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RI051306DF
DRAFT FINALTECHNICAL MEMORANDUM
EVALUATION OF AMMONIA ANDSUPPLEMENTAL SOIL DATA
SDMS DocID 237446
REMEDIAL INVESTIGATION/FEASIBILITY STUDY
INDUSTRI-PLEX SITEWOBURN, MASSACHUSETTS
RESPONSE ACTION CONTRACT (RAC), REGION I
ForU.S. Environmental Protection Agency
ByTetra Tech NUS, Inc.
EPA Contract No. 68-W6-0045EPA Work Assignment No. 116-RICO-0107
TtNUS Project No. GN4123
October 2005
TETRA TECH NUS, INC.
TETRA TECH NUS, INC.55 Jonspin Road • Wilmington, MA 01887-1020Tel 978.658.7899 • Fax 978.658.7870 • www.tetratech.com
RACI-EPA-5794
Contract No. 68-W6-0045
October 19, 2005
Records CenterU.S. Environmental Protection Agency1 Congress Street, Suite 1100 (HBO)Boston, Massachusetts 02114-2023
Subject: Transmittal of Draft Final Technical Memorandum - Evaluation of Ammonia andSupplemental Soil Data, October 2005Industri-plex Site, Remedial Investigation/Feasibility StudyRAC I W.A. No. 116-RICO-0107
Gentlemen:
At the request of the U.S. Environmental Protection Agency (USEPA), Tetra Tech NUS, Inc. isproviding to you one printed copy and one CD electronic copy of the Draft Final TechnicalMemorandum - Evaluation of Ammonia and Supplemental Soil Data Report, that was preparedfor the Industri-plex Superfund Site located in Woburn, Massachusetts. If you should have anyquestions regarding this transmittal, please contact Mr. Joseph LeMay of the USEPA at 617-918-1323.
Very truly you
Gdrdon H. BullardProject Manager
PMO- /£)
GHB/rp
Enclosure
J. LeMay (EPA) w/o enc.H. Horahan (EPA) w/o enc.G. Gardner/A. Ostrofsky (TtNUS) w/o enc.File GN4123-1.0 w/o enc.
141
RI051306DF
DRAFT FINALTECHNICAL MEMORANDUM
EVALUATION OF AMMONIA AND SUPPLEMENTAL SOIL DATA
REMEDIAL INVESTIGATION/FEASIBILITY STUDY
INDUSTRI-PLEX SITEWOBURN, MASSACHUSETTS
RESPONSE ACTION CONTRACT (RAC), REGION
ForU.S. Environmental Protection Agency
ByTetra Tech NUS, Inc.
EPA Contract No. 68-W6-0045EPA Work Assignment No. 116-RICO-0107
TtNUS Project No. GN4123
October 2005
Qordon BullaProject Manager
George D. Gardner, P.E.Program Manager
DRAFT FINAL
TABLE OF CONTENTSDRAFT FINAL TECHNICIAL MEMORANDUM
REMEDIAL INVESTIGATION/FEASIBILITY STUDYINDUSTRI-PLEX SITE
WOBURN, MASSACHUSSETTS
SECTION PAGE
ES EXECUTIVE SUMMARY ES-1
1.0 INTRODUCTION 1-1
2.0 SAMPLING BACKGROUND 2-12.1 Groundwater and Surface Water Data 2-12.2 July 2005 Surface Water Data 2-22.3 July 2005 Soil Data 2-3
3.0 NATURE AND EXTENT OF CONTAMINATION AND FATE ANDTRANSPORT 3-13.1 Groundwater 3-13.2 Surface Water 3-23.3 Soil 3-5
4.0 RISK EVALUATION 4-14.1 Human Health Risk Evaluation 4-14.2 Ecological Risk Evaluation 4-74.3 Impact of Findings on RAOs and PRGs 4-9
5.0 IMPACT OF FINDINGS ON THE JUNE 2005 PROPOSED PLAN 5-1
6.0 SUMMARY 6-1
TABLES
NUMBER
2-12-22-32-42-54-1
Groundwater Wet Chemistry Analytical ResultsNatural Attenuation Study - Groundwater Wet Chemistry DataNatural Attenuation Study - Surface Water Wet Chemistry DataJuly 11, 2005 Surface Water Sampling ResultsJuly 12, 2005 Soil Sampling Results - Wells G&H WetlandComparison of Ammonia Results to Water Quality Criteria
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TABLE OF CONTENTS (cont.)DRAFT FINAL TECHNICIAL MEMORANDUM
REMEDIAL INVESTIGATION/FEASIBILITY STUDYINDUSTRI-PLEX SITE
WOBURN, MASSACHUSSETTS
FIGURES
NUMBER
2-1 GSIP Groundwater Sample Locations Analyzed for Ammonia2-2 EPA/ORD Snap-Shot Groundwater Sample Locations2-3 EPA/ORD Fixed Groundwater Sample Locations2-4 EPA/ORD Surface Water Sample Locations2-5 Industri-Plex Water Sampling Halls Pond Watershed2-6 Industri-Plex Soil Sampling Rifle Club Area3-1 Ammonia Concentrations in Groundwater3-2 Partial Key Contaminant Migration Pathways with Ammonia and July 2005 Sample
Locations
APPENDICES
A Natural Attenuation Study Ammonia Data in Surface WaterB July 2005 Surface Water and Soil Sample ResultsC Supporting Information for Risk EvaluationD National Recommended Water Quality Criteria Tables for AmmoniaE Ammonia Toxicity Profile
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ACRONYMS AND ABBREVIATIONS
All
CCC Criterion Continuous Concentration (chronic)
CMC Criterion Maximum Concentration (acute)
COPC contaminant of potential concern
Cr chromium
CT central tendency
EPA United States Environmental Protection Agency
EPC exposure point concentration
FS Feasibility Study
GSIP Groundwater/Surface Water Investigation Plan
HBHA Halls Brook Holding Area
HHRA human health risk assessment
HI , hazard index
HQ hazard quotient
ILCR Incremental Lifetime Cancer Risk
IRIS Integrated Risk Information System
LOAEL lowest observed adverse effect level
MADEP Massachusetts Department of Environmental Protection '
MBTA Massachusetts Bay Transportation Authority
MCL maximum contaminant limit
M&E Metcalf & Eddy, Inc
mg/kg milligrams per kilogram
mg/L milligrams per liter
MSGRP Multiple Source Groundwater Response Plan
MSGRP Rl Multiple Source Groundwater Response Plan Remedial Investigation
NA Not analyzed / Not applicable
NAS Natural Attenuation Study
ND Not detected
NERL (EPA) New England Regional Laboratory
NML northern multi-level (sampler)
NPDWSA Non-Potential Drinking Water Source Area
NRWQC National Recommended Water Quality Criteria
ORD (EPA) Office of Research and Development
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ACRONYMS AND ABBREVIATIONS (cont.)
OU Operable Unit
PRG Preliminary Remediation Goal
PRP Potentially Responsible Parties
RAGs Remedial Action Guidelines
RAO ' remedial action objective
RfC reference concentration
RfD reference dose
Rl Remedial Investigation
RI/FS Remedial Investigation/Feasibility Study
RME reasonable maximum exposure
STSC Superfund Technical Support Center
TAL target analyte list
TRV toxicity reference value
TtNUS Tetra Tech NUS, Inc.
UCL Upper Confidence Limit
USEPA United States Environmental Protection Agency
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ES EXECUTIVE SUMMARY
i) •
Following a review of groundwater and surface water data that was presented in the March
2005 Draft Final Multiple Source Groundwater Response Plan Remedial Investigation Report
(MSGRP Rl), the U.S. Environmental Protection Agency (EPA), has identified ammonia as an
additional contaminant of concern for the Industri-plex Superfund Site Operable Unit 2 (Industri-
plex OU-2). This technical memorandum presents the findings of this evaluation.
Section 2.0 of the MSGRP Rl presents a detailed discussion of each groundwater sampling
event conducted during the Industri-plex OU-2 MSGRP Rl. The analytical results of these
sampling events are included in Appendix 4B of the MSGRP Rl, and a summary of analytical
results is set forth in Table 2-1. The data presented in Appendix 4B includes anion and cation
data, which includes ammonia from 39 monitoring wells. On June 24, 2005, EPA's Office of
Research and Development (ORD) released an internal memorandum entitled "Ammonia Data
For Water Quality Samples" (June 24 ORD Memo), which presents ammonia groundwater and
surface water data that were collected as part of the Natural Attenuation Study (NAS),
conducted to support the MSGRP Rl. The memorandum and data were included in the June
2005 Administrative Record. In addition to the NAS groundwater and surface water ammonia
data, EPA collected and evaluated the following additional surface water and soil data: 1) July
2005, ammonia surface water data (to further understand background conditions); and 2) July
2005, heavy metals soil data (to further evaluate an area being considered by the City of
Woburn for future recreational trails).
EPA has determined that previously identified contaminated groundwater plumes outlined in the
June 2005 Proposed Plan and illustrated on Figure 3-1 also contain high concentrations of
ammonia. The decomposition of the buried animal hide wastes at the Operable Unit 1 of the
Industri-plex Site (Industri-plex OU-1) contribute significantly to the generation and release of
ammonia in groundwater. In addition, the contaminated groundwater plumes contain strong
reducing conditions which contribute to the presence and migration of high ammonia
concentrations in the groundwater and its discharge into the HBHA Pond. The fate and
transport of ammonia is similar to the fate and transport patterns observed for dissolved arsenic
groundwater plumes.
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The highest concentrations of ammonia in groundwater (up to 2,710 milligrams per liter (mg/L))
were found at locations adjacent to or downgradient of the existing animal hide piles or in other
areas where animal wastes have been buried, such as the NSTAR right-of-way. Consistent
with the MSGRP Rl, these groundwater plumes, including ammonia, migrate and discharge in
the HBHA Pond. Concentrations of ammonia up to 1,380 mg/L were observed discharging in
the northern portion of the HBHA Pond, and concentrations up to 1,270 mg/L were observed in
the deep surface water of the HBHA Pond. The concentrations of ammonia in the shallow
surface water at the HBHA Pond outlet were slightly elevated and ranged from 4.0 mg/L to 17.9
mg/L.
On July 11, 2005, EPA collected samples to evaluate background ammonia surface water
conditions entering the HBHA Pond. Ammonia was not detected in surface water samples
collected from Halls Brook upstream of the New Boston Street Drainway confluence. Slightly
elevated ammonia concentrations (ranging from 9.97 mg/L to 12.7 mg/L) were detected in
surface water upstream along the New Boston Street Drainway, Landfill Creek, and East
Drainage Ditch. After surface water flow from the New Boston Street Drainway combines with
Halls Brook prior to its discharge into HBHA Pond, the ammonia concentration at the outlet of
Halls Brook was 2.10 mg/L or approximately 80 percent less than upstream New Boston Street
Drainway, which suggests the upstream ammonia concentrations are diluted by Halls Brook
prior to discharge into the HBHA Pond.
EPA has evaluated the human health and ecological risks associated with ammonia based on
groundwater data presented in the MSGRP Rl and groundwater and surface water data
presented in the June 24 ORD Memo,. In addition, EPA evaluated potential human health risks
associated with the July 2005 soil data collected between former Woburn production wells G&H.
EPA applied the same risk assessment methods and approach utilized in the March 2005
MSGRP Rl, and determined that the ammonia contributes to excess human health risks to
future commercial workers exposed to site groundwater via inhalation exposure scenarios. EPA
also determined that the surface water at the HBHA Pond contains excessive concentrations of
ammonia that exceeds the National Recommended Ambient Water Quality Criteria (NRWQC)
and contributes to unacceptable ecological risks to aquatic life in the HBHA Pond. As a result,
EPA is identifying ammonia as an additional contaminant of concern in groundwater and surface
water that also warrants action under Industri-plex OU-2.
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— As indicated above, ammonia is an additional compound within the previously identified
contaminated groundwater plumes, which discharge into the HBHA Pond. The fate and
transport of ammonia in groundwater is consistent with the fate and transport of other
contaminated groundwater plumes (e.g. arsenic and benzene) presented in the MSGRP Rl,
where contaminated groundwater plumes originate from Industri-plex OU-1 and discharge into
the HBHA Pond, impacting aquatic life in the pond. Similar to processes that are attenuating
arsenic and benzene, the presence of the chemocline in the HBHA Pond serves to sequester
the highest concentrations of ammonia at depth while assisting in the natural processes that
convert ammonia to nitrates and nitrites in the more oxic zones of the water column.
•
The identification of this additional contaminant of concern does not alter the remedial
" alternatives selected for the June 2005 Proposed Plan, which would also adequately address
ammonia concentrations. Preferred Alternative GW-2-Pond Intercept and Monitoring with
m Institutional Controls would incorporate ammonia and remain protective; Preferred Alternative
GW-4 for the West Hide Pile, In-situ Enhanced Bioremediation, would reverse observed
4)l reducing conditions to oxidizing conditions, thereby decreasing ammonia concentrations; and
Preferred Alternative HBHA-4 would also intercept ammonia plumes, continue to sequester/treat
(|(f contaminants (including ammonia) below the chemocline, and further reduce contaminants
below NRWQC via an appropriately designed aeration treatment system. A pre-design
investigation would include monitoring for ammonia to ensure the cofferdams associated with
the northern portion of the HBHA Pond are properly located to intercept the contaminated
groundwater plumes, including ammonia, and the aeration treatment system is appropriately
designed to reduce contaminants below NRWQC. Further pre-design studies would be
implemented to ensure the aeration treatment system is properly designed, and to furtherm evaluate ammonia background conditions.
• EPA also evaluated risks for the soil samples collected between the former production wells
G&H. The soil samples were analyzed for heavy metals and the concentrations detected were
• relatively low in all samples. EPA determined that human health risks did not exceed EPA's risk
range, Feasibility Study (FS) Remedial Action Objectives (RAO), or FS Preliminary Remediation
• Goals (PRG).
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EPA believes that the addition of ammonia as a COC does not substantially affect the overall
evaluation outcome, or alter the cost, scope, or performance of the alternatives identified in the
June 2005 FS and Proposed Plan.
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^ 1.0 INTRODUCTION
i
This report was prepared at the request of the U.S. Environmental Protection Agency (EPA) by
the cooperative efforts of Tetra Tech NUS, Inc. (TtNUS) and Metcalf and Eddy, Inc. (M&E) for
the United States Environmental Protection Agency (EPA) under Contract No. 68-W6-0045,••
Work Assignment No. 116-RICO-0107 and Contract No. 68-W6-0042, Work Assignment No.
107-RICO-0146, respectively.m
The objectives of this report are to: 1) further evaluate groundwater and surface water data that
** were included in the March 2005 MSGRP Rl (TtNUS, 2005a) and the June 24 ORD Memo,
which were included in EPA's June 2005 Administrative Record; 2) present additional surface
** water and soil data collected subsequent to the issuance of the MSGRP Rl and the June 2005
Draft Final MSGRP Feasibility Study (TtNUS, 2005b), and 3) evaluate the nature and extent,
nB fate and transport and potential human health and ecological risks resulting from the ammonia
in groundwater and surface water data, and metals in the July 2005 soil data. For contextual
!|tf purposes, previously released data is included in this evaluation.
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2.0 SAMPLING BACKGROUND
After further review of groundwater and surface water data collected during the MSGRP Rl,
EPA on July 11, 2005, conducted additional sampling of surface water in the Halls Brook
Holding Area Pond (HBHA Pond) and surface water flowing into the HBHA Pond. In addition, in
response to a request from the City of Woburn, EPA collected additional surface soil samples
on July 12, 2005 from a potential future recreational area adjacent to the eastern edge of the
Wells G&H 38-acre wetland, near the former production wells, Well G and Well H.
The following sections present the results of these sampling events as wells as previously
reported sampling events in order to fully evaluate contaminant trends and potential risks.
2.1 Groundwater and Surface Water Data
Groundwater data collected during the remedial investigation as part of the Groundwater and
Surface Water Investigation Plan (GSIP) included geochemical analytical parameters to be used
in the evaluation of fate and transport mechanisms for metals mobilization and migration, in
particular, arsenic. These secondary parameters included anions and cations, specifically,
ammonia, nitrite, nitrate, phosphorous, bicarbonate, and sulfate. Other parameters included
alkalinity, total suspended solids, and dissolved organic carbon. A total of 39 well locations
were sampled, most at multiple depths intervals. Well locations sampled for ammonia during
the MSGRP Rl investigation are shown on Figure 2-1. Detailed discussions regarding each
sampling event are presented in Section 2 of the MSGRP Rl. The results of these analyses
were originally presented in Appendix 4B of the MSGRP Rl, but are also summarized in Table
2-1. The MSGRP Rl was publicly released in March 2005, and was included in EPA's June 30,
2005 Administrative Record for Industri-plex OU-2.
As reported in Section 2.0 of the MSGRP Rl, EPA ORD conducted a field investigation in
several phases from October 1999 to September 2001 to support an assessment of arsenic
contamination and migration within the Northern Study Area. The objectives of the study were
to: 1) determine migration mechanisms controlling arsenic transport at Industri-plex OU-1 and
the study area; 2) evaluate the potential role of natural attenuation processes in mitigating
arsenic transport from the site and study area; and 3) provide guidance for determining
reasonable, cost-effective treatment technologies for the Aberjona River.
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The field investigation included the collection of groundwater, surface water, and sediment
samples from Industri-plex OU-1 and study area. Sample collection efforts focused on
characterization of arsenic migrating from site groundwater to the surface water and sediment in
the HBHA Pond. Details of the field investigation, study methodology, and results were
presented in the study report (Draff Project Report: Natural Attenuation Study; Groundwater,
Surface Water, Soil, and Sediment Investigation; Industri-plex Superfund Site; Woburn,
Massachusetts. Robert Ford, EPA ORD, September 2004), which was included as Appendix 2D
of the MSGRP Rl. The report however, did not present all geochemical data collected during
the investigation, but rather focused on the analytical results controlling arsenic migration and
natural attenuation processes.
The June 24 ORD Memo presented the results of dissolved ammonia-nitrogen, temperature,
and pH in groundwater and surface water samples collected during the study, including sample
location figures. Well locations that were sampled by EPA ORD for ammonia are shown on
Figure 2-2 (groundwater) and Figures 2-3 and 2-4 (surface water). The June 24 ORD Memo is
included in Appendix A of this report, and was also included in EPA's June 30, 2005
Administrative Record for Industri-plex OU-2.
2.2 July 2005 Surface Water Data
Upon further review of the geochemistry data for groundwater and surface water data, ammonia
was identified as a potential contaminant of concern due to the high concentrations observed in
groundwater in the vicinity of the hide piles, the NSTAR right-of-way, and in deep surface water
of the HBHA Pond; a known discharge zone for groundwater originating from the Industri-plex
Site.
