 as a public trust land Cleveland-Cuyahoga County Port Authority.

Analysis of Dike 14 CDF to Public Greenspace. Who owns Dike 14? State of Ohio holds Dike 14 as a public trust land Cleveland-Cuyahoga County Port Authority.
DREDGING YOUR DOCKS 2013 Supported by: USACE Galveston District U. S. Coast Guard Sabine Neches Navigation District.

DREDGING YOUR DOCKS 2013 Supported by: USACE Galveston District U. S. Coast Guard Sabine Neches Navigation District.
Northwest Region Cleanup Program Zidell Waterfront Property Cleanup 2012 Portland Scott Manzano | Oregon Department of Environmental Quality.

Northwest Region Cleanup Program Zidell Waterfront Property Cleanup 2012 Portland Scott Manzano | Oregon Department of Environmental Quality.
US Army Corps of Engineers Philadelphia District Scheduled FY 07 Dredging Work FY 07 Dredging Workin Philadelphia District Philadelphia District.

US Army Corps of Engineers Philadelphia District Scheduled FY 07 Dredging Work FY 07 Dredging Workin Philadelphia District Philadelphia District.
Confined Disposal Facilities and In Situ Capping Site characterization / selection Engineering design Operational considerations Contaminant pathways and.

Confined Disposal Facilities and In Situ Capping Site characterization / selection Engineering design Operational considerations Contaminant pathways and.
Fox River Cleanup Operable Units 2 - 5. Fox River Cleanup Total river 39 miles long, OU 2 – 5 is about 13 miles PCB contamination Combined Remedy: Prospective.

Fox River Cleanup Operable Units Fox River Cleanup Total river 39 miles long, OU 2 – 5 is about 13 miles PCB contamination Combined Remedy: Prospective.
NNMREC National Marine Renewable Energy Centers Hawaii National Marine Renewable Energy Center (HINMREC) University of Hawaii Wave, OTEC Southeast National.

NNMREC National Marine Renewable Energy Centers Hawaii National Marine Renewable Energy Center (HINMREC) University of Hawaii Wave, OTEC Southeast National.
Lec 12: Rapid Bioassessment Protocols (RBP’s)

Lec 12: Rapid Bioassessment Protocols (RBP’s)
Civil Works Baltimore District River and Harbor Projects.

Civil Works Baltimore District River and Harbor Projects.
DREDGING YOUR DOCKS 2014 Organized By CRA Hydrographic Surveyors Orion Marine Group.

DREDGING YOUR DOCKS 2014 Organized By CRA Hydrographic Surveyors Orion Marine Group.
DREDGING YOUR DOCKS 2012 Organized By CRA Hydrographic Surveyors Orion Marine Group.

DREDGING YOUR DOCKS 2012 Organized By CRA Hydrographic Surveyors Orion Marine Group.
IR Site 7 Sediment Remediation

IR Site 7 Sediment Remediation
Grand Calumet River/Indiana Harbor Canal Feasibility Study

Grand Calumet River/Indiana Harbor Canal Feasibility Study
US Army Corps of Engineers ® Engineer Research and Development Center West Bay Diversion Evaluation 1-Dimensional Modeling CWPPRA Technical Committee and.

US Army Corps of Engineers ® Engineer Research and Development Center West Bay Diversion Evaluation 1-Dimensional Modeling CWPPRA Technical Committee and.
River Corridor Closure Project Safety People Results 1 Data Evaluation Summary - Columbia River Component River Corridor Closure Project Safety People.

River Corridor Closure Project Safety People Results 1 Data Evaluation Summary - Columbia River Component River Corridor Closure Project Safety People.

Similar presentations

Ads by Google