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REPORT
Pre-Excavation Soil Sampling Work Plan Redevelopment Project
East Side Shoreham Facility
Minneapolis, Minnesota
Submitted to:
Soo Line Railway Company d/b/a Canadian Pacific Railway 120 South 6th Street Suite 700
Minneapolis, Minnesota 55402
Submitted by:
Golder Associates Inc.
200 Century Parkway, Suite C Mt. Laurel, New Jersey, USA 08054
+1 856 793-2005
023-6105
March 2019
March 2019
023-6105
i
Distribution List Soo Line Railway Company d.b.a Canadian Pacific Railway
Minnesota Pollution Control Agency
Ashland LLC
March 2019 023-6105
ii
Table of Contents
1.0 INTRODUCTION ............................................................................................................................................. 1
1.1 Overview and Purpose of the Sampling ............................................................................................... 1
1.2 Site Location and History ..................................................................................................................... 1
1.3 Sampling Area Location ....................................................................................................................... 1
1.4 Health and Safety ................................................................................................................................. 2
2.0 PROJECT ORGANIZATION ........................................................................................................................... 2
2.1 Golder Associates Inc. ......................................................................................................................... 2
2.2 Subcontractors ..................................................................................................................................... 2
2.3 Disposal Facility ................................................................................................................................... 2
3.0 SOIL SAMPLING PROCEDURES .................................................................................................................. 2
3.1 Sampling Location Rationale ............................................................................................................... 3
3.2 Field Sampling Program ....................................................................................................................... 4
4.0 PROJECT TASK DESCRIPTIONS ................................................................................................................. 4
4.1 Field Work Preparation ........................................................................................................................ 4
4.2 Soil Sampling ....................................................................................................................................... 4
4.3 Quality Assurance Procedures............................................................................................................. 5
4.4 Equipment Decontamination ................................................................................................................ 5
4.5 Investigation Derived Waste Management .......................................................................................... 5
5.0 INVESTIGATION REPORTING ...................................................................................................................... 5
6.0 REFERENCES ................................................................................................................................................ 5
FIGURES
Figure 1: Approximate Soil Sampling Locations
APPENDICES
APPENDIX A Disposal Acceptance (Vonco II Waste Management Campus and SKB Environmental)
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1.0 INTRODUCTION
1.1 Overview and Purpose of the Sampling
On behalf of Canadian Pacific Rail (CP Rail), Golder Associates Inc. (Golder) has prepared this Pre-Excavation
Soil Sampling Work Plan (Work Plan) to describe the field sampling, laboratory analytical testing, quality control,
and data review procedures for the collection and analysis of soil samples for the pre-characterization of materials
to be excavated from the redevelopment area at the East Side Shoreham Facility in Minneapolis, Minnesota. A
Redevelopment Project at the East Side Shoreham Facility is scheduled to be performed in 2019 that will involve
the excavation of soil to establish an engineered subgrade to accommodate the proposed redevelopment. The
Redevelopment Project is being designed by Stantec. A Materials Management Contingency Plan (MMCP) was
prepared and submitted to the Minnesota Pollution Control Agency (MPCA) on March 13, 2019 for review. The
intent of the MMCP is to provide guidance regarding the handling of the materials generated during the
Redevelopment Project. In order to reduce the volume of materials to be stockpiled during excavation, pre-
excavation soil sampling is proposed in the MMCP to determine if the excavated soils can be accepted at the
selected disposal facility. This will allow determination in advance of which soils can be direct loaded for
transportation and disposal. This Work Plan describes the steps required to implement pre-excavation sampling
consistent with the MMCP as a basis for construction planning.
1.2 Site Location and History
The Shoreham Facility encompasses an area of approximately 230 acres in the northern portion of Minneapolis,
Minnesota and has been used by Soo Line Railroad and its predecessors for railroad operations from the late
1880s through to the present day. In addition, portions of the Facility have been leased by, or owned by, other
commercial operators since the early 1900s.
The East Side Shoreham Facility includes approximately 38 acres. Multiple site investigations have shown soil
and groundwater impacts from petroleum related compounds and solvents that are being remediated under the
Minnesota Pollution Control Agency (MPCA) Voluntary Investigation and Cleanup (VIC) program (Site 5080).
Response Action activities have been conducted from 2006 to date in accordance with the Response Action Plan
(RAP) for the Site dated August 31, 2005 (Golder and Geomega, 2005) approved by the MPCA on January 20,
2006. These activities included the removal of approximately four feet of petroleum and Volatile Organic
Compound (VOC)-impacted soil in several areas and placement of clean fill totaling approximately 6,700 cubic
yards. An orange colored geotextile was placed at the bottom of each excavation area to enable visual
demarcation between placed clean fill and the underlying undisturbed soil. These excavations were intended to
address readily accessible soils and did not necessarily remove the full depth of contaminated soil.