On July 11, 2005, EPA's New England Regional Laboratory (NERL) collected 12 surface water
grab samples from 12 locations in the HBHA Pond, Halls Brook, East Drainage Ditch, New
Boston Street Drainway, and Landfill Creek. Sample locations are shown on Figure 2-5. The
purpose of these samples was to evaluate background concentrations of ammonia in surface
water.
Samples were analyzed for ammonia, bromide, chloride, fluoride, nitrate, nitrite, sulfate, nitrate
as nitrogen, nitrite as nitrogen, and o-phosphate as phosphorous. Results of these analyses as
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well as field logs and, sample location figures are presented in Appendix B of this report and are
summarized in Table 2-4.
2.3 July 2005 Soil Data
As mentioned above, in response to a request from the City of Woburn, on July 12, 2005, EPA
NERL collected 12 surface soil samples from 12 locations along the eastern edge of the Wells
G&H wetland in an area potentially used for future recreational activities such as recreation
trails. Sample locations are shown on Figure 2-6.
Samples were analyzed for target analyte list (TAL) metals. These results of these analyses as
well as field logs and sample location figures are also presented in Appendix B of this report.
Analytical results for the soil samples are also summarized in Table 2-5.
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3.0 NATURE AND EXTENT OF CONTAMINATION AND FATE ANDTRANSPORT
;/ '
The following section presents a discussion of the analytical data for groundwater, surface
water, and soil discussed above as well as fate and transport mechanisms.
3.1 Groundwater
A portion of the groundwater samples collected during the GSIP phase of the Rl investigations
was analyzed for anions and cations. Of particular note was ammonia, which showed
concentrations ranging from non-detect in locations near Mishawum Road to 2,710 milligrams
per liter (mg/L) in sample locations adjacent to or downgradient of the hide piles or where
animal waste have been buried, such as the NSTAR right-of-way.
Groundwater data collected by EPA ORD showed ammonia concentrations up to 1,380 mg/L
discharging in the northern portion of the HBHA Pond (TW-01 sampled on 9/11/01). The
highest concentrations of ammonia were consistently observed in wells located along the
northeastern edge of the HBHA Pond Refer to Figure 3-1.
The pattern of contamination shown on Figure 3-1 is consistent with the pattern predicted from
both the source information and groundwater flow directions presented in the MSGRP Rl. The
flow path pattern is also consistent with the distribution of other contaminants modeled in the
MSGRP Rl, specifically, arsenic and benzene. See Figure 3-2 for a partial summary of key
groundwater contaminant migration pathways, including ammonia.
Fate and Transport of Ammonia in Soil and Groundwater
Industri-plex OU-1 has a very large source of organic nitrogen in the form of buried animal hide
wastes. As bacteria decompose the waste, some of the nitrogen that was bound up in complex
organic molecules can be released to the soil as ammonia. Through leaching processes, the
ammonia is converted to ammonium by reacting with water. Ammonia exists in water in two
forms: as ammonium ion (NH4+), which is highly soluble, and as ammonia gas (NH3) (Masters,
1991).
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In aerobic substrates, organic nitrogen may mineralize to ammonium, which plants and
microbes can utilize, adsorb to negatively charged particles (e.g., clay), or diffuse to the surface.
Ammonium can be absorbed by plants or microbes and incorporated back into the organic
matter matrices. It can also become bound to organic soil matrices since the soils have
negative charges and the ammonium is positive. However, ammonium is a reduced compound,
so if there is no oxygen present, it won't transform or be converted, but rather just increase in
concentration. In the case of Industri-plex OU-1, reduced conditions have been documented in
groundwater (MSGRP, 2005a). These conditions would tend to cause ammonium to remain in
the dissolved state and migrate with the groundwater flow towards the south, discharging into
the HBHA Pond and wetlands.
Concentrations of ammonia in groundwater can fluctuate depending on seasonal temperature
conditions that impact biological activity. For example, in winter months, biological activity is
usually low, consequently ammonia concentrations are low. However, the animal hide wastes
at the Industri-Plex site are buried, in some cases more than 40 feet below grade, and are
relatively insulated from the effects of seasonal temperature changes. Therefore, the biological
processes accounting for the production of ammonia is relatively unaffected by seasonal
temperature changes. This results in consistent elevated concentrations of ammonia in
groundwater, discharging to the deeper portions of the HBHA Pond on a year-round basis.
3.2 Surface Water
According to the EPA ORD data from surface water samples collected in the HBHA Pond, the
highest concentrations of ammonia were consistently detected at the deepest locations in the
northern portion of the HBHA Pond, up to 1,270 mg/L (NML sampled on 9-14-01). The northern
portion of the HBHA Pond has been identified as the principal discharge zone for contaminated
groundwater originating from the Industri-plex OU-1. Concentrations of ammonia become
attenuated in the water column, with concentrations decreasing towards the surface, away from
the groundwater discharge zone. The concentration of ammonia in shallow water (upper 100
cm) in the HBHA Pond ranged from 2.0 mg/L to 31.1 mg/L, and averaged 10,7 mg/L. This trend
of the highest concentrations at depth and lower concentrations near the surface is also
consistent with other contaminants observed in surface water such as arsenic and benzene.
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The concentration of ammonia from six samples collected at the Halls Brook inlet ranged from
3.3 mg/L to 7.8 mg/L over multiple sampling events from 2000 to 2004, and averaged 5.6 mg/L
The concentrations of ammonia in the six shallow surface water at the HBHA Pond outlet
ranged from 4.0 mg/L to 17.9 mg/L during these multiple sampling events, and averaged 9.9
mg/L.
On July 11, 2005, EPA collected samples to evaluate background ammonia surface water
conditions entering the HBHA Pond. Ammonia was not detected in surface water samples
collected from Halls Brook upstream of the New Boston Street Drainway confluence. Slightly
elevated ammonia concentrations, ranging from 9.97 mg/L to 12.7 mg/L, were detected in
surface water upstream along the New Boston Street Drainway, East Drainage Ditch, and
Landfill Creek (see Figure 2-1). After surface water flow from the New Boston Street Drainway
combines with Halls Brook prior to its discharge into HBHA Pond (see Figure 2-5), the ammonia
concentration at the outlet of Halls Brook was 2.10 mg/L or approximately 80 percent less than
upstream New Boston Street Drainway, which suggests the upstream ammonia concentrations
are diluted by Halls Brook prior to discharge into the HBHA Pond. In addition, a sample
collected from the NSTAR drainage channel exhibited ammonia concentrations of 8.03 mg/L.
This drainage channel discharges into the northern portion of the HBHA Pond.
Fate and Transport of Ammonia in Surface Water
The MSGRP Rl has documented the presence of a chemocline in the HBHA Pond. Section 5 of
the MSGRP Rl presents detailed discussions on the formation and chemical reactions taking
place at the chemocline. Generally, the chemocline is induced by the difference in low
conductivity/oxic surface water contributed by Halls Brook and inputs of high conductivity/anoxic
contaminated groundwater into the deeper portions of the pond.
Due to the chemocline, dissolved metals in groundwater are being partially sequestered at
depth in HBHA Pond sediments. This chemocline also supports the biodegradation of benzene
that is also being discharged by the contaminated groundwater plumes. As a result of the
chemocline, high concentrations of dissolved arsenic, benzene and conductivity are detected in
deeper portions of the pond's surface water, while very low concentrations are in the shallow
surface water. Based on the surface water data collected by EPA ORD during the natural
attenuation study, EPA has concluded that the chemocline is also serving to sequester the
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ammonia at depth. See Figure 3-2 for a contaminant cross-section of HBHA Pond, including
ammonia.i( '
As ammonia diffuses towards the chemocline, the bacteria Nitrosomonas europea can oxidize
the ammonia to nitrite. Other bacteria, such as Nitrobacter can then convert the nitrite to nitrate.
Plants or microorganisms can assimilate nitrate (assimilatory nitrate reduction) or facultative
anaerobic bacteria may further reduce nitrate (denitrification) to gaseous nitrogen (N2) when
nitrate diffuses into the deeper anoxic water of the HBHA Pond. The gaseous nitrogen can
volatilize and disperse into the ambient air or be absorbed into organic matrices. Thus, the
alternating reduced and oxidized conditions of the HBHA Pond both below and at the
chemocline completes the nitrogen cycle.
Another biodegradation process includes direct utilization of ammonia by plankton within the
water column. This process would also contribute to the decrease in ammonia concentrations
observed between the upper and deeper layers of the water column. Upon the cyclical death of
planktonic cells, these solids can settle back to the sediment layer returning sequestered
nitrogen (ammonia) to the bottom of the HBHA Pond. Similar to the processes described at the
hide piles, bacteria can decompose the plankton biomass and release the available nitrogen as
ammonia.
Typically, the biological and chemical process of nitrification/denitrification in the nitrogen cycle
transforms the majority of nitrogen entering wetlands, causing between 70% and 90% to be
removed (Reilly 1991; Gilliam 1994). In the case of the HBHA Pond, the chemocline sequesters
the higher ammonia concentrations at depth and assists the natural processes available that
convert some of the ammonia to nitrates, nitrites, and nitrogen gas. As ammonia migrates to
the chemocline, aerobic bacteria can convert the ammonia to nitrite. Through diffusion, the
nitrite comes into contact with the more oxygenated zone of the chemocline where it can be
further oxidized to nitrate. Further reductions can also occur through facultative anaerobic
bacteria where the nitrate can be reduced to nitrite and nitrogen gas can be released.
Based on data collected during the 18-month surface water investigation (presented in
Appendix 2C of the MSGRP Rl), Halls Brook contributes approximately 50 percent of the water
in the HBHA Pond (on average) during baseflow conditions and approximately 81 percent (on
average) during storm events. The surface water inflows from Halls Brook also assist in
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decreasing ammonia ,concentrations in the shallow surface water of HBHA Pond through
dilution. This is most apparent during and immediately following heavy storm events. •
3.3 Soil
Twelve surface soil samples were collected along the eastern edge of the Wells G&H wetland.
Arsenic was the only contaminant of concern identified in the MSGRP Rl that presented a risk
or hazard to humans resulting from exposure to contaminated sediments. Although not posing
a risk or hazard, other contaminants of potential concern (COPC) evaluated in the MSGRP Rl
included lead and chromium.
Arsenic was not detected in any of the 12 surface soil samples collected during the July 2005
event. Chromium concentrations ranged from 8.4 mg/kg to 26 mg/kg. Lead concentrations
ranged from 52 mg/kg to 370 mg/kg.
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4.0 RISK EVALUATION
{i •
This section presents a human health and ecological risk evaluation of the groundwater, surface
water, and soil data presented and discussed in Sections 2.0 and 3.0. The purposes of this risk
evaluation are: 1) to evaluate the potential human health risks and/or adverse ecological effects
that may be posed by ammonia in groundwater and surface water at Industri-plex OU-1 and
HBHA Pond, and metals in surface soil at the potential recreation trail area (RC area) near
former production wells G and H; and 2) to provide a basis for decisions as to whether remedial
action is necessary.
Based on the lack of a completed exposure pathway between groundwater and ecological
receptors, the groundwater ammonia data have been quantitatively evaluated for human
exposures only. Surface water ammonia data have been qualitatively evaluated for both human
exposures, and potential ecological effects. Because the RC area surface soil metals data were
specifically collected at the request of the City of Woburn to evaluate an upland area being
considered for future re-use as a recreation trail, a quantitative human health risk evaluation
was performed for the soil data.
The human health evaluation of groundwater, surface water, and soil data is presented in
Section 4.1 and the ecological evaluation of surface water data is presented in Section 4.2. For
those media and chemicals associated with a human health risk or hazard above EPA risk
management guidelines or exceedances of ecological benchmarks or standards (e.g., National
Recommended Water Quality Criteria), Remedial Action Objectives (RAOs) and Preliminary
Remediation Goals (PRGs) are presented in Section 4.3.
4.1 Human Health Risk Evaluation
The human health risk evaluation has been conducted using methods and assumptions
consistent with those used in the baseline human health risk assessments for Operable Units 3
of the Wells G&H Superfund Site (Aberjona River Study; MSGRP Southern Study Area) (M&E,
2004) and Operable Unit 2 of the Industri-plex Superfund Site (MSGRP Northern Study Area)
(TtNUS, 2005). In cases where quantitative evaluation was performed, only Reasonable
Maximum Exposure (RME) estimates of risk and hazard have been presented.
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The human health evaluation includes a quantitative evaluation of GSIP groundwater ammonia
data, EPA ORD and July 2005 shallow surface water ammonia data collected from HBHA Pond,
and July 2005 surface soil data. Other groundwater and surface water quality parameters
measured have not been included in this evaluation because: (1) the parameter was not
detected (e.g., bromide); (2) detected concentrations were significantly below conservative
screening criteria (e.g., nitrate, nitrite, and fluoride); or (3) the parameter is a nutrient/dietary
component and is unlikely to be toxic at the levels detected (e.g., phosphate and chloride).
Appendix C.1, Table 1 (Selection of Exposure Pathways) identifies the exposure media,
exposure points, receptors, and routes of exposure quantitatively and qualitatively evaluated as
part of this human health risk evaluation.
Groundwater
During the GSIP investigation, transect sampling of groundwater was conducted in 2001/2002
for Industri-plex OU-1 and the study area which included sampling and analysis for ammonia.
The groundwater ammonia data quantitatively evaluated for human health risks are presented in
Appendix C.2, Table 1. Sampling locations are shown on Figure 2-1.
Based on the MADEP groundwater use and value determination (MADEP, 1997), residential
groundwater use in the Industri-plex Site area is assumed not to occur in the future. However,
use of contaminated groundwater for commercial purposes (e.g., process water and use in a car
wash) is assumed. Based on information presented in the baseline human health risk
assessment for the Northern Study Area (TtNUS, 2005a), the car wash scenario is more
conservative than the process water scenario for volatile compounds. Therefore, this risk
evaluation only presents the car wash scenario results. For the car wash scenario, inhalation of
volatile compounds released from groundwater would be the primary exposure pathway.
To evaluate the impact of future groundwater use in a car wash on indoor air quality, the
maximum detected groundwater ammonia concentration presented in Appendix C.3, Table 1,
was modeled to an indoor air concentration using methods and assumptions provided in
Appendix C.3, Table 2. For estimation of air concentrations in a warm water car wash, the
shower model approach presented by Foster and Chrostowski (1986; 1987) was assumed to be
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proportionally representative of conditions similar to a car wash. Additional details concerning1 the methods and assumptions used in the modeling are provided in Appendix C.3. •
The maximum modeled indoor air ammonia concentration is presented in Appendix C.1, Table
2.1. The maximum modeled air concentration was compared to ambient air PRGs published by
USEPA Region 9 (USEPA, 2004). PRGs are chemical concentrations back-calculated using
toxicity criteria and either a 1 x 10"6 target risk level for potential carcinogens or a hazard
quotient (HQ) of 1 for noncarcinogens. For purposes of this screening analysis, a HQ of 0.1
was used to add a ten-fold measure of safety to reduce the chance of omitting chemicals from
the list of COPCs that could contribute to a total hazard index (HI) of 1. To accomplish this,
PRGs for noncarcinogenic chemicals (i.e., ammonia) were divided by 10 prior to comparison to
maximum detected values. Because the maximum modeled indoor air concentration exceeded
the ambient air PRG, ammonia was selected as an indoor air COPC for the car wash scenario.
i
Groundwater ammonia data were then used to generate a groundwater 95% Upper Confidence
Limit (UCL) value (Appendix C.3, Table 3) which was then modeled to estimate an airborne
95% UCL concentration a worker may be exposed to during water use in a car wash.
Documentation of the 95% UCL calculation is provided in Appendix C.3, Table 4. Appendix C.3,
Table 5, provides the model assumptions used to generate the 95% UCL air concentration.
Appendix C.1, Table 3.1.RME lists the modeled 95% UCL air concentration for car wash water
use.
The exposure parameters for the adult car wash worker are shown in Appendix C.1, Table
4.1.RME. Car wash workers are assumed to be exposed to volatile COPCs in indoor air only.
For the inhalation pathway, the exposure time was assumed to be equivalent to a typical 8-hour
work day (USEPA, 1997a). An exposure frequency of 250 days/year was used, which
represents the 95th percentile number of days worked per year. The default high-end exposure
duration of 25 years was used (USEPA, 1997a). As recommended in FtAGS (USEPA, 1989),
the averaging time for noncarcinogens was set equal to the exposure duration, and the
averaging time for carcinogens was the standard USEPA lifetime duration (70 years). The
equation used for the calculation of carcinogenic and noncarcinogenic intakes of ammonia is
presented in Appendix C.1, Table 4.1.RME.
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A chronic inhalation toxicity criterion (i.e., RfC) for ammonia was obtained from EPA's Integrated
Risk Information System (IRIS) (USEPA, 2005) and. is provided in Appendix C.1, Table 5.2.
Because ammonia has not been classified as to carcinogenicity by EPA, no carcinogenic
toxicity criteria were available for use in this evaluation (Appendix C.1, Table 6.2). A toxicity
profile for ammonia is provided in Appendix E.
Risk estimation is undertaken by combining the toxicity factors and exposure assessment
equations to calculate estimates of risks. Non-carcinogenic risks are reported as compound-
specific hazard quotients (HQs) that are summed to provide a total receptor hazard index (HI).
In general, His that are less than 1 are not of regulatory concern; however, a HI of greater than
1 does not automatically indicate that an adverse effect will occur and should not automatically
be interpreted as posing an unacceptable risk to the exposed population.
The estimated ammonia HQ for the inhalation pathway is listed for the future car wash worker
receptor exposed to ammonia in groundwater in Appendix C.1, Table 7.1. The HQ for the RME
receptor exceeded the target HI of 1 (HI of 90). The highest concentrations of ammonia were
seen in monitoring wells: B1-04, B5-03, W5-05, B8-04, B7-03, and B6-03.
The above groundwater risk calculations for the future car wash worker receptor exposed to
ammonia are consistent with EPA's baseline risk assessment for the Northern Study Area
presented in the MSGRP Rl.
Surface Water
EPA ORD and July 2005 surface water ammonia data for the HBHA Pond were evaluated for
potential impacts to human health. Human receptors could potentially contact ammonia in
surface water while using the HBHA Pond for recreational purposes. The most likely receptor to
utilize this area is a teenager (ages 12 to 18). The teenage recreational user is likely to be
exposed to contaminants in surface water by dermal contact during wading. Even though the
HBHA Pond has surface water of sufficient depth to support swimming, wading is likely to be the
most common recreational activity. Ingestion of surface water is not quantitatively evaluated for
wading since it is unlikely that teenagers would ingest more than a negligible amount of surface
water during wading. Inhalation of ammonia from surface water is assumed to be negligible
because the levels of this compound released from surface water would be diluted and
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dispersed into ambient air. Because wading exposures would allow for contact with only
shallow surface water (i.e., < 2 feet in depth), shallow surface water data presented in Appendix
C.2, Table 2 have been considered in this evaluation.
Due to a lack of oral toxicity values for ammonia that could be adjusted for applicability to the
dermal route of exposure, ammonia could not be quantitatively evaluated for dermal contact
hazard. ' Instead, ammonia was qualitatively evaluated by comparison of detected
concentrations in shallow surface water data to a value of 30 mg/L (Appendix C.1, Table 2.2).
This value is a lifetime health advisory provided in the Drinking Water Standards on Health
Advisories (USEPA, 2004b) for drinking water exposures and is specifically related to a taste
threshold. A safe concentration may be higher than this value. The maximum detected shallow
surface water concentration (17.2 mg/L) is below this drinking water value (30 mg/L).
Therefore, ammonia in shallow surface water was not selected as a human health COPC and
no further evaluation was conducted for ammonia in surface water.
Soil
Surface soil samples (0-6 inches) were collected in July 2005 at area RC, representative of the
approximate location of a potential recreation trail planned by the City of Woburn. Analytical
results of metals detected in individual soil samples collected from area RC are presented in
Appendix C.2, Table 3. Sampling locations are shown in Figure 2-6.
Human receptors could potentially contact contaminants in surface soil while using the upland
areas of the Wells G&H wetland for recreational purposes. The most likely receptors to utilize
this area, which is planned for development as recreational space, include adult and young child
recreational users. The recreational user is likely to be exposed to contaminants in surface soil
by incidental ingestion and dermal contact. Inhalation of metals from surface soil is assumed to
be negligible because the low levels of airborne particulates would be diluted and dispersed into
ambient air.
Surface soil data are summarized in Appendix C.1, Table 2.3. The soil summary table provides
the frequency of detection, range of detection limits, range of detected concentrations, and
location of maximum detected result for each detected metal. Because hexavalent chromium
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analysis was not performed, total chromium detected in surface soil is conservatively assumed
to exist as hexavalent chromium., i
The maximum detected concentration of each metal in soil was compared to Region 9
residential soil PRGs (USEPA, 2004) adjusted to a HQ of 0.1 for noncarcinogens. The
comparison of maximum concentrations to PRGs is presented in Appendix C.1, Table 2.3.
Essential human nutrients that lacked screening criteria (i.e., calcium, magnesium, iron,
potassium, and sodium) were eliminated prior to the screening process. Essential nutrients are
unlikely to cause substantial toxicity at concentrations commonly encountered. Copper was
also eliminated since it is abundant in the earth's crust and unlikely to cause substantial toxicity
at concentrations commonly encountered. Since PRGs were not available for lead, the
maximum detected lead concentration was evaluated relative to the residential soil screening
level of 400 mg/kg (USEPA, 1994a).
The maximum detected results for aluminum, antimony, chromium, manganese, and vanadium
exceeded their respective PRGs and were selected as future surface soil COPCs. As a
conservative approach, the maximum detected concentration of each surface soil COPC was
used as the exposure point concentration in the quantitative evaluation. The maximum detected
concentrations are presented in Appendix C.1, Table 3.2.RME. None of the COPCs identified
are classified as ingestion or dermal contact carcinogens. Therefore, carcinogenic risks
associated with future surface soil exposures were not estimated.
The exposure parameters for the young child recreational user scenario are shown in Appendix
C.1, Table 4.2.RME. Because only non-carcinogenic hazards will be estimated for soil, the
young child is the most sensitive receptor and provides the most conservative estimate of non-
carcinogenic hazard. Therefore, the adult hazard estimates have not been presented. For the
surface soil ingestion pathway, the default RME soil ingestion rate (200 mg/kg; USEPA, 1994b)
for young child residents was used. Consistent with the Aberjona River Study human health risk
assessment, it was assumed that the young child recreational user may visit the RC area and
engage in activities resulting in surface soil exposure for 3 days per week for the warmest 6
months of the year (78 days/year). The fraction of surface soil ingested from the area was
assumed to be 50%. Because each of the soil COPCs lacked EPA recommended dermal
absorption factors, dermal exposures were not assessed. The default high-end exposure
duration of 6 years and a 15 kg body weight were used (USEPA, 1994b). The averaging time
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for noncarcinogens was set equal to the exposure duration (USEPA, 1989). The equations
used for the calculation of non-carcinogenic intakes of metals are presented in Appendix C.1,
Table 4.2.RME.
The chronic toxicity criteria were obtained from EPA's Integrated Risk Information System (IRIS)
(USEPA, 2005). This source lists the most recent toxicity values recommended by USEPA for
use in human health risk assessments. In the event that toxicity values for a COPC were not
available through IRIS, provisional toxicity values were obtained from the Superfund Technical
Support Center (STSC), a division of USEPA. Appendix C.1, Table 5.1 summarizes the oral
non-carcinogenic toxicity values (i.e., RfDs) and the corresponding critical effects for the soil
COPCs. As stated previously, no carcinogenic COPCs were identified in surface soil (see
Appendix C.1, Table 6.1).
The estimated HI for the surface soil ingestion pathway is listed for the future young child
recreational user exposed to metals in surface soil in Appendix C.1, Table 7.2. The HI for the
RME receptor is 0.2, which does not exceed the target HI of 1.
The above surface soil risk calculations for future recreational receptors exposed to metals are
consistent with EPA's baseline risk assessment for the Southern Study Area presented in the
MSGRPRI.
4.2 Ecological Risk Evaluation
The ecological risk evaluation includes a quantitative evaluation of EPA ORD and July 2005
surface water ammonia data. Other surface water quality parameters measured have not been
included in this evaluation because: (1) the parameter was not detected (e.g., bromide); (2)
detected concentrations were significantly below conservative screening criteria (e.g., chloride
and fluoride); or (3) the parameter is a nutrient/dietary component and is unlikely to be toxic at
the levels detected (e.g., phosphate and nitrate).
Ammonia is known to be highly toxic to aquatic life including many species of fish and
invertebrates in fresh water (EPA, 1999). In natural waters, ammonia primarily exists in two
forms, un-ionized ammonia (NH3) and ammonium ion (NH4+), which are in equilibrium with each
other, and the forms present are dependent on the chemical conditions of the water, particularly
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pH and temperature. These speciation relationships are important to ammonia toxicity because
un-ionized ammonia ,is much more toxic to aquatic receptors than ammonium ion.
For the purposes of this report, the evaluation of ecological risk resulting from potential
exposure to aquatic jife was based on the subset of surface water data collected from the HBHA
Pond. These data were compared to surface water quality benchmarks to identify potential risk
to aquatic life in the pond.
The surface water data collected for HBHA Pond indicate exceedances of the National
Recommended Water Quality Criteria (NRWQC) for ammonia (EPA, 2002). The NRWQC for
ammonia is dependent on pH and temperature (Appendix D). The NRWQC criteria are based
on both invertebrates and fish toxicity testing data. The selected criteria used for HBHA Pond,
are based on the absence of sensitive fish (trout) in the habitat for the CMC (acute criteria) and
the absence of fish early life stages for the CCC (chronic criterion). The CMC represents the 1-
hour average concentration that is not to be exceeded more than once every 3 years, on
average. The CCC represents the 30-day average concentration of total ammonia-nitrogen that
is not to be exceeded more than once every 3 years. The selected CCC assumes that no early
life stages of fish are likely to be present. If the ammonia CCC criteria protective of early-life
stages of fish were utilized, additional areas of exceedances during lower temperature
conditions would be identified because below 15 degrees centigrade (°C), the CCC values for
the category "early-life stages of fish present" are lower than the CCC values calculated for the
category "early life stages of fish absent" (refer to Appendix D).
Of the 165 total surface water samples presented, 125 had results for pH, temperature, and
ammonia, thereby allowing for calculation of and comparison to the criteria concentrations
(Table 4-1). Of the 125 samples evaluated, 84 exceeded the CCC and 39 exceeded the CMC.
The majority of the exceedances occurred in deeper water. All of the exceedances of the CMC
(acute criteria) occurred in samples from 4.9 feet or more in depth below the surface. The
samples from the northern multi-level (NML) sampler indicated consistent ammonia CCC
exceedances below a depth of 4 feet for all samples. At the HBHA Pond outlet, three of the five
measured ammonia concentrations exceeded the CCC value in May 2000, August 2000, and
September 2001, with measured ammonia concentrations in the surface water (0.3 feet below
the surface) ranging from 8 to 17 mg/L (Table 4-1).
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The EPA ORD and .July 2005 surface water data from HBHA Pond indicate that there are
numerous exceedances of ammonia criteria throughout the pond. These data indicate a
potential risk to aquatic life from the exposure to ammonia in HBHA Pond.
4.3 Impact of Findings on RAOs and PRGs
Based on the results of the human health and ecological risk evaluations presented in Sections
4.1 and 4.2, ammonia in groundwater was determined to be associated with human health risks
in excess of risk management guidelines and ammonia in surface water exceeds NRWQCs.
Therefore, the current RAO for groundwater will be modified to include ammonia as follows:
> Prevent exposures associated with a HI > 1 and/or ILCR > 10"6 to lO'4 by meeting
the associated PRGs for the following scenarios:
• Vapor inhalation of benzene, trichloroethene, naphthalene, 1,2-dichloroethene,
and ammonia by a car wash worker using groundwater in the car wash
The PRG for ammonia in groundwater, associated with a HQ of 1, is 4 mg/L. The ammonia
PRG was calculated using the same methods and assumptions employed for the HQ calculation
for the car wash worker exposed to ammonia in groundwater. Additional details regarding the
calculation of the ammonia PRG is provided in Appendix C.3.
The current RAO for surface water will be modified to include ammonia as follows:
> Protect aquatic life from arsenic, benzene, and ammonia above levels indicative of
impairment or provide alternate habitat in the event that HBHA Pond is used as a
component of the remedy. Meet ARARs for the protection of aquatic life.
The NRWQC is the PRG for ammonia in surface water. Because the NRWQC for ammonia is
pH and temperature dependent, tables and formulas provided in Appendix D should be used to
calculate the appropriate value, based on site-specific pH and temperature data.
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i
5.0 IMPACT OF FINDINGS ON THE JUNE 2005 PROPOSED PLANm
1 ,|
Based on an evaluation of the data presented above, a human health risk above the EPA targetm
HI was identified due to elevated concentrations of ammonia in groundwater and an
unacceptable risk to aquatic life in the HBHA Pond was identified due to the exceedances of the
NRWQC for ammonia. The RAOs and PRGs for ammonia in both groundwater and surface
water would be addressed by the current preferred remedial alternatives identified in the June
"* , 2005 Proposed Plan.
<* The remedial alternatives evaluated in the FS for groundwater included:
IB • Alternative GW-1: No Action Alternative
• Alternative GW-2: Pond Intercept with Monitoring and Institutional Controls
m • Alternative GW-3: Plume Intercept by Groundwater Extraction, Treatment and Discharge
and Monitoring with Institutional Controls
ig * Alternative GW-4: Plume Intercept by In-Situ Groundwater Treatment and Monitoring
with Institutional Controls
tfWith the addition of ammonia as a COC, the technical applicability of Alternative GW-4: Plume
' Intercept by In-Situ Groundwater Treatment and Monitoring with Institutional Controls may beil'IB
further compromised since it is highly uncertain that a reactive wall material exists that is
effective for removing ammonia However, Preferred Alternative GW-4 for the West Hide Pile,tf
In-situ Enhanced Bioremediation, would reverse observed reducing conditions to oxidizing
conditions, thereby decreasing ammonia concentrations associated with the West Hide Pile.till Based on the evaluation criteria presented in the FS, the addition of ammonia as a COC does
not substantially affect the overall evaluation outcome for the groundwater alternatives.m
The current preferred groundwater remedy identified in the June 2005 Proposed Plan is
<• Alternative GW-2 - Pond Intercept with Monitoring and Institutional Controls. Alternative GW-2
protects human health by preventing or controlling potential exposures to contaminated
m groundwater through institutional controls. GW-2 also includes conducting long-term monitoring
of the groundwater, surface water, and sediments to evaluate the status and migration of
— contaminants and the effectiveness of the remedy. This alternative, coupled with Alternative
HBHA-4 -Storm Water Bypass, Sediment Retention, Partial Dredging and Restoration, and
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Monitoring, also decreases the downstream migration of contaminated groundwater by
intercepting it at the,northern portion of the HBHA Pond where natural attenuation processes
decrease contaminant concentrations.
Alternative HBHA-4 divides HBHA Pond into two main areas using a system of cofferdams. The
southern portion of the HBHA Pond would be dredged to remove contaminated sediments and
restored. The northern portion of the Pond would be incorporated into the cleanup plan as a
sediment retention basin. It would be used to intercept contaminated groundwater, and
maintain a chemocline in the surface water to degrade and sequester contaminants in the deep
portions of the pond (chemocline is a transition layer which separates the more contaminated
deep surface water from the less contaminated shallow surface water). Between the first and
second low-head cofferdams, an aeration treatment system would be designed to further
decrease contaminants of concern (e.g. precipitation, biological degradation/transformation,
volatilization).
The alternatives presented in the June 2005 Proposed Plan will adequately address the risks
associated with ammonia in groundwater and will address both the human health and ecological
RAOs. Similar to arsenic and benzene, the highest concentrations of ammonia would be
sequestered in the deeper portions of the northern HBHA Pond. The design of the aeration
treatment system would further decrease ammonia concentrations by promoting the conversion
of ammonia to nitrites and nitrates. Monitoring parameters for Alternatives GW-2 and HBHA-4
would require modification to include analysis for ammonia in both groundwater and surface
water, as well as nitrites, nitrates, pH and temperature in surface water. Since the ammonia
would be concentrated in a smaller area of the HBHA Pond, a pre-design study should be
conducted to determine the optimum aeration/oxygenation treatment system. In addition, the
production of ammonia at the West Hide Pile would be decreased due to the oxidized
conditions.
Additional pre-design surface water investigations would also be necessary to further evaluate
ammonia background conditions (e.g. New Boston Street Drainway, Landfill Creek, and the
East Drainage Ditch, as well as NSTAR ROW Culvert/ Drainage Ditch).
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6.0 SUMMARYm
' '!Based upon further evaluation of groundwater and surface conditions and the findings
"** i' presented in this Technical Memorandum, EPA is identifying ammonia as an additional
contaminant of concern in groundwater and surface water for Industri-plex OU-2. In addition to
** the previously identified contaminants of concerns (e.g. arsenic, benzene) presented in the
MSGRP Rl, high concentrations of ammonia are also present in the contaminated groundwater
•* plumes, which migrate and discharge into the HBHA Pond. These high concentrations of
ammonia in the groundwater present a human health risk to future commercial workers during
«i car wash operations. High concentrations of ammonia are also present in deep surface water of
the HBHA Pond, as a result of the contaminated groundwater plumes discharge in the pond.
— Concentrations of ammonia in surface water of the HBHA Pond exceed NRWQC, and
contribute to unacceptable ecological risks to aquatic life in the pond.
The fate and transport of ammonia is similar to the fate and transport patterns observed for
dissolved arsenic groundwater plumes. The surface water data indicate that the chemocline in
the HBHA Pond is effectively sequestering the highest concentrations of ammonia at depth. In
addition, other natural biological, chemical, and physical attenuation processes are effectively
decreasing ammonia concentrations in the water column from the deeper portions to the1 shallow depths prior to its discharge from the HBHA Pond.
nil
The addition of ammonia as a contaminant of concern does not alter the preferred remedial
'* alternatives identified in the June 2005 Proposed Plan, which would also adequately address
ammonia concentrations. Preferred Alternative GW-2 - Pond Intercept and Monitoring with
in Institutional Controls would incorporate ammonia and remain protective; Preferred Alternative
GW-4 for the West Hide Pile, In-situ Enhanced Bioremediation, would reverse observed
m reducing conditions to oxidizing conditions, thereby reducing ammonia concentrations; and
Preferred Alternative HBHA-4 would also intercept ammonia plumes, continue to sequester/treat
contaminants (including ammonia) below the chemocline, and further reduce contaminants
below NRWQC via an appropriately designed aeration treatment system. Pre-design
investigations would include monitoring for ammonia to ensure the cofferdams associated with
the northern portion of the HBHA Pond are properly located to intercept the contaminated
groundwater plumes, including ammonia, and the aeration treatment system is appropriatelyM
designed to reduce contaminants below NRWQC. Further pre-design studies would be
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implemented to ensure the aeration treatment system is properly designed, and to further
evaluate ammonia background conditions.
EPA also evaluated risks for the soil samples collected between the former production wells
G&H. The soil samples were analyzed for heavy metals and the concentrations detected were
relatively low in all samples. Based on the available data, EPA determined that human health
risks did not exceed EPA's risk range, Feasibility Study (FS) Remedial Action Objectives (RAO),
or FS Preliminary Remediation Goals (PRO) as presented in the FS.
EPA believes that the addition of ammonia as a COC does not substantially affect the overall
evaluation outcome, or alter the cost, scope, or performance of the alternatives identified in the
June 2005 FS and Proposed Plan.