1.3 Sampling Area Location
The sampling will be performed in two separate areas within the construction footprint of the proposed
Redevelopment Project (see Figure 1). The excavation activities in the southern portion of the construction area
are for the proposed retention basin that will cover an area of approximately 46,000 square feet (sf). The
remaining portion of the construction footprint is designated for a paved storage area that will cover approximately
756,000 sf.
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1.4 Health and Safety
The work identified in this Work Plan is to be performed under the guidelines of the Canadian Pacific Minimum
Safety Requirements for Contractors Working on CP Property in the United States, effective October 1, 2018.
Each subcontractor will submit a certification to the effect that they have been provided with a copy of this
requirement document, and have reviewed and understand the document, and will follow all the guidelines set
forth therein while working on CP Property.
Prior to the beginning of the pre-excavation sampling, the area of the Redevelopment Project will be cleared to
determine the locations of underground utilities. Utility clearance will consist of providing notification to CP’s “Call
Before You Dig” Hotline at least 72 hours prior to the start of work, and notification to Minnesota Gopher State
One Call at least 48 hours prior to the start of drilling activities. The utility mark-outs will be arranged with CP. At
the beginning of each work day, a “tailgate” health and safety briefing will be held to discuss the activities and
ways to ensure the health and safety of Site workers during the sampling.
2.0 PROJECT ORGANIZATION
2.1 Golder Associates Inc.
Golder will be responsible for collecting soil material, ensuring that the sample labels are correct and chain-of-
custody (COC) paperwork complete, procurement of analytical services, preparation and shipment of samples to
the selected laboratory, oversight of laboratory performance, review of laboratory data reports for completeness,
and independent data validation of the results.
2.2 Subcontractors
Sunde Land Surveying LLC (Sunde) is currently being subcontracted by Golder to provide the mark-outs of the
approximate sampling locations and other features within the construction footprint prior to the pre-excavation
sampling.
Stevens Drilling & Environmental Services Inc. (SDE) will be contracted by Golder to advance the soil borings for
the collection of soil samples.
Pace Analytical is currently being subcontracted by Golder to analyze the soil samples.
2.3 Disposal Facility
The pre-excavation sampling will be performed to determine if direct loading of the excavated materials will be
acceptable to the selected disposal facility. The off-site disposal facility has not been determined at this time, but
the intent of this plan is to provide data that satisfies the requirements of two potential facilities (SKB
Environmental and Vonco)(see Appendix A). If another disposal facility is identified, then additional sampling may
be required to meet their disposal acceptance criteria.
3.0 SOIL SAMPLING PROCEDURES
This section describes the sampling location rationale and field sampling program to be followed during the
performance of the pre-excavation soil sampling. Samples will be collected as described in this section and in
accordance with the quality control (QC) procedures described in Section 4.2. The field procedures are designed
so that:
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Samples collected are consistent with project objectives
Samples are collected in a manner so that data represent actual site conditions.
3.1 Sampling Location Rationale
This Work Plan presents the soil sampling planned to address the question of potential impacts from current and
past uses of the Site that may influence offsite disposal of excavated materials. Prior to excavation activities at
the Site for the Redevelopment Project, pre-excavation soil characterization will be conducted at approximate
locations shown on Figure 1. These approximate locations were chosen for additional characterization based on
past analytical results that may indicate exceedance of the landfill facility acceptance criteria or identified gaps in
historical data. Throughout the various Response Action activities performed within the East Side Shoreham
Facility, data has been collected that provides supporting information on the nature of the soils to be excavated
from within the construction footprint. Additional soil sampling was also recently collected within the proposed
retention basin area by Braun Intertec Corporation providing additional characterization of those soils. The
sampling locations depicted in Figure 1 are preliminary and may be adjusted in the field based on actual
conditions encountered, avoidance of underground utilities, or drill rig inaccessibility.