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TABLES
TABLE 2-1GROUNDWATER WET CHEMISTRY ANALYTICAL RESULTS
DRAFT FINAL TECHNICAL MEMORANDUMiNDUSTRI-PLEX SITE
WOBURN, MASSACHUSETTS
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis (MG/L)
Alkalinity to pH 4.5
Alkalinity to pH 8.3
Bicarbonate
Carbonate (MG/L as Ca)
Dissolved Organic Carbon
Nitrate
Nitrite-N
Nitrogen, Ammonia
Sulfate
Total Phosphorus as PO4 water
Total Suspended Solids
CB1-04-GW-01 NS-1 10701B1-04
11/7/2001
70.03
None
Unfiltered
O'Brien & Gere
NANANANA
9230.070 J
0.050 J
2150
NA64.7
NA
CB2-05-GW-02
B2-05
8/17/2001
53.1
None
Unfiltered
O'Brien & Gere
2150.41 U
2150.41 U
NA0.072 UJ
0.034 J
13.3
560
0.56 J
203
CB2-05-GW-03R
B2-05
8/17/2001
43.99
None
Unfiltered
O'Brien & Gere
4590.41 U
4590.41 U
NA
0.043 UJ
0.041 J
73.0
420
0.45 J
24.0
CB2-06-GW-02NS
B2-06
8/17/2001
62.41
None
Unfiltered
O'Brien & Gere
248
0.41 U
248
0.41 U
NA
0.040 UJ
0.075
8.51
590
0.46 J
430
CB3-02-GW-01 NS
B3-02
7/9/2001
60.04
^one
Unfiltered
O'Brien & Gere
1500
0.41 U
1500
0.41 U
NA
0.11
0.015 U
270 J
128
1.82 J
155
CB3-02-GW-03
B3-02
7/9/2001
55.34
Mone
Unfiltered
O'Brien & Gere
1670-
0.41 U
1670
0.41 U
NA
0.097 J
0.015 U
322 J
196
2.1 J
31.0
CB3-03-GW-03
B3-03
7/16/2001
39.6
None
Unfiltered
O'Brien & Gere
645
0.41 U
645
0.41 U
NA
0.040 U
0.015 U
49.5 J
3.0 U
1.13
126 J
CB4-03-GW-03
B4-03
7/10/2001
19.32
None
Unfiltered
O'Brien & Gere
879
0.41 U
879
0.41 U
NA
0.049 UJ
0.015 U
156 J
135
0.25 J
8.4 J
CB4-04-GW-01 NS
B4-04
8/16/2001
55.99
None
Unfiltered
O'Brien & Gere
70.3
0.41 U
70.3
0.41 U
NA
0.040 UJ
0.041 J
2.7
640
0.74 J
83.0
CB4-04-GW-02NSB4-04
8/16/2001
45.06
None
Unfiltered
O'Brien & Gere
7.4
0.41 U
7.4
0.41 U
NA
0.040 UJ
0.14 J
1.87
570
9.33 J
1200
RI051306DFU - No! detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-1 (cont.)GROUNDWATER WET CHEMISTRY ANALYTICAL RESULTSDRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 2 OF 11
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis (MG/L)
Alkalinity to pH 4.5
Alkalinity to pH 8.3
Bicarbonate
Carbonate (MG/L as Ca)
Dissolved Organic Carbon
Nitrate
Nitrite-N
Nitrogen, Ammonia
Sulfate
Total Phosphorus as PO4 water
Total Suspended Solids
CB4-05-GW-03NSB4-05
8/31/2001
41.42
Mone
UnfilteredO'Brien & Gere
177
0.41 U
177
0.41 U
NA
0.040 U
0.040 J
21.9
1590
14.3
2020
CB5-01-GW-01
B5-01
7/16/2001
54.49
None
UnfilteredO'Brien & Gere
369
0.41 U
369
0.41 U
NA
0.040 U
0.018 J
16.3 J
1140
3.65
64.0 J
CB5-02-GW-02
B5-02
7/9/2001
52.19
None
UnfilteredO'Brien & Gere
2710
0.41 U
2710
0.41 U
NA
0.040 U
0.015 U
720 J
211
9.58 J
126
CB5-02-GW-03
B5-02
7/9/2001
44.42
None
UnfilteredO'Brien & Gere
1310
0.41 U
1310
0.41 U
NA
0.079 J
0.015 U
281 J
197
3.8 J
74.0
CB5-03-GW-03
B5-03
8/16/2001
36.37
None
UnfilteredO'Brien & Gere
10600
0.41 U
10600
0.41 U
NA
0.068 UJ
0.027 J
2710
1.5 U
12.3 J
4.0 J
CB6-03-GW-01
B6-03
7/18/2001
55.41
None
UnfilteredO'Brien & Gere
1500
0.41 U
1500
0.41 U
NA
0.040 U
0.015 U
276
61.0 J
6.65
12.0
CB6-03-GW-02
B6-03
7/19/2001
49.4
None
UnfilteredO'Brien & Gere
6720
0.41 U
6720
0.41 U
NA
0.059 J
0.034 J
1910
5.0
9.2
712
CB6-03-GW-03
B6-03
7/31/2001
39.4
None
UnfilteredO'Brien & Gere
2990
0.41 U
2990
0.41 U
NA
0.040 U
0.025 J
859
2.4 J
29.9
3.0 U
CB7-01-GW-01
B7-01
7/17/2001
50.77
None
UnfilteredO'Brien & Gere
650
0.41 U
650
0.41 U
NA
0.040 U
0.045 J
27.4
15.0 UJ
11.8
134 J
CB7-01-GW-03
B7-01
7/17/2001
-0.53
None
UnfilteredO'Brien & Gere
12.7
0.41 U
12.7
0.41 U
NA
4.63
0.015 U
0.13 U
39.0 J
0.13 U
7.6 J
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-1 (cont.)GROUNDWATER WET CHEMISTRY ANALYTICAL RESULTSDRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 3 OF 11
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis (MG/L)
Alkalinity to pH 4.5
Alkalinity to pH 8.3
Bicarbonate
Carbonate (MG/L as Ca)
Dissolved Organic Carbon
Nitrate
Nitrite-N
Nitrogen, Ammonia
Sulfate
Total Phosphorus as PCM water
Total Suspended Solids
CB7-02-GW-01
B7-02
7/16/2001
48.37
None
Unfiltered
O'Brien & Gere
6530.41 U
6530.41 U
MA0.040 U
0.105
76.0 J
9300.80
93.0 J
CB7-02-GW-02
B7-02
7/16/2001
39.07
None
UnfilteredO'Brien & Gere
42.30.41 U
42.3
0.41 U
NA
0.10 U
0.051
11.4 J
5200.31
36.0 J
CB7-03-GW-01
B7-03
7/25/2001
49.6
None
UnfilteredO'Brien & Gere
6160.41 U
6160.41 U
NA0.053 J
0.015 U
1955800.23
3.0 U
CB7-03-GW-02RB7-03
7/25/2001
34.4
None
UnfilteredO'Brien & Gere
1330
0.41 U
1330
0.41 U
NA0.040 U
0.076
3483503.06
3.0 U
CB7-03-GW-03
B7-03
7/25/2001
14.6
None
UnfilteredO'Brien & Gere
5070
0.41 U
5070
0.41 U
NA0.040 U
0.098
1380
3.0 J
13.9
9.6 J
CB8-01-GW-01
B8-01
7/17/2001
48.32Field Dup. CB8-01-GW-01UnfilteredO'Brien & Gere
97.5
0.41 U
97.5
0.41 U
NA0.040 U
0.015 U
4.92
287 J
0.37
4.0 J
CB8-01-GW-0199B8-01
7/17/2001
48.32Field Dup. CB8-01-GW-01UnfilteredO'Brien & Gere
1060.41 U
1060.41 U
NA0.040 U
0.015 U
5.3283 .J
0.36
3.0 U
CB8-01-GW-01-AVGB8-01
7/17/2001
48.32Field Dup. CB8-01-GW-01UnfilteredO'Brien & Gere
1000.41 U
1000.41 U
NA0.040 U
0.015 U
5.12900.36
2.8
CB8-01-GW-03
B8-01
7/17/2001
-6.18
None .
UnfilteredO'Brien & Gere
5190.41 U
5190.41 U
NA0.040 U
0.040 J
73.3
1020 J
0.48
48.0- J
CB8-04-GW-02NSB8-04
7/24/2001 -
26.67Field Dup. CB8-04-GW-02NS
UnfilteredO'Brien & Gere
7560
0.41 U
7560
0.41 U
NA0.040 U
0.062
2190
2.0 J
49.9
170 J
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-1 (cont.)GROUNDWATER WET CHEMISTRY ANALYTICAL RESULTSDRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 4 OF 11
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis (HIGH.)
Alkalinity to pH 4.5
Alkalinity to pH 8.3
Bicarbonate
Carbonate (MG/L as Ca)
Dissolved Organic Carbon
Nitrate
Nitrite-N
Nitrogen, Ammonia
Sulfate
Total Phosphorus as P04 water
Total Suspended Solids
CB8-04-GW-02NS99B8-04
7/24/2001
26.67
Field Dup. CB8-04-GW-02NSUnfiltered
O'Brien & Gere
7680
0.41 U
7680
0.41 U
NA0.040 U
0.016 J
2280
1.8 J
45.3
249 J
CB8-04-GW-02NS-AVGB8-04
7/24/2001
26.67
Field Dup. CB8-04-GW-02NS
UnfilteredO'Brien & Gere
7600
0.41 U
7600
0.41 U
NA
0.040 U
0.039
2200
1.948.0
210 __,
CB9-01-GW-01
B9-01
7/10/2001
45.29
None
UnfilteredO'Brien & Gere
7230.41 U
7230.41 U
NA2.62
0.015 U
583 J
2401.22 J
7.6 J
CB9-01-GW-03
B9-01
7/10/2001
22.59
None
UnfilteredO'Brien & Gere
2950
0.41 U
2950
0.41 U
NA0.040 U
0.124
891 J
9800.38 J
13.0
CB9-02-GW-02
B9-02
7/10/2001
28.09
None
UnfilteredO'Brien & Gere
9290.41 U
9290.41 U
NA0.040 U
0.075
47.0 J
3550
0.23 J
83.0
CB9-04-GW-01
B9-04
7/23/2001
54.55
None
UnfilteredO'Brien & Gere
-64.5
0.41 U
64.5
0.41 U
NA0.040 U
0.026 J
3.52
29.0
0.29
3.0 U
CB9-05-GW-01
B9-05
7/23/2001
45.46
None
UnfilteredO'Brien & Gere
51.3
0.41 U
51.3
0.41 U
NA0.040 U
0.019 J
2.17
52.0
0.15 J
3.0 U
CE3-02-GW-03
E3-02
7/25/2001
1.49
None
UnfilteredO'Brien & Gere
1840.41 U
1840.41 U
NA0.040 U
0.019 J
0.040 U
94.0
0.17
10.0 J
CE4-02-GW-01
E4-027/19/2001
55.48
None
UnfilteredO'Brien & Gere
1160
0.41 U
1160
0.41 U
NA0.040 U
0.119
12.2
15.0 U
0.28
148
CE4-03-GW-01NS-072301E4-03
7/23/2001
56.21
None
UnfilteredO'Brien & Gere
NANANANANA
0.096 J
0.021 J
104NA
0.57
NA
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-1 (cont.)GROUNDWATER WET CHEMISTRY ANALYTICAL RESULTSDRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 5 OF 11
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
riltered
Data Source
Wet Chemistry Analysis (MG/L)
Alkalinity to pH 4.5
Alkalinity to pH 8.3
Bicarbonate
Carbonate (MG/L as Ca)
Dissolved Organic Carbon
Nitrate
Nitrite-N
Nitrogen, Ammonia
Sulfate
Total Phosphorus as PCM water
Total Suspended Solids
CE4-03-GW-03
E4-03
7/19/2001
39.91
Field Dup. CE4-03-GW-03
Unfiltered
O'Brien & Gere
3560.41 U
3560.41 U
MA0.040 U
0.026 J
0.38
133
0.81
12.0
CE4-03-GW-0399
E4-03
7/19/2001
39.91
Field Dup. CE4-03-GW-03
Unfiltered
O'Brien & Gere
3420.41 U
342
0.41 U
NA
0.040 U
0.027 J
0.46
139
0.80
14.0
CE4-03-GW-03-AVG
E4-03
7/19/2001
39.91
Field Dup. CE4-03-GW-03
Unfiltered
O'Brien & Gere
3500.41 U
3500.41 U
NA0.040 U
0.026
0.42
1400.80
13.0
CH1-04-GW-04
H1-04
7/18/2001
20.92
None
UnfilteredO'Brien & Gere
84.1
0.41 U
84.1
0.41 U
NA0.040 U
0.027 J
0.055 UJ
29.0 J
3.29
931
CH1-04-GW-05RH1-04
7/18/2001
11.62
^one
Unfiltered
O'Brien & Gere
1090.41 U
1090.41 U
NA0.040 U
0.044 J
0.092 UJ
34.0 J
0.15 J
46.0
CH2-02-GW-02
H2-02
7/12/2001
39.56
None
Unfiltered
O'Brien & Gere
43.5
0.41 U
43.5
0.41 U
NA
0.040 U
0.015 U
2.5 J
27.0
0.18
118 J
CH2-02-GW-05
H2-02
7/12/2001
15.26
None
Unfiltered
O'Brien & Gere
109
0.41 U
109
0.41 U
NA
0.040 U
0.015 U
2.54 J
530
0.15 J
3.6 J
CH2-04-GW-05
H2-04
7/12/2001
-0.81
None
Unfiltered
O'Brien & Gere
74.4
0.41 U
74.4
0.41 U
NA
0.040 U
0.015 U
0.63 J
169
0.13 U
46.0 J
CH2-04-GW-06
H2-04
7/12/2001
-11.51
None
Unfiltered
O'Brien & Gere
1630.41 U
1630.41 U
NA
0.040 U
0.015 U
0.24 UJ
281
0.13 U
28.0 J
CL2-03-GW-01
L2-03
7/11/2001
46.17
None
Unfiltered
O'Brien & Gere
17.9
0.41 U
17.9
0.41 U
NA0.51
0.015 U
0.18 UJ
36.0
0.13 U
7.2 J
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-1 (cont.)GROUNDWATER WET CHEMISTRY ANALYTICAL RESULTSDRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 6 OF 11
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis (MG/L)
Alkalinity to pH 4.5
Alkalinity to pH 8.3
Bicarbonate
Carbonate (MG/L as Ca)
Dissolved Organic Carbon
Nitrate
Nitrite-N
Nitrogen, Ammonia
Sulfate
Total Phosphorus as PO4 water
Total Suspended Solids
CL2-03-GW-02
L2-03
7/11/2001
35.27
Field Dup. CL2-03-GW-02
Unfiltered
O'Brien & Gere
29.9
0.41 U
29.9
0.41 U
NA0.39
0.034 J
0.059 UJ
27.0
0.85 J
341
CL2-03-GW-0299L2-03
7/11/2001
35.27
Field Dup. CL2-03-GW-02
Unfiltered
O'Brien & Gere
30.1
0.41 U
30.1
0.41 U
NA0.39
0.015 J
0.19 UJ
30.0
0.18 J
261
CL2-03-GW-02-AVGL2-03
7/11/2001
35.27Field Dup. CL2-03-GW-02
UnfilteredO'Brien & Gere
30.0
0.41 U
30.0
0.41 U
NA0.39
0.024
0.059 UJ
29.0
0.52
300
CL2-05-GW-01 NSL2-05
7/11/2001
45.67
None
Unfiltered
O'Brien & Gere
77.7
0.41 U
77.7
0.41 U
NA0.040 U
0.090
11.3 J
15.0 U
0.45 J
167
CL2-05-GW-03
L2-05
7/11/2001
25.87
None
UnfilteredO'Brien & Gere
74.0
0.41 U
74.0
0.41 U
NA0.92
0.015 U
0.11 UJ
41.0
0.13 U
3.0 U
CW5-03-GW-01
W5-03
7/13/2001
47.15
None
Unfiltered
O'Brien & Gere
1140.41 U
1140.41 U
NA0.040 U
0.020 J
4.0 J
3230.45
8.4 J
CW5-03-GW-02RW5-03
7/13/2001
22.35Field Dup. CW5-03-GW-02R
UnfilteredO'Brien & Gere
448
0.41 U
448
0.41 U
NA
0.068 UJ
0.10
71.3 J
1700
0.95
86.0 J
CW5-03-GW-02R99W5-03
7/13/2001 -
22.35Field Dup. CW5-03-GW-02R
UnfilteredO'Brien & Gere
454
0.41 U
454
0.41 U
NA
0.069 UJ
0.099
61.5 J
1700
0.74
62.0 J
CW5-03-GW-02R-AVGW5-03
7/13/2001
22.35Field Dup. CW5-03-GW-02R
Unfiltered
O'Brien & Gere
450
0.41 U
450
0.41 U
NA
0.068 UJ
0.10
66.0
1700
0.84
•74.0
CW5-03-GW-03NSW5-03
7/23/2001
-2.15
None
UnfilteredO'Brien & Gere
479
0.41 U
479
0.41 U
NA
0.20 U
0.277
249
3210
0.35
200 J
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-1 (cont.)GROUNDWATER WET CHEMISTRY ANALYTICAL RESULTSDRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 7 OF 11
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis (MG/L)
Alkalinity to pH 4.5
Alkalinity to pH 8.3
Bicarbonate
Carbonate (MG/L as Ca)
Dissolved Organic Carbon
Nitrate
Nitrite-N
Nitrogen, Ammonia
Sulfate
Total Phosphorus as PO4 water
Total Suspended Solids
CW5-05-GW-02RW5-05
7/13/2001
25.03
None
UnfilteredO'Brien & Gere
10400
0.41 U
10400
0.41 U
NA0.13 U
0.057
2370 J
23.3
0.60
6.8 J
CW5-05-GW-03
W5-05
7/13/2001
6.18
None
UnfilteredO'Brien & Gere
4430
0.41 U
4430
0.41 U
NA0.29 U
0.037 J
616 J
2030
0.93
33.0 J
CW5-08-GW-01
W5-08
7/30/2001
52.39
None
UnfilteredO'Brien & Gere
45.8
0.41 U
45.8
0.41 U
NA0.040 U
0.021 J
1.418.2
0.13 U
6.8 J
P1-01-GW-01-041201P1-01
4/12/2001
45.62
None
UnfilteredO'Brien & Gere
1020.41 U
1020.41 U
NA0.30
0.015 UJ
1.97
8.30.13 J
3.0 U
P1-01-GW-01R
P1-01
7/27/2001
42.35
None
UnfilteredO'Brien & Gere
2450.41 U
2450.41 U
NA0.86
0.112
1.42
36.0
0.43
20.0
P1-01-GW-02
P1-01
4/12/2001
36.32
None
UnfilteredO'Brien & Gere
201-
0.41 U
2010.41 U
NA2.25
0.015 UJ
0.11 U
34.3
0.13 U
9.6 J
P1-01-GW-02R
P1-01
5/25/2001
31.35
None
UnfilteredO'Brien & Gere
4500.41 U
4500.41 U
NA5.36
0.015 U
0.040 U
97.0
0.25 J
24.0
P1-01-GW-03R
P1-01
7/20/2001
24.02
None
UnfilteredO'Brien & Gere
1770.41 U
1770.41 U
NA4.23
0.015 U
0.040 U
61.0
0.59
187
P1-01-GW-04R
P1-01
7/27/2001
13.45
None
UnfilteredO'Brien & Gere
61.9
0.41 U
61.90.41 U
NA2.84
0.015 U
0.049 J
39.0
0.13 U
3.0 U
P1-01-GW-05R
P1-01
8/1/2001
3.35Field Dup. P1-01-GW-05RUnfilteredO'Brien & Gere
55.8
0.41 U
55.8
0.41 U
NA0.040 U
0.033 J
0.043 J
57.0
0.38
15.0
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-1 (cont.)GROUNDWATER WET CHEMISTRY ANALYTICAL RESULTSDRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 8 OF 11
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
-iltered
3ata Source
Wet Chemistry Analysis (MG/L)
Alkalinity to pH 4.5
Alkalinity to pH 8.3
Bicarbonate
Carbonate (MG/L as Ca)
Dissolved Organic Carbon
Nitrate
Nitrite-N
Nitrogen, Ammonia
Sulfate
Total Phosphorus as PO4 water
Total Suspended Solids
P1-01-GW-05R99P1-01
8/1/2001
3.35Field Dup. P1-01-GW-05RUnfiltered
O'Brien & Gere
58.4
0.41 U
58.4
0.41 U
NA
0.040 U
0.034 J
0.059 J
56.0
0.37
20.0
P1-01-GW-05R-AVGP1-01
8/1/2001
3.35Field Dup. P1-01-GW-05RUnfiltered
O'Brien & Gere
57.0
0.41 U
57.0
0.41 U
NA
0.040 U
0.034
0.051
57.0
0.38
18.0
P1-01-GW-06NS-1 10701P1-01
11/7/2001
-5.15
None
UnfilteredO'Brien & Gere
61.7
0.41 U
61.7
0.41 U
14.2
0.040 U
0.034 J
0.30
2400 UJ
364
211000
P1-01-GW-07NS
P1-01
11/12/2001
-15.65
None
Unfiltered
O'Brien & Gere
33.8
0.41 U
33.8
0.41 U
5.4 U
0.16
0.015 U
0.16
48.0 UJ
26.2
480
P1-01-GW-08NS-111301P1-01
11/13/2001
-26.65
None
Unfiltered
O'Brien & Gere
64.9
0.41 U
64.9
0.41 U
7.2 U
0.20 U
0.015 U
0.27
75.0 U
36.2
2270 J
P1-02-GW-01
P1-02
7/20/2001
43.74
None
UnfilteredO'Brien & Gere
235
0.41 U
235
0.41 U
NA
0.040 U
0.021 . J
8.7
49.0
1.17
269
P1-02-GW-02
P1-02
5/25/2001
24.22
None
UnfilteredO'Brien & Gere
76.6
0.41 U
76.6
0.41 U
NA
0.040 U
0.015 U
19.5
39.0
0.59 J
104
P1-02-GW-03
P1-02
7/20/2001
13.52
None
UnfilteredO'Brien & Gere
45.3
0.41 U
45.3
0.41 U
NA
0.040 U
0.015 U
8.02
37.0
0.27
10.8 J
P1-02-GW-04
P1-02
7/30/2001
5.72Field Dup. P1-02-GW-04UnfilteredO'Brien & Gere
158
0.41 U
158
0.41 U
NA
0.047 J
0.015 U
0.28
38.0
0.17
14.0 J
P1-02-GW-0499P1-02
7/30/2001
5.72Field Dup. P1-02-GW-04UnfilteredO'Brien & Gere
160
0.41 U
160
0.41 U
NA
0.040 U
0.015 U
0.28
37.0
0.23
16.0 J
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-1 (cont.)GROUNDWATER WET CHEMISTRY ANALYTICAL RESULTSDRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 9 OF 11
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis (MG/L)
Alkalinity to pH 4.5
Alkalinity to pH 8.3
Bicarbonate
Carbonate (MG/L as Ca)
Dissolved Organic Carbon
Nitrate
Nitrite-N
Nitrogen, Ammonia
Sulfate
Total Phosphorus as PO4 water
Total Suspended Solids
P1-02-GW-04-AVGP1-02
7/30/2001
5.72
Field Dup. P1-02-GW-04
Unfiltered
O'Brien & Gere
1600.41 U
1600.41 U
NA0.034
0.015 U
0.28
38.0
0.20
15.0
P1-02-GW-05NS-1 10501P1-02
11/5/2001
-4.78
None
Unfiltered
O'Brien & Gere
147
0.41 U
147
0.41 U
5.3 U
0.040 U
0.037 J
1.13
1400 UJ
273
145000 J
P1-02-GW-06NS-1 10601P1-02
11/6/2001
-14.78
None
Unfiltered
O'Brien & Gere
148
0.41 U
148
0.41 U
5.9 U
0.040 U
0.028 J
1.15
2200 UJ
196
542000
P1-02-GW-07NSP1-02
11/8/2001
-22.28
None
Unfiltered
O'Brien & Gere
1340.41 U
1340.41 U
6.6 U
0.040 U
0.043 J
0.24
50.0 U
15.8
1910 J
P1-03-GW-01
P1-03
4/20/2001
46.8
None
Unfiltered
O'Brien & Gere
40.3
0.41 U
40.3
0.41 U
NA3.88
0.025 J
0.087 UJ
43.0
0.13 U
22.0
P1-03-GW-02
P1-03
4/20/2001
40.2
None
Unfiltered
O'Brien & Gere
57.0
0.41 U
57.0
0.41 U
NA6.64
0.015 U
0.079 UJ
86.0
0.25 J
30.0 U
P1-03-GW-03
P1-03
4/26/2001
29.2
None
Unfiltered
O'Brien & Gere
57.6
0.41 U
57.6
0.41 U
NA0.040 U
0.015 UJ
0.30 U
37.0
0.71
155
P1-03-GW-04
P1-03
4/26/2001
18.7
None
Unfiltered
O'Brien & Gere
1320.41 U
1320.41 U
NA0.040 U
0.015 UJ
0.11 U
56.0
0.35
80.0 J
P1-03-GW-05NSP1-03
5/16/2001 -
9.8
None
Unfiltered
O'Brien & Gere
85.1
0.41 U
85.1
0.41 U
NA0.040 U
0.020 J
0.74
1609.6
18700 '
P1-03-GW-06NS-051601
P1-03
5/16/2001
-0.3
None
Unfiltered
O'Brien & Gere
93.7
0.41 U
93.7
0.41 U
NA0.040 U
0.015 UJ
0.38
1500 J
121 '
826000
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-1 (cont.)GROUNDWATER WET CHEMISTRY ANALYTICAL RESULTSDRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 10 OF 11
Sample Number
Sample LocationDate SampledSample Elevation
QC Identifier
FilteredData Source
Wet Chemistry Analysis (MG/L)Alkalinity to pH 4.5Alkalinity to pH 8.3BicarbonateCarbonate (MG/L as Ca)Dissolved Organic Carbon
NitrateNitrite-NNitrogen, AmmoniaSulfateTotal Phosphorus as PO4 waterTotal Suspended Solids
P1-04-GW-01
P1-04
4/20/200154.84
None
UnfilteredO'Brien & Gere
13.80.41 U13.80.41 U
NA0.64
0.015 U0.3418.20.20 J26.0
P1-04-GW-02
P1-044/20/2001
44.84Field Dup. P1-04-GW-02UnfilteredO'Brien & Gere
1190.41 U119
0.41 UNA
0.15
0.015 U1.8147.00.13 U6.0 J
P1-04-GW-0299P1-044/20/200144.84Field Dup. P1-04-GW-02UnfilteredO'Brien & Gere
1190.41 U119
0.41 UNA
0.15
0.015 U1.8349.00.13 U5.2 J
P1-04-GW-02-AVGP1-044/20/200144.84Field Dup. P1-04-GW-02UnfilteredO'Brien & Gere
1200.41 U120
0.41 UNA
0.150.015 U
1.848.00.13 U5.6
P1-04-GW-03
P1-04
4/24/200135.94
None
UnfilteredO'Brien & Gere
48.00.41 U48.00.41 U
NA7.87
0.015 U0.072 UJ
21.00.13 U
3.2 J
P1-04-GW-04
P1-044/24/200123.84
None
UnfilteredO'Brien & Gere
59.00.41 U59.00.41 U
NA1.05
0.015 U0.065 UJ35.00.51 J159
P1-05-GW-01
P1-054/19/200139.76
Mone
UnfilteredO'Brien & Gere
40.20.41 U40.20.41 U
NA2.54
0.015 U0.22 U41.00.13 U
3.0 U
P1-05-GW-02
P1-054/19/200130.66
None
UnfilteredO'Brien & Gere
91.30.41 U91.30.41 U
NA0.24
0.015 U1.4628.40.13 U3.0 U
P1-05-GW-03
P1-054/25/200124.66
None
UnfilteredO'Brien & Gere
96.90.41 U96.90.41 U
NA0.042 J0.027 J
1.8625.00.13 U
3.0 U
P1-05-GW-04NSP1-054/26/200112.06
None
UnfilteredO'Brien & Gere
62.00.41 U62.00.41 U
NA0.29
0.028 J0.16 U33.026.44960
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-1 (cont.)GROUNDWATER WET CHEMISTRY ANALYTICAL RESULTSDRAFT FINAL TECHNICAL MEMORANDUMiNDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 11 OF 11
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis (MG/L)
Alkalinity to pH 4.5
Alkalinity to pH 8.3
Bicarbonate
Carbonate (MG/L as Ca)
Dissolved Organic Carbon
Nitrate
Nitrite-N
Nitrogen, Ammonia
Sulfate
Total Phosphorus as P04 water
Total Suspended Solids
P1-05-GW-05
P1-05
4/30/2001
-1.34
None
Unfiltered
O'Brien & Gere
94.8
0.41 U
94.8
0.41 U
NA1.5
0.038 J
0.071 UJ
30.0
0.37
52.0 J
P1-06-GW-01
P1-06
4/13/2001
48.12
None
Unfiltered
O'Brien & Gere
24.0
0.41 U
24.0
0.41 U
NA3.06
0.015 U
0.042 UJ
76.0
0.13 U
3.0 U
P1-06-GW-02
P1-06
4/13/2001
40.62
*Jone
Unfiltered
O'Brien & Gere
41.9
0.41 U
41.9
0.41 U
NA5.65
0.015 U
0.072 UJ
31.0
0.14 J
35.0
P1-06-GW-03
P1-06
4/13/2001
31.12
None
Unfiltered
O'Brien & Gere
14.5
0.41 U
14.5
0.41 U
NA3.98
0.015 U
0.39
11.7
0.13 U
18.0
P1-06-GW-04
P1-06
4/13/2001
21.12
None
Unfiltered
O'Brien & Gere
53.2
0.41 U
53.2
0.41 U
NA
3.07
0.015 U
0.088 UJ
19.4
0.13 U
5.6 „
P1-07-GW-01
P1-07
4/18/2001
49.82
Field Dup. P1-07-GW-01
Unfiltered
O'Brien & Gere
34.3
0.41 U
34.3
0.41 U
NA
1.68
0.015 U
.0.053 UJ
31.0
0.13 U
5.2 J
P1-07-GW-0199
P1-07
4/18/2001
49.82
Field Dup. P1-07-GW-01
Unfiltered
O'Brien & Gere
35.4
0.41 U
35.4
0.41 U
NA
1.64
0.015 U
0.052 UJ
17.5
0.13 U
3.6 .
P1-07-GW-01-AVGP1-07
4/18/2001
49.82
Field Dup. P1-07-GW-01
Unfiltered
O'Brien & Gere
35.0
0.41 U
35.0
0.41 U
NA1.7
0.015 U
0.053 UJ
24.0
0.13 U
4.4
P1-07-GW-02
P1-07
4/30/2001
41.82
\lone
Unfiltered
O'Brien & Gere
46.3
0.41 U
46.3
0.41 U
NA0.63
0.026 J
0.085 UJ
16.0
0.22
32.0 J
P1-07-GW-03NS-073101
P1-07
7/31/2001
33.32
Mone
Unfiltered
O'Brien & Gere
NANANA
NA
NA
NA
NA
0.078 J
NA
70.0
NA
RI051306DF
U - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-2NATURAL ATTENUATION STUDY - GROUNDWATER WET CHEMISTRY DATA
DRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITE
WOBURN, MASSACHUSETTS
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORP
PHTemperature
Turbidity
Units
MG/LASCA
MS/CM
MG/L
MG/L
MG/L
MG/L
MV
S.U.
•cNTU
A01-1-101499
A01
10/14/1999
53.58
None
Unfiltered
Robert Ford(EPA)
NM
3470
NA
NA
NM
63.7
-140
6.62
NR>
A01-2-101599
A01
10/15/1999
44.58
None
Unfiltered
Robert Ford(EPA)
NM
NM
NA
NA
NM
22.4
NA
NM
NR
NM
A02-1-101499
A02
10/14/1999
61.2
None
Unfiltered
Robert Ford(EPA)
1035
2870
NA
0.29
16.4
79.3
-119.1
6.7
NR
77.0
A03-1-101599
A03
10/15/1999
65.13
None
Unfiltered
Robert Ford(EPA)
273
2090
0.30
0.55
2.91
1.9
-39.5
6.61
NR
78.0
A03-2-101599
A03
10/15/1999
55.13
None
Unfiltered
Robert Ford(EPA)
159
818
0.30
0.36
2.93
1.6
-55.7
6.66
NR
43.0
A04-1-101599
A04
10/15/1999
59.21
None
Unfiltered
Robert Ford(EPA)
431
1345
0.040
0.14
2.14
18.8
-140.1
6.92
NR
40.0
A04-2-101599
A04
10/15/1999
49.46
None
Unfiltered
Robert Ford(EPA)
NM
NM
NA
NA
5.35
6.0
NA
NM
NR
NM
A04-3-101599
A04
10/15/1999
41.71
None
Unfiltered
Robert Ford(EPA)
233
NM
NA
NA
2.27
1.5
NA
NM
NR
NM
A05-1-101599
A05
10/15/1999
65.25
None
Unfiltered
Robert Ford(EPA)
452
1330
NA
0.14
2.54
3.4
-137.2
6.72
NR
5.1-
A06-1-101899
A06
10/18/1999
62.19
None
Unfiltered
Robert Ford(EPA)
738
2270
0.10
0.20
1.69
8.6
-148.1
7.27
NR
20.9
A06-2-101899
A06
10/18/1999
52.19
None
Unfiltered
Robert Ford(EPA)
409
1656
0.20
0.19
1.16
3.5
-7.1
6.26
NR
101
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
i
TABLE 2-2 (cont.)NATURAL ATTENUATION STUDY - GROUNDWATER WET CHEMISTRY DATADRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 2 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORP
PHTemperature
Turbidity
A07-1-101899
A07
10/18/1999
64.17
None
Unfiltered
Robert Ford(EPA)
194
854
0.040
0.58
1.73
0.80
14.4
6.03
NR
70
A07-2-101899
A07
10/18/1999
54.17
None
Unfiltered
Robert Ford(EPA)
148
974
NA
0.63
1.49
0.20
-83.7
6.39
NR
201
A08-1-101999
A08
10/19/1999
47.58
None
Unfiltered
Robert Ford(EPA)
79.0
296
0.40
0.53
2.89
0.90
-33.6
6.72
7.5
2.9
A08-2-101999
A08
10/19/1999
37.58
None
Unfiltered
Robert Ford(EPA)
240
730
0.020
0.92
1.75
1.3
-47.36.578.1
75.3
A08-3-101999
A08
10/19/1999
17.58
None
Unfiltered
Robert Ford(EPA)
1500
5560
NA
NA
8.551
96.4
-116.5
7.07
NR>
A09-1-101999
A09
10/19/1999
43.55
None
Unfiltered
Robert Ford(EPA)
43.0
308
0.30
0.34
0.84
0.80
40.36.14
NR
6.5
A09-2-101999
A09
10/19/1999
33.55
None
Unfiltered
Robert Ford(EPA)
184NM
NA
NA
2.551
10.7
NANM
11.4
NM
A10-2-102099
A10
10/20/1999
35.99
None
Unfiltered
Robert Ford(EPA)
144
5250
0.35
0.34
1.93
235.7
-195
7.14
11.1
7.3
A10-3-102099
A10
10/20/1999
25.99
None
Unfiltered
Robert Ford(EPA)
6460
13220
0.35
0.050
1.56
810.1
-260
7.51
11.6
8.9
A1 1-1-102099
A11
10/20/1999 -
45.49
None
Unfiltered
Robert Ford(EPA)
302
1046
0.40
0.25
1.43
8.8
-76.7
6.68
NR
2.5
A1 1-2-102099
A11
10/20/1999
35.49
None
Unfiltered
Robert Ford(EPA)
6350
11620
0.10
0.19
0.41
709.3
-155.4
7.8NR
50.0
A1 1-3-102099
A11
10/20/1999
25.49
None
Unfiltered
Robert Ford(EPA)
2100
11220
0.50
0.060
1.48
77.7-73.8
7.79NR
46.1
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-2 (cont.)NATURAL ATTENUATION STUDY - GROUNDWATER WET CHEMISTRY DATADRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 3 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
-iltered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
-errous Iron
Nitrogen, Ammonia
ORP
pH
Temperature
Turbidity
A12-1-102099
A12
10/20/1999
45.44
None
Unfiltered
Robert Ford(EPA)
236
1456
0.15
NA
1.99
16.3
-34
6.19
12.8
277
A12-2-102199
A12
10/21/1999
35.44
None
Unfiltered
Robert Ford(EPA)
404
3310
0.15
0.13
126
14.6
-116
6.37
11.9
195
A1 2-3-1 021 99
A12
10/21/1999
25.44
None
Unfiltered
Robert Ford(EPA)
456
3590
0.10
0.020
15.1
18.6
-102
6.58
12.6
52.3
A1 3-1 -102099
A13
10/20/1999
48.49
None
Unfiltered
Robert Ford(EPA)
65.0
242
0.15
0.42
1.24
1 142.6
-18.5
6.88
NR
9.6
A1 3-2-1 02099
A13
10/20/1999
38.49
^Jone
Unfiltered
Robert Ford(EPA)
12080
21500
0.10
0.040
0.80
1141.8
-237.4
8.04
NR
181
A1 3-4-1 02099
A13
10/20/1999
10.99
None
Unfiltered
Robert Ford(EPA)
NM
NM
NA
NA
NM
244.2
NA
NM
NR
NM
A14-1-113099
A14
11/30/1999
54.75
None
Unfiltered
Robert Ford(EPA)
_
130
524
0.15
0.39
8.75
3.4
1.9
5.56
5.2
2.9
A18-1-120299
A18
12/2/1999
30
Field Dup. A18-1-120299
Unfiltered
Robert Ford(EPA)
53.0
628
0.50
1.56
3.6
1.2
58.4
6.27
13.0
50.4
A20-1 -032800
A20
3/28/2000
44
None
Unfiltered
Robert Ford(EPA)
130
428
NA
0.080
12.2
2.0
-430
6.47
11.9
2.2
A20-2-032800
A20
3/28/2000
39
None
Unfiltered
Robert Ford(EPA)
88.0
880
NA
0.10
2.1
0.90
-470
6.21
12.4
2.5
A21 -1-033000
A21
3/30/2000
65.07~
Mone
Unfiltered
Robert Ford(EPA)
NM
264
NA
0.99
12.8
0.80
NA
6.62
13.4
3.4
RI051306DF
U - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-2 (cont.)NATURAL ATTENUATION STUDY - GROUNDWATER WET CHEMISTRY DATADRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 4 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORP
PHTemperature
Turbidity
A21-2-033000
A21
3/30/2000
57.07
None
Unfiltered
Robert Ford(EPA)
NM
1464
0.20
0.22
3.0
77.7
NA
6.88
10.2
6.3
A22-1-033100
A22
3/31/2000
64.38
None
Unfiltered
Robert Ford(EPA)
44.0
1315
0.30
3.38
15.5
9.8
125.6
5.53
13.5
2.8
A22-2-033100
A22
3/31/2000
59.38
None
Unfiltered
Robert Ford(EPA)
240
1112
0.20
0.68
18.4
31.7
25.7
6.24
11.8
4.7
A23-1-033100
A23
3/31/2000
64.28
None
Unfiltered
Robert Ford(EPA)
ND
1327
0.40
0.24
13.5
2.2
141.8
4.64
13.7
ND
A23-2-040300
A23
4/3/2000
57.28
None
Unfiltered
Robert Ford(EPA)
48.0
NM
NA
NA
21.5
2.2
NA
NM
NM
NM
Atlantic Ave.