The approximate locations of the proposed soil samples were also based on a defined volume (area and depth) of
soil since the disposal facility requires analytical results on a minimum of one sample for every 2,000 cubic yards
(CY) of material. The redevelopment area was subdivided into Section A through F on Figure 1 based on the
proposed depth of excavation in those areas from the preliminary grading plan provided by Stantec. The area of
the proposed stormwater retention pond is designated Section A while the proposed container storage area is
divided into Sections B through F. The sections were originally outlined by identifying areas with a similar
maximum depth of proposed excavation. Once the extents of each individual section were defined, the square
footage and average depth for those individual sectioned areas were determined, as presented as follows:
Section Area
(square foot) Average Depth
(foot)
A 46,247 6
B 178,605 2
C 157,493 3
D 220,148 4
E 156,058 3
F 46,701 2
The calculated volume of each section dictated the number of samples to be collected for acceptance by the
disposal facility using the specified frequency of one per 2,000 CY y. Golder estimates that 62 samples will be
collected from approximately 48 locations within the overall construction footprint, with 6 samples collected in the
retention pond area and 42 samples collected within the container storage area. The anticipated total number of
samples includes 2 QA/QC samples, 5 samples collected at locations indicating historic exceedances for either
VOCs or metals, and 7 contingency samples.
In the placement of the approximate soil sampling locations, the historical data previously collected during the
Response Action activities, and the recent Braun sampling results in the retention basin were utilized.
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3.2 Field Sampling Program
The locations for the soil sampling will be marked-out by Sunde prior to the field activities and will be confirmed by
Golder through GPS coordinates upon completion of the sampling event. Each soil sample location will be
prepared by removing leaves, grass, and other surface debris. The field sampling activities will be conducted
using shallow direct-push drilling methods (e.g., Geoprobe®). A direct-push rig will advance the soil borings to a
depth of approximately 1 to 2 feet beyond the proposed Redevelopment Project excavation depths identified in
Section 3.1.
The direct-push rig will be advanced at each sampling location to collect continuous soil samples using macro-
core sampler from the ground surface to the anticipated depth of excavation. If a subsurface obstruction is
identified during drilling, the direct-push rig will offset the borehole until the obstruction is avoided. The laboratory
testing samples to be collected will be biased to the depths of greatest impact as indicated by field screening,
including visual, olfactory and photo-ionization detector (PID). A discrete sample will be taken and submitted for
VOC analysis at the location of the macro-core that has the highest PID reading. A composite sample will be
collected from the remaining soils in the macro-core and submitted for analysis (refer to section 4.2). The
borehole will be backfilled with soil cuttings excavated by the direct-push drilling.
The clean fill soil overlying the demarcation geotextile within the previously excavated areas (approximately 6,700
cy) will not be pre-characterized since those soils will be stockpiled separately for reuse as clean fill material
within the limits of the construction site. These areas are shown on Figure 1.
4.0 PROJECT TASK DESCRIPTIONS
The following project tasks will be performed during the pre-excavation soil sampling.
4.1 Field Work Preparation
The Golder field team will coordinate with the subcontracted analytical laboratory in advance of field work to
obtain sampling containers and coolers at the scheduled date. In addition, Golder will procure SDE for the
borehole drilling in advance of field work to verify mobilization and sampling start dates. The logistics of
coordinating the soil sampling protocol and sample collection will be discussed with SDE prior to mobilization.
Golder will schedule Sunde for performing the mark-out of the proposed sample locations. Sunde will locate and
record the ground surface elevation at each pre-excavation sample location to accurately establish lateral and
vertical locations of samples.
Golder will be responsible for field coordination of all subcontractors, and once in the field, Golder will determine,
in communication with CP, the appropriate staging area for items and equipment.
4.2 Soil Sampling
During the pre-excavation sampling of soils, sample identification numbers will be assigned consistent with
procedures used at the Site during prior investigations (Standard Operating Procedure Document (SOP) for the
Shoreham Facility (AMEC, 2015)). The sample identification will indicate the general location, depth, and date
that the sample was collected. Samples will be packed in coolers on ice and transported to Pace Analytical’s
laboratory in Minneapolis for delivery to Pace Analytical’s laboratory in, Green Bay, Wisconsin for analysis of
parameters required by the disposal facility for acceptance. Samples will be analyzed for the list of compounds
identified in Appendix A. Completion of all laboratory testing is expected to require a period of approximately
three weeks.
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The Golder field team will document field activities in their field book. Sample descriptions, visual classification of
soils, and PID readings will be documented on boring logs. The primary soil samples, and one duplicate sample
per 20 samples for quality control, will be collected from the borings and shipped to the laboratory. The location at
which the field duplicate is collected will be recorded in the field notes but will not be identified to the laboratory.
4.3 Quality Assurance Procedures
The advancement of the soil borings and the associated soil sampling will follow the procedures outlined in the
SOP for the Shoreham Facility, as applicable. Quality assurance procedures will be in accordance with the SOP
including verification that laboratories and testing equipment comply with standards, checking test equipment
calibration data against certified standards, and chain of custody procedures for analytical samples. Any
deviations will be noted in the Golder field books.