Atlantic Ave.Drainway
4/5/2000
None
Unfiltered
Robert Ford(EPA)
50.0
NM
7.0
NA
0.035 U
0.10
95.07.14
11.1
NM
TW01-032900
TW01
3/29/2000
None
Unfiltered
Robert Ford(EPA)
4160
12660
NA
0.11
NM
874
-161
ND
11.1
6.2
TW01 -040301
TW01
4/3/2001
39
None
Unfiltered
Robert Ford(EPA)
5360
134100.30
0.27
30.75
1090-149.9
7.02
7.4
1.6
TW01-051700
TW01
5/17/2000
None
Unfiltered
Robert Ford(EPA)
5948
13430
0.60
0.020
12.5
1065
-214
7.2614.1
1.9
TW01-082300
TW01
8/23/2000 -
None
Unfiltered
Robert Ford(EPA)
7628
14820
0.20
4.88
2.35
897
-273
7.26
20.72.2
TW01-091101
TW01
9/11/2001
None
Unfiltered
Robert Ford(EPA)
7308
14770
NA
0.18
5.3
1380
-187
7.37
23.7
2.7
Ri051306DFU - Not detected; U J - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-2 (cont.)NATURAL ATTENUATION STUDY - GROUNDWATER WET CHEMISTRY DATADRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 5 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORP
PHTemperature
Turbidity
TW02-032901
TW02
3/29/2001
34
None
Unfiltered
Robert Ford(EPA)
4080
8410
NA
0.40
0.10
1110
-137.6
7.67
8.6
2.0
TW02-040600
TW02
4/6/2000
None
Unfiltered
Robert Ford(EPA)
4030
9200
0.30
0.11
0.080
1260
-277.1
7.56
8.1
2.6
TW02-051600
TW02
5/16/2000
None
Unfiltered
Robert Ford(EPA)
4530
8850
0.10
0.020
0.15
1191
-265
7.72
16.8
1.3
TW02-082300
TW02
6/23/2000
None
Unfiltered
Robert Ford(EPA)
4440
9170
0.10
0.39
0.11
1170
-314.6
7.44
17.9
1.2
TW02-091 101
TW02
9/11/2001
None
Unfiltered
Robert Ford(EPA)
4072
8630
0.30
0.14
0.14
1180
-234
7.39
21.8
2.0
TW03-032900
TWOS
3/29/2000
35
None
Unfiltered
Robert Ford(EPA)
206
1266
0.60
0.54
ND
37.9
267
6.06
13.8
1.4
TW03-051600
TW03
5/16/2000
None
Unfiltered
Robert Ford(EPA)
_
210
1191
0.80
0.46
0.080
41.3
168.5
5.95
16.6
1.0
TW03-082200
TWOS
8/22/2000
None
Unfiltered
Robert Ford(EPA)
210
989
NA
0.46
0.030
37.9
NA
5.97
21.4-
3.7
TW04-032900
TW04
3/29/2000
None
Unfiltered
Robert Ford(EPA)
24.0
2240
NA
0.69
11.2
2.522.0
5.94
10.9
0.90
TW04-032901
TW04
3/29/2001
34
None
Unfiltered
Robert Ford(EPA)
122
2140
NA
1.19
3.06
1.9-13
6.73
7.5
1.4
TW04-051600
TW04
5/16/2000—
None
Unfiltered
Robert Ford(EPA)
94.0
2110
NA
0.18
19.6
2.5-17
6.19
15.4
0.40
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-2 (cont.)NATURAL ATTENUATION STUDY - GROUNDWATER WET CHEMISTRY DATADRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 6 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORP
PHTemperature
Turbidity
TW04-082300
TW04
8/23/2000
None
Unfiltered
Robert Ford(EPA)
152
2230
NA
0.85
2.44
2.3
-243.5
6.13
18.7
0.80
TW04-091101
TW04
9/11/2001
None
Unfiltered
Robert Ford(EPA)
122
2170
NA
0.87
25.2
11.7
-114
6.13
22.8
1.0
TW05-051700
TWOS
5/17/2000
37
None
Unfiltered
Robert Ford(EPA)
69.0
6180
0.60
0.39
158.75
8.0
100
5.22
14.1
2.0
TW05-082300
TW05
8/23/2000
None
Unfiltered
Robert Ford(EPA)
74.0
7000
0.60
0.70
148
8.2
-162.3
5.12
18.9
1.5
TW05-091301
TWOS
9/13/2001
Field Dup. TW05-091301
Unfiltered
Robert Ford(EPA)
156
6530
NA
0.54
100.5
8.5
70.2
5.64
19.7
1.0
TW06-1-040500
TW06
4/5/2000
43.8
None
Unfiltered
Robert Ford(EPA)
67.0
477
NA
0.97
0.60
0.50
130.8
6.44
13.1
31.0
TW06-1-082200
TW06
8/22/2000
None
Unfiltered
Robert Ford(EPA)
-
76.0
578
0.80
0.17
0.48
1.0
130.8
6.15
21.9
10.2
TW06-2-051600
TW06
5/16/2000
None
Unfiltered
Robert Ford(EPA)
NM
430
0.30
0.25
NA
1.2
271
5.83
14.1
0.30
TW06-2-082200
TW06
8/22/2000
None
Unfiltered
Robert Ford(EPA)
37.5
136
0.80
2.07
0.010
1.3
260
5.83
20.5
1.7
TW06-3-040500
TW06
4/5/2000
33.55
None
Unfiltered
Robert Ford(EPA)
22.0
921
0.30
1.12
1.48
7.4
210.1
5.04
9.8
35.1
TW06-3-051600
TW06
5/16/2000
None
Unfiltered
Robert Ford(EPA)
32.0
944
0.20
0.15
1.37
8.4
195
5.25
13.7
0.70
RI051306DF
U - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-2 (cont.)NATURAL ATTENUATION STUDY - GROUNDWATER WET CHEMISTRY DATADRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 7 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORP
PHTemperature
Turbidity
TW06-3-082200
TW06
8/22/2000
None
Unfiltered
Robert Ford(EPA)
32.4
1019
0.80
NA
0.31
9.0
224.5
5.21
18.6
1.3
TW07-1-032901
TWO?
3/29/2001 -
43.74
Field Dup.TW07-1-032901
Unfiltered
Robert Ford(EPA)
136
1172
0.40
0.83
25.5
5.2
54.2
5.99
8.5
1.0
TW07-1 -040400
TW07
4/4/2000
None
Unfiltered
Robert Ford(EPA)
142
1151
0.060
0.28
16.6
5.6
44.2
6.16
13.1
1.1
TW07-1-051600
TW07
5/16/2000
None
Unfiltered
Robert Ford(EPA)
126
1283
NA
0.31
17.0
4.9
9.1
5.72
16.0
5.0
TW07-1 -082300
TW07
8/23/2000
None
Unfiltered
Robert Ford(EPA)
68.0
1374
0.10
0.66
14.1
5.3
-225.3
5.9
15.7
1.7
TW07-1-091101
TWQ7
9/11/2001
Field Dup. TW07-1-091101
Unfiltered
Robert Ford(EPA)
1061101
NA
0.86
15.9
7.4
56.0
5.65
17.6
3.7
TW07-2-032901
TW07
3/29/2001
40.99
None
Unfiltered
Robert Ford(EPA)
188
570
0.30
0.73
14.0
7.2
38.0
6.23
7.6
1.73
TW07-2-040500
TW07
4/5/2000
None
Unfiltered
Robert Ford(EPA)
114
1293
0.10
0.19
16.1
4.1
86.1
5.9
12.0
0.70
TW07-2-051600
TW07
5/16/2000
None
Unfiltered
Robert Ford(EPA)
122
940
0.10
0.060
15.6
5.5
-24.5
5.82
13.8
2.0
TW07-2-082300
TW07
8/23/2000
None
Unfiltered
Robert Ford(EPA)
208
1246
0.050
0.40
29.5
5.7
-258.8
6.07
17.1
0.90
TW07-2-091101
TW07
9/1 1/2001
None
Unfiltered
Robert Ford(EPA)
220749
NA
0.80
47.5
27.5
-33.6
5.9
18.8
0.60
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-2 (cont.)NATURAL ATTENUATION STUDY • GROUNDWATER WET CHEMISTRY DATADRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 8 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
-errous Iron
Nitrogen, Ammonia
ORP
PHTemperature
Turbidity
TW07-3-032901
TW07
3/29/2001
35.99
None
Unfiltered
Robert Ford(EPA)
1841919
0.10
0.80
57.0
18.2
7.96.14
9.71 48
TW07-3-040500
TW07
4/5/2000
None
Unfiltered
Robert Ford(EPA)
170
2150
0.050
0.17
26.6
14.9
-218.9
6.03
11.8
1.6
TW07-3-051600
TW07
5/16/2000
None
Unfiltered
Robert Ford(EPA)
146
2130
0.40
0.28
27.2
16.5
-53.1
5.86
15.3
3.0
TW07-3-082300
TW07
8/23/2000
None
Unfiltered
Robert Ford(EPA)
72.0
2220
0.050
0.40
21.1
19.3
-238.9
6.04
15.6
1.5
TW07-3-091101
TW07
9/11/2001
Field Dup. TW07-3-091101
Unfiltered
Robert Ford(EPA)
122
2270
NA
0.40
12.9
8.7
-62.9
5.73
17.8
1.5
TW08-1 -040301
TWOS
4/3/2001
47.5
None
Unfiltered
Robert Ford(EPA)
1292
3260
0.40
0.74
0.28
405
-62.8
8.02
8.3
1.25
TW08-1 -040600
TWOS
4/6/2000
None
Unfiltered
Robert Ford(EPA)
2735
6.2
0.40
0.35
0.28
722
-262.7
8.02
6.7
13.4
TW08-1-051700
TW08
5/17/2000
None
Unfiltered
Robert Ford(EPA)
3060
6240
0.30
0.080
0.36
851
-215.6
7.82
15.5
5.0
TW08-1 -082300
TWOS
8/23/2000
None
Unfiltered
Robert Ford(EPA)
284
6600
NA
0.29
0.32
916
-287
7.8
20.6
2.9
TW08-1-091001
TWOS
9/10/2001
Field Dup.TW08-1-091001
Unfiltered
Robert Ford(EPA)
2592
5730
0.30
0.20
1.57
797
-302.6
7.66
21.3
0.80
TW08-2-051700
TWOS
5/17/2000
None
Unfiltered
Robert Ford(EPA)
3.0
58.0
NA
7.08
0.020
2.4
293.1
5.33
14.3
1.0
RI051306DF
U - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-2 (cont.)NATURAL ATTENUATION STUDY - GROUNDWATER WET CHEMISTRY DATADRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 9 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)rerrous Iron
Nitrogen, Ammonia
ORP
pH
Temperature
Turbidity
TW08-3-040301
TWOS
4/3/2001
38
None
Unfiltered
Robert Ford(EPA)
3448
11840
0.20
0.29
25.4
303
-156.1
6.73
9.8
4.8
TW08-3-040600
TW08
4/6/2000
None
Unfiltered
Robert Ford(EPA)
2540
11070
0.30
0.22
2.41
229
-196.3
6.7
8.1
97.0
TW08-3-051700
TWOS
5/17/2000
None
Unfiltered
Robert Ford(EPA)
3232
11160
0.30
0.16
26.4
220
-204.9
6.63
15.9
29.0
TW08-3-082300
TW08
8/23/2000
None
Unfiltered
Robert Ford(EPA)
3496
11530
0.60
25.1
27.5
276
-154
6.78
22.1
8.1
TW08-3-091001
TWOS
9/10/2001
None
Unfiltered
Robert Ford(EPA)
3418
11820
0.20
0.54
23.1
365
-105.9
6.78
21.3
7.0
TW10-1-040201
TW10
4/2/2001
54.17
None
Unfiltered
Robert Ford(EPA)
-
33.0
210
0.40
0.42
2.42
0.90
-24.1
6.72
4.2
2.5
TW10-1-051600
TW10
5/16/2000
None
Unfiltered
Robert Ford(EPA)
134
474
0.20
0.13
3.14
2.3
-212.2
6.65
14.8
29.1
TW1 0-1 -082200
TW10
8/22/2000
None
Unfiltered
Robert Ford(EPA)
110
400
0.20
11.22
4.0
2.0
-281.5
6.45
22.0
0.50
TW10-1-091201
TW10
9/12/2001
-ield Dup.TW10-1-091201
Unfiltered
Robert Ford(EPA)
156
446
0.30
0.64
4.2
0.40
-139.5
6.67
21.5
0.40
TW10-2-040201
TW10
4/2/2001
49.17
None
Unfiltered
Robert Ford(EPA)
178
1362
0.20
0.61
21.4
18.0
21.3
6.38
4.9
12.5
TW10-2-051600
TW10
5/16/2000
None
Unfiltered
Robert Ford(EPA)
204
1504
0.30
0.27
14.2
26.8
-107.3
6.12
15.4
37.0
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-2 (cont.)NATURAL ATTENUATION STUDY - GROUNDWATER WET CHEMISTRY DATADRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 10 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORP
PHTemperature
Turbidity
TW10-2-082200
TW10
8/22/2000
None
Unfiltered
Robert Ford(EPA)
210
1523
0.60
5.04
11.3
24.8
-253.7
6.04
20.8
1.6
TW10-2-091201
TW10
9/12/2001
Field Dup. TW10-2-091201
Unfiltered
Robert Ford(EPA)
204
1445
0.20
0.25
20.927.4
-119
6.25
21.2
1.8
TW10-3-040201
TW10
4/2/200144.17
None
Unfiltered
Robert Ford(EPA)
260
1673
0.40
0.68
21.0
31.4
-133.6
6.46
6.6
3.4
TW10-3-051600
TW10
5/16/2000
None
Unfiltered
Robert Ford(EPA)
272
1705
0.20
0.18
15.5
35.2
-117.9
6.24
16.2
9.0
TW10-3-082200
TW10
8/22/2000
None
Unfiltered
Robert Ford(EPA)
288
1740
0.40
6.69
13.6
34.8
-285.1
6.26
19.0
1.8
TW10-3-091201
TW10
9/12/2001
-ield Dup.TW10-3-091201
Unfiltered
Robert Ford(EPA)
208
1624
0.40
0.33
20.4
33.8
-104.1
6.25
22.2
5.4
TW1 1-083000
TW11
8/30/2000
45.5
None
Unfiltered
Robert Ford(EPA)
-
77.0
968
0.20
0.60
0.43
1.5
153
6.14
17.7
14.6
TW12-1-083000
TW12
8/30/2000
45.5
None
Unfiltered
Robert Ford(EPA)
170
1002
0.0500.14
3.3
0.10-302
6.28
20.1
35.2
TW12-2-083000
TW12
8/30/2000
40.5
None
Unfiltered
Robert Ford(EPA)
126
1054
0.20
0.220.58
0.20
-249
6.25
20.1
6.7
TW13-083000
TW13
8/30/2000
45.5
None
Unfiltered
Robert Ford(EPA)
56.0
686NA
0.21
2.9
1.5-273
6.2822.4
6.0
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R • Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-3NATURAL ATTENUATION STUDY - SURFACE WATER WET CHEMISTRY DATA
DRAFT FINAL TECHNICIAL MEMORANDUMINDUSTRI-PLEX SITE
WOBURN, MASSACHUSETTS
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORP
PHTemperature
Turbidity
Units
MG/LASCA
MS/CM
MG/L
MG/L
MG/L
MG/L
MV
S.U.