4.4 Equipment Decontamination
Equipment decontamination will be performed between sample locations to minimize the risk of cross-
contamination of samples. Before use, and between each sampling location, sampling equipment will be
decontaminated with a solution of AlconoxTM. Clean equipment shall be kept on plastic or protected in another
suitable fashion until used for sampling.
4.5 Investigation Derived Waste Management
Used personal protective equipment will be placed in garbage bags and disposed of as common garbage. Soil
and liquid investigation derived waste (IDW) will be staged in appropriate containers, labeled, and stored on-Site
until it can be characterized and transferred off-Site. Samples will be collected from each type of waste and
characterized for disposal in accordance with relevant requirements.
5.0 INVESTIGATION REPORTING
Upon completion of the pre-excavation sampling and receipt of the laboratory analytical data, laboratory data
packages will be evaluated for completeness, sample hold time conformance, method blank contamination and
field duplicate precision and comparability. Figures will be developed using the validated analytical data to
identify the limits of excavation which meet the requirements of the selected disposal facility for direct hauling of
the excavated soils. If additional sampling or analyses are required for an excavation area, that area will be
identified as material to be stockpiled and protected on site pending additional sampling and analysis and will not
be direct loaded for disposal. A report will be prepared that will present the procedures followed during the pre-
excavation sampling that will present the results of the field screening and analytical testing.
6.0 REFERENCES
AMEC Foster Wheeler Environmental & Infrastructure, Inc., July 2002, lastly revised August 2015. Standard
Operating Procedure Document (to be furnished upon request)
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PREVIOUSLY EXCAVATED AND BACKFILLED WITH CLEAN FILL(SEE REFERENCE 3)
1. SAMPLES TO BE COLLECTED AT APPROXIMATELY THE MIDDLE OF EXCAVATION DEPTH.
EXCAVATION FOR ROUND HOUSE REDEVELOPMENT (SEE REFERENCE 4)
APPROXIMATE SOIL SAMPLING LOCATION
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PROPOSED STORMWATER
RETENTION POND
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RETENTION POND
SHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITYSHOREHAM FACILITY
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FORMER ASHLAND LEASE AREA
FORMER ASHLAND LEASE AREA
REFERENCE(S)
1. AERIAL COURTESY © 2018 MICROSOFT CORPORATION © 2018 DIGITALGLOBE © CNES(2018) DISTRIBUTION AIRBUS DS BING.
2. LOCATION OF WELLS PROVIDED BY AMEC EARTH AND ENVIRONMENTAL, INC.3. EXCAVATION AREAS SURVEYED AND PROVIDED BY SUNDE LAND SURVEYING, LLC, DATED
NOVEMBER 3, 2006 (EXCAVATION PITS.DWG).4. EXCAVATION FOR ROUND HOUSE REDEVELOPMENT DIGITIZED FROM FIGURE TITLED
"SHOREHAM YARD - ROUNDHOUSE IMP. GRADING PLAN CUT & FILL," PREPARED BYSTANTEC, DATED FEBRUARY 26, 2019 (1730060-GRADINGEXHIBIT-CUT_FILL FIG 1.PDF).
APPENDIX A
Requirements of Disposal Facilities
TABLE 3ACTION LIMITS
Vonco II Waste Management Campus (SW-580)
RCRANumber Parameter CAS No.