°C
NTU
Atlantic Ave.Drainway-040501Atlantic Ave.Drainway
4/5/2001
0
None
Unfiltered
Robert Ford(EPA)
NA
NA
NA
NA
NA
2.2
NA
NA
NA
NA
Atlantic Ave.Drainway-092004Atlantic Ave.Drainway
9/20/2004
0
None
Unfiltered
Robert Ford(EPA)
NANANANANA
0.70
NANANANA
Hall's Brook Inlet-092004Hall's Brook Inlet
9/20/2004
0
None
Unfiltered
Robert Ford(EPA)
NANANANANA
3.3NANANANA
Hall's Brook Inlet-040500Hall's Brook Inlet
4/5/2000
None
UnfilteredRobert Ford(EPA)
64.0
383
6.8
11.5
0.504
5.2
273.3
7.93
11.5
NM
Hall's Brook Inlet-040501Hall's Brook Inlet
4/5/2001
None
Unfiltered
Robert Ford(EPA)
NM
668
6.5
NA
0.272
5.5
168.9
6.86
11.0
NM
Hall's Brook Inlet-051800Hall's Brook Inlet
5/18/2000
None
UnfilteredRobert Ford(EPA)
78.8
555
NA
7.74
0.914
7.8
231
7.44
14.0
NM
Hall's Brook Inlet-083000Hall's Brook Inlet
8/30/2000
None
Unfiltered
Robert Ford(EPA)
106
548
4.0
4.03
NM
7.6
264
7.22
19.4
9.6
Hall's Brook Inlet-091601Hall's Brook Inlet
9/16/2001
None
UnfilteredRobert Ford(EPA)
66.2
593
NA
6.63
0.176
4.1
353.6
6.97
15.1
3.5
HBHA PondOutlet-040500HBHA PondOutlet
4/5/2000
None
Unfiltered
Robert Ford(EPA)
80.0
320
6.1
NA
0.727
7.4
68.1
6.7
12.0
NM
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-3 (cont.)NATURAL ATTENUATION STUDY - SURFACE WATER WET CHEMISTRY DATADRAFT FINAL TECHNICIAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 2 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORP
PHTemperature
Turbidity
HBHA PondOutlet-040501HBHA PondOutlet
4/5/2001
None
Unfiltered
Robert Ford(EPA)
NM
710
5.5
NA
1.4
6.9
78.6
6.76
10.9
NM
HBHA PondOutlet-051800HBHA PondOutlet
5/18/2000
None
UnfilteredRobert Ford(EPA)
81.6
544
NA
7.67
1.317
8.0
216
7.14
16.0
NM
HBHA PondOutlet-083000HBHA PondOutlet
8/30/2000
None
UnfilteredRobert Ford(EPA)
NM
760
NA
5.38
0.069
16.0
277
6.95
22.6
9.4
HBHA PondOutlet-091601HBHA PondOutlet
9/16/2001
None
UnfilteredRobert Ford(EPA)
115.6
799
NA
7.6
0.117
17.2
374.7
6.73
21.6
9.1
HBHA PondOutlet-092004HBHA PondOutlet
9/20/2004
0
None
UnfilteredRobert Ford(EPA)
NA
NA
NA
NA
NA
4.0
NA
NA
NA
NA
WC1 00-040201
WC100
4/2/2001
*Jone
Unfiltered
Robert Ford(EPA)
-
45.2
574
4.0
NA
0.20
5.3
177.1
5.23
4.5
4.3
WC100-040400
WC100
4/4/2000
None
UnfilteredRobert Ford(EPA)
74.0
419
NA
7.2
0.25
7.3
47.1
6.98
11.46
7.8
WC1 00-082500
WC100
8/25/2000
None
UnfilteredRobert Ford(EPA)
136
619NA
3.13
0.010
15.2
35.8
7.39
19.23
11.5
WC100-091701
WC100
9/17/2001
None
UnfilteredRobert Ford(EPA)
132
793
NA
6.4
0.020
17.9
217.8
6.56
16.3
9.5
WC100-1 13099
WC100
11/30/1999
Field Dup.WC100-1 13099UnfilteredRobert Ford(EPA)
84.0
275
3.0
3.24
NA
9.34
80.0
6.31
7.08
8.2
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-3 (cont.)NATURAL ATTENUATION STUDY - SURFACE WATER WET CHEMISTRY DATADRAFT FINAL TECHNICIAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 3 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORPpH
Temperature
Turbidity
WC150-040201
WC150
4/2/2001
None
Unfiltered
Robert Ford(EPA)
45.8
4934.0
NA
0.10
4.8
149.9
5.03
4.8
4.0
WC 150-040400
WC150
4/4/2000
Field Dup.WC150-040400Unfiltered
Robert Ford(EPA)
72.0
419NA
6.4
0.35
7.3
49.1
6.97
11.52
7.9
WC1 50-082500
WC150
8/25/2000
None
Unfiltered
Robert Ford(EPA)
2641071
NA4.6
0.030
44.0
-13.1
7.35
17.74
27.9
WC150-091701
WC150
9/17/2001
None
UnfilteredRobert Ford(EPA)
266
1203
NA
1.25
7.4
44.8
65.5
6.33
16.5
44.9
WC1 50-1 13099
WC150
11/30/1999
None
Unfiltered
Robert Ford(EPA)
72.0
276
3.0
3.07
NA
9.86
80.4
6.32
7.11
8.2
WC200-040201
WC200
4/2/2001
None
UnfilteredRobert Ford(EPA)
44.0
505
4.0
NA
0.10
5.1 .
73.5
5.82
4.9
4.0
WC200-040400
WC200
4/4/2000
None
UnfilteredRobert Ford(EPA)
90.0
438
NA
4.7
0.85
24.1
45.9
6.81
11.05
17.2
WC200-082500
WC200
8/25/2000
None
Unfiltered
Robert Ford(EPA)
748
2054
NA
0.14
17.4
61.0
-106.9
7.76
15.23
110
WC200-091701WC200
9/17/2001
None
Unfiltered
Robert Ford(EPA)
512
1959
0.10
1.89
21.0
79.6
-56
6.42
16.5
13.5
WC200-1 13099
WC200
11/30/1999
Field Dup.WC200-1 13099
UnfilteredRobert Ford(EPA)
236688
1.0
1.05
0.010
33.6
52.3
6.12
8.05
8.1
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-3 (cont.)NATURAL ATTENUATION STUDY - SURFACE WATER WET CHEMISTRY DATADRAFT FINAL TECHNICIAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 4 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode):errous Iron
Nitrogen, Ammonia
ORPpHTemperature
Turbidity
WC250-040201
WC250
4/2/2001
None
UnfilteredRobert Ford(EPA)
47.6
4864.0
NA
0.10
5.145.0
6.29
4.84.0
WC250-040400
WC250
4/4/2000
None
UnfilteredRobert Ford(EPA)
150693
NA2.91.38.0
48.3
6.59.95
32.7
WC250-082500
WC250
8/25/2000
None
UnfilteredRobert Ford(EPA)
8322462
0.20
0.10
45.4
119-159
8.02
15.23
43.3
WC250-091701
WC250
9/17/2001
None
UnfilteredRobert Ford(EPA)
7502644
NA1.98
46.25
115-128.9
6.616.0
13.5
WC275-040400
WC275
4/4/2000
None
UnfilteredRobert Ford(EPA)
194901
NA0.50
1.227.3
20.5
6.58
9.95
22.7
WC300-040201
WC300
4/2/2001
None
UnfilteredRobert Ford(EPA)
45.6
4743.5
NA0.20
5.231.1
6.53
4.94.3
WC300-091701
WC300
9/17/2001
None
UnfilteredRobert Ford(EPA)
9023075
NA2.0
54.25
151-151.5
6.57
15.7
13.2
WC50-040201
WC50
4/2/2001
None
UnfilteredRobert Ford(EPA)
46.2
6404.0
NA0.20
5.0155.7
5.14.04.3
WC50-040400
WC50
4/4/2000
None
UnfilteredRobert Ford(EPA)
66.0
418NA
7.00.45
7.648.2
7.03
11.39
9.7
WC50-082500
WC50
8/25/2000
None
UnfilteredRobert Ford(EPA)
142592
NA4.33
0.010
14.8
44.1
7.52
22.26
16.8
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-3 (cont.)NATURAL ATTENUATION STUDY - SURFACE WATER WET CHEMISTRY DATADRAFT FINAL TECHNICIAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 5 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORPpHTemperature
Turbidity
WC50-091701
WC50
9/17/2001
None
UnfilteredRobert Ford(EPA)
100
785
NA
6.93
0.010
16.4
219.4
6.58
16.4
8.8
WC50-1 13099
WC50
11/30/1999
None
UnfilteredRobert Ford(EPA)
72.0
274
3.03.29
0.030
9.36
80.4
6.34
7.07
10.2
WN100-040201
WN100
4/2/2001
None
UnfilteredRobert Ford(EPA)
52.7
7404.0
NA0.60
5.576.2
6.13
4.1
4.6
WN100-040400
WN100
4/4/2000
None
UnfilteredRobert Ford(EPA)
78.0
413NA
7.00.45
7.4132.3
6.95
10.82
9.8
WN100-082500
WN100
8/25/2000
None
UnfilteredRobert Ford(EPA)
141644
NA
2.77
0.99
14.7
33.3
7.28
18.54
14.5
WN100-113099
WN100
11/30/1999
None
UnfilteredRobert Ford(EPA)
70.0
279
3.0
3.58
0.020
9.87
103.2
6.32
7.14
7.9
WN150-040201
WN150
4/2/2001
None
Unfiltered
Robert Ford(EPA)
53.7
758
5.0
NA
0.60
6.0
75.7
6.16
4.1
4.0
WN1 50-040400
WN150
4/4/2000
None
UnfilteredRobert Ford(EPA)
80.0
415
NA
6.8
0.65
7.5
85.1
7.02
10.87
8.1
WN1 50-082500
WN150
8/25/2000
None
UnfilteredRobert Ford(EPA)
128
832
NA
2.01
2.16
15.5
15.5
7.16
17.76
35.6
WN150-1 13099
WN150
11/30/1999
None
UnfilteredRobert Ford(EPA)
130
331
3.0
2.89NA
17.0
101.1
6.22
7.29
16.2
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-3 (cont.)NATURAL ATTENUATION STUDY - SURFACE WATER WET CHEMISTRY DATADRAFT FINAL TECHNICIAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 6 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Altered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORP
PHTemperature
Turbidity
WN1 75-040400
WN175
4/4/2000
None
UnfilteredRobert Ford(EPA)
NM
420
NA
6.7
0.35
8.2
72.3
7.04
10.87
8.1
WN180-082500
WN180
8/25/2000
None
UnfilteredRobert Ford(EPA)
444
1544
0.30
0.13
9.7
68.8
-66.4
7.37
15.29
136
WN200-040201
WN200
4/2/2001
None
UnfilteredRobert FordJEPA)
53.7
758
4.0
NA
0.60
6.4
74.6
6.16
4.1
4.2
WN200-040400
WN200
4/4/2000
Field Dup.WN200-040400UnfilteredRobert Ford(EPA)
82.0
426
NA
6.7
0.50
8.0
78.3
7.05
10.89
7.7
WN200-082500
WN200
8/25/2000
None
UnfilteredRobert Ford(EPA)
682
1527
0.20
0.090
2.12
132
-44.6
7.2
14.28
55.2
WN200-1 13099
WN200
11/30/1999
None
UnfilteredRobert Ford(EPA)
-
254
800
1.0
1.45
0.050
42.5
48.0
6.08
9.44
47.3
WN225-040400
WN225
4/4/2000
vlone
UnfilteredRobert Ford(EPA)
78.0
452
NA
3.5
0.90
8.4
48.0
6.96
10.91
7.8
WN250-040201
WN250
4/2/2001
Mone
UnfilteredRobert Ford(EPA)
57.2
1255
4.0
NA
0.80
7.0
-19.5
6.71
4.4
4.4
WN250-040400
WN250
4/4/2000
None
UnfilteredRobert Ford(EPA)
1316
3590NA
0.485>
99.1
-118.2
7.19
10.83
5.7
WN270-040201
WN270
4/2/2901
None
UnfilteredRobert Ford(EPA)
55.9
1340
3.0
NA
1.0
6.8
-36.1
6.46
4.6
4.7
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-3 (cont.)NATURAL ATTENUATION STUDY - SURFACE WATER WET CHEMISTRY DATADRAFT FINAL TECHNICIAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 7 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORPpHTemperature
Turbidity
WN300-040400
WN300
4/4/2000
Field Dup.WN300-040400Unfiltered
Robert Ford(EPA)
2380
7650
NA
0.295>
597
-199.5
7.51
10.44
9.7
WN310-040201
WN310
4/2/2001
None
Unfiltered
Robert Ford(EPA)
360.9
2300
0.40
NA35.0
95.5
-40.1
6.5
6.4
39.1
WN50-040201
WN50
4/2/2001
None
UnfilteredRobert Ford(EPA)
50.5
6235.5
NA
0.45
5.4
104.8
6.34
4.1
8.2
WN50-040400
WN50
4/4/2000
None
UnfilteredRobert Ford(EPA)
74.0
412
NA
7.1
0.050
7.4
135
6.79
10.83
11.5
WN50-082500
WN50
8/25/2000
None
UnfilteredRobert Ford(EPA)
168600
NA
3.74
0.14
13.1
59.6
7.12
19.0
11.4
WN50-1 13099
WN50
11/30/1999
None
UnfilteredRobert Ford(EPA)
96.0
275
3.0
3.72
0.020
9.5
115.2
6.32
7.07
11.4
WS100-040201
WS100
4/2/2001
None
UnfilteredRobert Ford(EPA)
47.6
504
4.5
NA
0.10
5.1
52.2
6.17
5.3
4.2
WS100-040400
WS100
4/4/2000
None
UnfilteredRobert Ford(EPA)
68.0
429
NA
5.7
NA
8.3
45.2
6.87
10.92
9.6
WS100-082900
WS100
8/29/2000
None
UnfilteredRobert Ford(EPA)
204
875
NA
0.80
0.030
31.1
20.5
6.58
19.3
8.1
WS100-091701
WS100
9/17/2001
None
UnfilteredRobert Ford(EPA)
140
864
NA
15.08
0.040
24.0
155.3
6.69
16.8
40.6
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-3 (cont.)NATURAL ATTENUATION STUDY - SURFACE WATER WET CHEMISTRY DATADRAFT FINAL TECHNICIAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 8 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode):errous Iron
Nitrogen, Ammonia
ORPpHTemperature
Turbidity
WS100-092004
WS100
9/20/2004
0
None
Unfiltered
Robert Ford(EPA)
NAMANANANA
2.2NA
6.28
15.9
NA
WS100-1 13099
WS100
11/30/1999
None
Unfiltered
Robert Ford(EPA)
1102753.0
3.15
0.010
9.54
79.8
6.3
6.99
9.9
WS1 50-040201
WS150
4/2/2001
None
Unfiltered
Robert Ford(EPA)
46.4
491
4.0
NA
0.10
5.1
37.3
6.43
5.2
4.2
WS150-040400
WS150
4/4/2000
None
Unfiltered
Robert Ford(EPA)
78.0
439NA
5.8NA
8.850.4
6.78
10.78
7.7
WS150-082900
WS150
8/29/2000
None
Unfiltered
Robert Ford(EPA)
370
1190
NA
2.12
0.040
60.3
11.7
6.61
18.57
8.0
WS1 50-091 701
WS150
9/17/2001
None
Unfiltered
Robert Ford(EPA)
178
980
0.30
3.01
0.16
38.0
139
6.37
16.4
56.3
WS150-092004
WS150
9/20/2004
0
None
Unfiltered
Robert Ford(EPA)
NANANANANA
. 2.4
NA6.18
14.19
NA
WS150-113099
WS150
11/30/1999
None
Unfiltered
Robert Ford(EPA)
92.0
275NA
2.76
NA9.57
80.2
6.29
7.01
9.0
WS200-040201
WS200
4/2/2001
None
UnfilteredRobert Ford(EPA)
46.0
4814.0
NA0.10
5.125.3
6.63
5.44.2
WS200-040400
WS200
4/4/2000
None
Unfiltered
Robert Ford(EPA)
82.0
452NA
5.30.259.1
55.1
6.710.4
12.0
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-3 (cont.)NATURAL ATTENUATION STUDY - SURFACE WATER WET CHEMISTRY DATADRAFT FINAL TECHNICIAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 9 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORP
pHTemperature
Turbidity
WS200-082900
WS200
8/29/2000
None
UnfilteredRobert Ford(EPA)
708
2209
0.20
0.12
15.3
103
-158
7.21
15.99
72.4
WS200-091701
WS200
9/17/2001
None
UnfilteredRobert Ford(EPA)
524
2112
0.10
1.04
27.2
90.6
-66
6.5
16.8
13.0
WS200-092004
WS200
9/20/2004
0
None
Unfiltered
Robert Ford(EPA)
NA
NA
NA
NA
NA
2.4
NA
6.23
14.15
NA
WS240-082900
WS240
8/29/2000
None
UnfilteredRobert Ford(EPA)
836
2483
0.20
0.27
38.5
119
-210.5
7.31
15.08
23.8
WS250-040201
WS250
4/2/2001
None
UnfilteredRobert Ford(EPA)
47.0
489
3.5
NA
0.10
5.1
16.5
6.72
5.2
4.8
WS250-040400
WS250
4/4/2000
None
UnfilteredRobert Ford(EPA)
134
696
NA
0.71
NA
12.7
47.9
6.39
9.31
17.1
WS250-091701
WS250
9/17/2001
None
UnfilteredRobert Ford(EPA)
706
2537
0.10
1.7
60.5
112
-112.1
6.65
16.0
15.1
WS300-040201
WS300
4/2/2001
None
UnfilteredRobert Ford(EPA)
45.6
489
3.5
NA
0.10
5.1
16.5
6.78
5.2
4.0
WS300-040400
WS300
4/4/2000 .
None
UnfilteredRobert Ford(EPA)
1500
2333
NA0.21
NM
80.5
-131.1
7.12
8.98
28.7
WS300-091701
WS300
9/17/2001
None
UnfilteredRobert Ford(EPA)
822
2798
0.050
1.66
74.0
117
-159.6
6.79
15.2
16.2
RI051306DFU - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;
R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-3 (cont.)NATURAL ATTENUATION STUDY - SURFACE WATER WET CHEMISTRY DATADRAFT FINAL TECHNICIAL MEMORANDUMiNDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 10 OF 10
Sample Number
Sample Location
Date Sampled
Sample Elevation
QC Identifier
Filtered
Data Source
Wet Chemistry Analysis
Alkalinity
Conductivity
DO(Chemet)
DO(electrode)
Ferrous Iron
Nitrogen, Ammonia
ORPpHTemperature
Turbidity
WS300-092004
WS300
9/20/2004
0
None
Unfiltered
Robert Ford(EPA)
MANANANANA
2.3NA
6.33
14.12
NA
WS350-092004
WS350
9/20/2004
0
None
Unfiltered
Robert Ford^PA)
NANANANANA
4.4NA
6.26
14.09
NA
WS400-092004
WS400
9/20/2004
0
None
Unfiltered
Robert Ford(EPA)
NANANANANA
104NA
6.87
14.9
NA
WS50-040201
WS50
4/2/2001
\lone
UnfilteredRobert Ford(EPA)
47.6
491
4.0
NA
0.10
5.3
99.0
6.2
5.1
4.3
WS50-040400
WS50
4/4/2000
None
Unfiltered
Robert Ford(EPA)
68.0
420
NA
5.5
NA
7.9
31.5
6.99
11.61
8.3
WS50-082900
WS50
8/29/2000
None
Unfiltered
Robert Ford(EPA)
128
644
NA
3.27
0.020
16.0
66.7
6.75
20.47
7.7
WS50-091701
WS50
9/1772001
None
UnfilteredRobert Ford(EPA)
116
809
NA
7.6
0.010
15.1
159.3
6.66 .
17.0
11.1
WS50-092004
WS50
9/20/2004
0
None
Unfiltered
Robert Ford[(EPA)
NA
NA
NA
NA
NA
2.0
NA
6.42
16.72
NA
WS50-113099
WS50
11/30/1999
None
Unfiltered
Robert Ford(EPA)
76.0
275
3.0
3.9
NA
9.58
80.9
6.29
6.99
21:4
NML-10-040501
NML
4/5/2001
None
UnfilteredRobert Ford(EPA)
7420
14350
NA
NA
NR
1980
-5.2
7.49
T0.1
NR
RI051306DF
U - Not detected; UJ - Detection limit approximate; J - Quantitation approximate;R - Rejected; NA - Not Analyzed; * - From dilution analysis Tetra Tech NUS, Inc.