TCLP Limit(mg/l)
"Rule of 20"Guideline(mg/kg)(1)
TCLP Limit(mg/l)
"Rule of 20"Guideline(mg/kg)(1)
ADC TCLPLimit(mg/l)
ADC TotalsLimit
(mg/kg)(1)
HazardousWaste
Limit (mg/l)
D004 Arsenic 7440-38-2 2.5 50 5 100 2.5 50 5D005 Barium 7440-39-3 50 1000 100 2000 50 1000 100D006 Cadmium 7440-43-9 0.5 10 1 20 0.5 10 1D007 Chromium 7440-47-3 2.5 50 5 100 2.5 50 5D008 Lead 7439-92-1 2.5 50 5 100 2.5 50 5D009 Mercury 7439-97-6 0.075 1.5(3) 0.2 4(3) 0.07 1.4(3) 0.2D010 Selenium 7782-49-2 0.5 10 1 20 0.5 10 1D011 Silver 7440-22-4 2.5 50 5 100 2.5 50 5
D018 Benzene 71-43-2 0.2 4 0.5 10 0.2 4 0.5D019 Carbon tetrachloride 56-23-5 0.03 0.6 0.5 10 0.02 0.4 0.5D021 Chlorobenzene 108-90-7 1 20 100 2000 1 20 100D022 Chloroform 67-66-3 0.6 12 6 120 0.6 12 6D028 1,2-Dichloroethane 107-06-2 0.038 0.76 0.5 10 0.038 0.76 0.5D029 1,1-Dichloroethylene 75-35-4 0.07 1.4 0.7 14 0.07 1.4 0.7D035 Methyl ethyl ketone 78-93-3 3 60 200 4000 3 60 200D039 Tetrachloroethylene (Tetrachloroethene, PCE) 127-18-4 0.07 1.4 0.7 14 0.07 1.4 0.7D040 Trichloroethylene (Trichloroethene, TCE) 79-01-6 0.025 0.5 0.5 10 0.025 0.5 0.5D043 Vinyl chloride 75-01-4 0.02 0.4 0.2 4 0.02 0.4 0.2
D016 2,4-D 94-75-7 0.7 14 10 200 0.7 14 10D017 2,4,5-TP (Silvex) 93-72-1 0.6 12 1 20 0.6 12 1D020 Chlordane 57-74-9 0.0027 0.054 0.03 0.6 0.002 0.04 0.03D012 Endrin 72-20-8 0.01 0.2 0.02 0.4 0.01 0.2 0.02D031 Heptachlor (and its epoxide) 76-44-8 0.0008 0.016 0.008 0.16 0.0008 0.016 0.008D013 Lindane 58-89-9 0.003 0.06 0.4 8 0.003 0.06 0.4D014 Methoxychlor 72-43-5 3.4 68 10 200 3.4 68 10D015 Toxaphene 8001-35-2 0.0825 1.65 0.5 10 0.0825 1.65 0.5
D023 o-Cresol (2-methylphenol) 95-48-7 2 40 200 4000 2 40 200D024 m-Cresol (3-methylphenol) 108-39-4 2 40 200 4000 2 40 200D025 p-Cresol (4-methylphenol) 106-44-5 2 40 200 4000 2 40 200D026 Cresol(2) 5 100 200 4000 5 100 200D027 1,4-Dichlorobenzene 106-46-7 1 20 7.5 150 1 20 7.5D030 2,4-Dinitrotoluene 121-14-2 0.04 0.8 0.13 2.6 0.04 0.8 0.13D032 Hexachlorobenzene 118-74-1 0.002 0.04 0.13 2.6 0.002 0.04 0.13D033 Hexachlorobutadiene 87-68-3 0.135 2.7 0.5 10 0.135 2.7 0.5D034 Hexachloroethane 67-72-1 1.5 30 3 60 1.5 30 3D036 Nitrobenzene 98-95-3 0.4 8 2 40 0.4 8 2D037 Pentachlorophenol 87-86-5 2.2 44 100 2000 2.2 44 100D038 Pyridine 110-86-1 2.5 50 5 100 2.5 50 5D041 2,4,5-Trichlorophenol 95-95-4 1.8 36 400 8000 1.8 36 400D042 2,4,6-Trichlorophenol 88-06-2 0.3 6 2 40 0.3 6 2
PCBs * 35 ppm 50 ppm 0 0 50 ppmpH 4.01 – 11.99 s.u. 2.01 – 12.49 s.u. 4.01-11.99 <2.01 or > 12.49 s.u.
Reactive cyanide 250 ppm 250 ppmReactive sulfide 500 ppm 500 ppmDRO/GRO 500/500Flashpoint >140º F >140º FRadium 226 (NORM) 30 piC/g
Notes: 1. Total concentration (mg/kg) is 20 times the mg/l value. If total concentration exceeds the Rule of 20 value, run the TCLP test to find the mg/l value, which takes precedent.2. If o, m, and p-cresol cannot be separated, total cresol is used.3. The MPCA has different acceptance limits for mercury contaminated soil - see Appendix B. These soils cannot be used as ADC.* = See Appendix D for accepting pipe containing less than 500 ppm total PCBs.
OTHER HAZARDOUS CHARACTERISTIC PARAMETERS
PARAMETERS NOT INCLUDED IN TCLP RULE
Action Limits - Industrial Phases OnlyAction Limits for All Phases Action Limits - Alternate Cover
METALS
VOLATILE ORGANIC COMPOUNDS (VOCs)
PESTICIDES
SEMI-VOLATILE COMPOUNDS (SVOCs)
DISPOSAL ACCEPTANCE CRITERIA
SKB ENVIRONMENTAL
SAMPLING FREQUENCY
Four (4) samples for the first 2,000 cubic yards
One (1) sample for the next 2000 cubic yards thereafter
LIST OF PARAMETERS
48 RCRA compounds
SVOCs
VOCs
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