TABLE 2-4JULY 11, 2005 SURFACE WATER SAMPLING RESULTS
DRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITE
WOBURN, MASSACHUSETTS
Analyte (mg/L)
Ammonia-NitrogenBromideChlorideFluorideNitrateNitriteSulfateNitrate (N)Nitrite (N)o-Phospate (P)
SAMPLE ID
CULV-01
8.03ND<0.50
40ND<0.50
5.90.15
241.3
0.05ND<0.03
COMB-01
2.10ND<0.50
103*NDO.50
3.6NDO.10
230.81
ND<0.03ND<0.03
OUTLET-01
3.81ND<0.50
83*ND<0.50
2.4ND<0.10
310.54
ND<0.03ND<0.03
185NB-HALLS-01
NDND<0.50
104*ND<0.50
2.6ND<0.10
120.59
ND<0.03ND<0.03
185NB-RR01
9.97ND<0.50
105*0.67.2
0.2161*1.6
0.06NDO.03
LANDFILL-LF01
12.70ND<0.50
130*ND<0.50
2.70.24
38•0.610.07
ND<0.03
LANDFILL-LF02
11.00ND<0.50
131*ND<0.50
4.00.39
390.900.12
ND<0.03
LANDFILL-RR02
11.30ND<0.50
112*0.65.6
0.1858*1.3
0.05ND<0.03
RR03
10.80NDO.50
86*1.14.1
NDO.1085*
0.93NDO.03'ND<0.03
RR04
0.28ND<0.50
92*NDO.50
3.0NDO.10
240.68
NDO.03NDO.03
HALLS-22MAPLE-01
NDNDO.50
108*NDO.50
2.9NDO.10
120.65
NDO.03NDO.03
HALLS-20THIRD-01
NDNDO.50
105*NDO.50
2.2NDO.10
110.50
NDO.03NDO.03
* Estimated value, outside calibration curveND = Not DetectedNDO.50 = Not Detected at a reporting limit of 0.50 mg/LNote: For clarity, the prefix "IP" has been removed from sample ID'S.
RI051306DFTetra Tech NUS, Inc.
TABLE 2-5JULY 12, 2005 SOIL SAMPLING RESULTS
WELLS G&H WETLANDDRAFT FINAL TECHNICAL MEMORANDUM
INDUSTRI-PLEX SITEWOBURN, MASSACHUSETTa
IAnalvte (mg/Ka)AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
Sample IDRC-014600
ND<9.8ND<20
56ND<0.98ND<2.92300
131120
57006983016009.5
ND<390ND<9.8ND<2.9ND<200ND<20
1453
RC-029100
ND<15ND<30
48ND<1.5ND<4.58000214.729
130001409009411
ND<600ND<15ND<4.5ND<300ND<30
3679
RC-039000
ND<16ND<32
48ND<1.6ND<4.83700
265
79200002406903311
ND<640ND<16ND<4.8ND<320ND<32
4857
RC-043800
ND<16ND<32
40ND<1.6ND<4.84800
17ND<4.8
22780025037024
ND<9.6ND<640ND<16ND<4.8
640ND<32
2445
RC-058300
ND<12ND<24
37ND<1.2ND<3.29400223.921
7700370620237.3490
ND<12ND<3.6ND<240ND<24
3741
RC-06 I RC-073100
ND<10ND<20
21ND<1.0ND<3.1
72017
ND<3.116
43002801509.36.2
ND<410ND<10ND<3.1ND<200ND<20
2823
2900ND<11ND<22
13ND<1.1ND<3.3
983.7
ND<3.34
290052693.8
ND<6.6ND<440ND<11ND<3.3ND<220ND<22
9.55.8
RC-085400
ND<13ND<26
73ND<1.3ND<3.96000
127.621
640020010003711
530ND<13ND<3.9ND<260ND<26
1864
RC-093100
ND<10ND<20
40ND<1.0ND<3.0
540012
ND<3.019
6700240360336.6
ND<400ND<10ND<3.0ND<200ND<20
2156
RC-1013000ND<11ND<23
17ND<1.1ND<3.4
440164.617
7300190690247.2
ND<460ND<11ND<3.4ND<230ND<40
4033
RC-112200
12ND<20
7ND<0.99ND<3.0
1308.4
ND<3.011
3600160856.4
ND<5.9ND<400ND<9.9ND<3.0ND<200ND<20
2817
RC-12- 7400ND<9.7ND<19
30ND<0.97ND<2.92700
182126
1700055
310079014
520NDO.7"ND<2.9ND<190ND<40
2484
* Estimated value, outside calibration curveND<15 = Not Detected at a reporting limit of 15 mg/KgNote: For clarity, the prefix "IP" has been removed from sample ID'S.
RI051306DF Tetra Tech NUS, Inc.
TABLE 4-1COMPARISON OF AMMONIA RESULTS TO WATER QUALITY CRITERIA
DRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITE
WOBURN, MASSACHUSETTS
I Location
WN50
WN100
WN150 .WN200
WN250
WN260
WC50
WC100WC150
IWC200WC250
WS50WS100
WS150WS200WS250
WS300WN50
WN100WN150
WN175WN200
WN225
WN250
WN300
WC50WC100
WC150
WC200WC250
WC275
WC300
WS50
WS100
WS150
WS200
WS250WS300
WS340
Date
11/30/1999
11/30/199911/30/1999
11/30/1999
11/30/1999
11/30/1999
11/30/199911/30/1999
11/30/1999
11/30/199911/30/1999
11/30/199911/30/199911/30/199911/30/1999
11/30/199911/30/1999
4/4/2000
4/4/20004/4/20004/4/2000
4/4/2000
4/4/2000
4/4/20004/4/2000
4/4/2000
4/4/2000
4/4/2000
4/4/20004/4/2000
4/4/2000
4/4/2000
4/4/2000
4/4/2000
4/4/2000
4/4/2000
4/4/2000
4/4/2000
4/4/2000
Depth1
(cm)
50
100
150200
250
260
50
100
150200
250
50100150
200250320
50
100150175
200
225
250
30050
100
150200250
275
300
50
100
150
200250
300
340
Depth1
(ft)
1.63.3
4.96.6
8.2
8.5
1.6
3.3
4.96.68.2
1.63.34.9
6.6
8.210
1.63.3
4.95.7
6.67.4
8.2
9.8
1.6
3.3
4.96.68.2
9.0
9.8
1.6
3.3
4.9
6.6
8.2
9.8
11
Temp.
°C
7.077.14
7.299.44
11.53NM
7.07
7.087.11
8.059.7
6.99
6.997.01
9.39.5410.16
10.8310.82
10.8710.87
10.89
10.9110.83
10.44
11.39
11.46
11.5211.05
9.95
9.95
9.6
11.6110.92
10.78
10.4
9.31
8.98
8.94
pH
6.32
6.32
6.22
6.08
6.49
NM
6.34
6.31
6.32
6.126.49
6.29
6.36.29
6.216.456.84
6.79
6.95
7.027.04
7.05
6.96
7.197.51
7.03
6.98
6.976.816.5
6.58
7.35
6.996.87
6.786.7
6.39
7.12
7.33
NH3-N
mgN/L
9.5
9.87
17
42.5NM
NM
9.36
9.34
9.86
33.6NM
9.58
9.549.57
NM
NMNM
7.4
7.47.58.2
8
8.499.1
597
7.6
7.3
7.324.1
8
27.3
NM
7.9
8.3
8.8
9.1
12.7
80.5NM
NRWQC2
CCC
11.0
10.9
10.9
9.6
NA
NA
11.0
11.0
11.0
10.5NA11.1
11.111.1
NANA
NA
8.07.6
7.47.3
7.3
7.5
6.85.67.1
7.2
7.2
7.88.9
8.8
NA
7.1
7.8
8.0
8.4
9.4
8.0
NA
CMC
5252
5354
NA
NA
5152
52
54NA52
5252NA
NANA
42
38353534
37
3020
35
3737
42
4947
NA
36
40
43
45
5132
NA
RI051306DF Tetra Tech NUS, Inc.
l«
TABLE 4-1 (cont.)COMPARISON OF AMMONIA RESULTS TO WATER QUALITY CRITERIADRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 2 OF 5
ll
Location
WN50
WN100 '
WN150
WN180
WN200WC50
WC100
WC150
WC200
WC250
WS50
WS100WS150
WS200WS240WN50
WN100
WN150
WN200
WN250
WN270
WN310
WC50WC100
WC150
I WC200
WC250
WC300
WS50WS100
WS150WS200WS250
WS300WC50
WC100
WC150
WC200
WC250
Date
8/25/2000
8/25/2000
8/25/2000
8/25/2000
8/25/20008/25/20008/25/2000
8/25/20008/25/2000
8/25/2000
8/29/2000
8/29/20008/29/2000
8/29/20008/29/20004/2/20014/2/2001
4/2/2001
4/2/2001
4/2/2001
4/2/2001
4/2/2001
4/2/20014/2/2001
4/2/2001
4/2/20014/2/2001
4/2/2001
4/2/20014/2/2001
4/2/20014/2/2001
4/2/20014/2/20019/17/2001
9/17/2001
9/17/2001
9/17/2001
9/17/2001
Depth1
(cm)
50
100
150
180
200
50
100
150
200
240
50
100
150
200
240
50
100
150
200
250
270
310
50100
150
200
250
300
50
100
150
200
250
300
50
100
150
200
250
Depth1
(ft)
1.6
3.3
4.9
5.9
6.6
1.63.3
4.9
6.6
7.9
1.6
3.3
4.9
6.6
7.9
1.6
3.3
4.9
6.6
8.2
8.9
10
1.63.3
4.9
6.6
8.2
9.8
1.6
3.3
4.9
6.6
8.2
9.8
1.6
3.3
4.9
6.6
8.2
Temp.
°C
19
18.54
17.76
15.29
14.28
22.2619.23
17.74
15.23
15.23
20.47
19.3
18.57
15.99
15.084.1
4.1
4.1
4.1
4.4
4.6
6.4
44.5
4.8
4.9
4.8
4.9
5.1
5.3
5.2
5.4
5.2
5.2
16.4
16.3
16.5
16.5
16
pH
7.12
7.28
7.16
7.37
7.2
7.52
7.39
7.35
7.76
8.02
6.75
6.58
6.61
7.21
7.316.34
6.13
6.16
6.16
6.71
6.46
6.5
5.15.23
5.03
5.82
6.29
6.53
6.2
6.17
6.43
6.63
6.72
6.78
6.58
6.56
6.33
6.42
6.6
NH3-N
mgN/L
13.1
14.7
15.5
68.8
132
14.8
15.2
44
61
119
16
31.1
60.3
103
1195.4
5.5
6
6.4
7
6.8
95.5
55.3
4.8
5.1
5.1
5.2
5.3
5.1
5.1
5.1
5.1
5.1
16.4
17.9
44.8
79.6
115
I NRWQC2
CCC
4.2
3.9
4.4
4.6
5.4
2.6
3.5
4.0
3.1
2.2
4.3
4.8
5.0
4.9
4.8
11.011.2
11.2
11.2
10.4
10.9
10.8
11.511.5
11.5
11.4
11.1
10.8
11.1
11.2
10.9
10.6
10.4
10.2
5.8
5.9
6.0
5.9
6.0
CMC
32
27
31
24
30
19
23
25
13
8
43
47
47
29
26
51
54
54
54
44
50
49
5858
58
56
52
48
53
53
50
46
44
43
47
48
52
50
47
im-t
lift
mil
RI051306DF Tetra Tech NUS, Inc.
TABLE 4-1 (cont.)COMPARISON OF AMMONIA RESULTS TO WATER QUALITY CRITERIADRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 3 OF 5 '
ILocation
WC300
WC320
WS50
WS100
WS150
WS200
WS250
WS300
WS330
WS50
WS100
WS150WS200 '
WS300
WS350
WS400
Hall's Brook Inlet
Atlantic Ave.Drainway
MRMA Pnnri Dntlpt
NML-1
Date
9/17/2001
9/17/2001
9/17/2001
9/17/2001
9/17/2001
9/17/2001
9/17/2001
9/17/2001
9/17/2001
9/20/2004
9/20/2004
9/20/20049/20/2004
9/20/2004
9/20/2004
9/20/2004
4/5/2000
5/18/2000
8/30/2000
4/5/2001
9/16/2001
9/20/2004
4/5/2000
5/18/2000
8/24/00, A
8/24/00, B
4/5/2001
9/20/2004
4/5/2000
5/18/2000
8/30/2000
4/5/2001
9/16/2001
9/20/2004
4/5/2001
4/10/2001
5/14/2001
9/14/2001
9/21/2004
Depth1
(cm)
300
320
50
100
150
200
250
300
330
50
100
150200
300
350
400
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
69
69
69
69
69
Depth1
(ft)9.8
10
1.6
3.3
4.9
6.6
8.2
9.8
11
1.6
3.3
4.96.6
9.8
11
13
0.33
0.33
0.33
0.330.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
2.3
2.3
2.3
2.3
2.3
Temp.ec
15.7
15.6
17
16.8
16.4
16.8
16
15.2
14.7
16.72
15.9
14.1914.15
14.12
14.09
14.9
11.5
14
19.4
11
15.1
NM
11.1
NM
16.7
18.2
NM
NM
12
16
22.6
10.9
21.6
NM
NM
11.8
14.1
15.8
NM
PH
6.57
6.72
6.66
6.69
6.37
6.5
6.65
6.79
7.17
6.42
6.28
6.186.23
6.33
6.266.87
7.93
7.44
7.22
6.866.97
NM
7.14
NM
6.33
5.94
NM
NM
6.7
7.14
6.95
6.76
6.73
NM
NM
6.18
6.63
6.25
NM
NH3-N
mgN/L
151
NM
15.1
24
38
90.6
112
117
NM
2
2.2
2.42.4
2.34.4
104
5.2
7.8
, 7.65.54.1
3.3
0.1
NM
NM
NM
2.2
0.7
7.4
8
16
6.9
17.2
4
NM
NM
12.2
17.2
NM
NRWQC2
CCC
6.1
NA
5.5
5.6
6.0
5.7
5.9
6.0
NA
5.8
6.2
7.07.0
7.0
7.0
6.0
3.2
4.7
3.9
7.7
5.7
NA
6.9
NA
NA
NA
NA
NA
7.6
5.0
3.6
8.04.1
NA
NA
NA
6.7
6.3
NA
CMC
47
NA
46
45
51
49
46
42
NA
50
52
53
5352
52
40
10
22
29
4037
NA
32
NA
NA
NA
NA
NA
45
32
38
43
44
NA
NA
NA
46
53
NA
RI051306DF Tetra Tech NUS, Inc.
nil
TABLE 4-1 (cont.)COMPARISON OF AMMONIA RESULTS TO WATER QUALITY CRITERIADRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 4 OF 5
Location
NML-2
NML-3
I
NML-4
NML-5
NML-6
NML-7
NML-8
Date
4/5/2001
4/10/2001
5/14/2001
5/31/2001
9/14/2001
9/21/2004
4/5/2001
4/10/2001
5/14/2001
9/14/2001
9/21/2004
4/5/2001
4/10/2001
5/14/2001
9/14/2001
9/21/2004
4/5/2001
4/10/2001
5/14/2001
9/13/20019/21/2004
4/5/2001
4/10/20015/14/2001
5/31/2001
9/13/2001
9/21/2004
4/5/2001
4/10/2001
5/14/2001
9/13/2001
9/21/2004
4/5/2001
4/10/2001
5/14/2001
9/13/2001
9/21/2004
Depth1
(cm)
119
119119
119
119
119
169
169
169
169
169
219
219
219
219
219
269
269
269
269
269
319
319319
319
319
319
369
369
369
369
369
419
419
419
419
419
Depth1
(ft)
3.9
3.9
3.9
3.9
3.9
3.9
5.5
5.5
5.5
5.5
5.5
7.2
7.2
7.2
7.2
7.2
8.8
8.8
8.8
8.8
8.8
10
1010
10
10
10
12
12
12
12
12
14
14
14
14
14
Temp.
«c9.5
10.5
13.6
15.6
16.1
NMNM
11.413.9
16.4
NM
9.4
10.9
14.2
16.3
NM
9.9
10.6
14.1
22.9NM
9.6
10.614.8
15.2
23.9
16
9.9
11.3
14.8
24.8
16.8
10.4
10.7
16.4
27.5
17.9
PH
6.53
6.15
6.54
6.44
6.31
NM
NM
6.28
6.21
5.23
NM
6.53
6.54
6.24
6.11
NM
6.42
6.71
6.54
6.68NM
6.64
6.566.81
7.03
6.84
6.98
7.14
6.62
6.73
6.73
6.93
6.86
6.68
6.74
6.79
6.83
NH3-N
mgN/L
8.2
NM
16.1
NM
14.9
NM
NM
NM
21.3
18.3
NM
9.9
NM
42.6
80.3
NM
63.2
, NM
323
449NM
297
NM817
NM
1050
933
1170
NM
1180
1160
1110
1150
NM
1230
1270
1100
NRWQC2
CCC
9.2
NA
7.0
NA
6.1
NA
NA
NA
7.1
6.3
NA
9.2
NA
7.0
6.2
NA
9.1
NA
6.8
3.8
NA
8.9
NA6.2
NA
3.4
5.4
7.5
NA
6.3
3.3
5.2
8.1
NA
5.6
2.7
5.0
CMC
48
NA
48
NA
52
NA
NA
NA
53
58
NA
48
NA
53
54
NA
50
NA
48
45NA
46
NA42
NA
41
37
32
NA
44
44
38
40
NA
44
42
41
iH
RI051306DF Tetra Tech NUS, Inc.
ill
1 TABLE 4-1 (cont.)COMPARISON OF AMMONIA RESULTS TO WATER QUALITY CRITERIADRAFT FINAL TECHNICAL MEMORANDUMINDUSTRI-PLEX SITEWOBURN, MASSACHUSETTSPAGE 5 OF 5
Location
NML-9 ,
NML-10
IP-OUTLET-01
Date
4/5/2001
4/10/2001
5/14/2001
9/14/2001
9/21/2004
4/5/2001
4/10/2001
5/14/2001
9/13/2001
9/21/2004
7/11/2005
Depth1
(cm)
469
469
469
469
469
519
519
519
519
519NA
Depth1
(ft)
15
15
15
15
15
17
17
17
17
17
NA
Temp.
«cNM
NM
NM
NM
NM
10.1
12.7
15.9
21.3
18.6
23.3
pH
NM
NM
NM
NM
NM
7.49
7.28
7.09
7.46
7.14
6.98
NH3-N
mgN/L
1100
NM
1890
2050
NM
1980
NM
2100
2110
1670
3.81
NRWQC2
CCC
NA
NA
NA
NA
NA
5.8
NA
5.22.9
4.33.4
CMC
NA
NA
NA
NA
NA
20
NA
33
21
32
37
Notes1. Depth for NML samples is screen depth, while other depths are sonde depths.
2. NRWQC - National Recommended Water Quality Criteria (EPA, 2004) for CMC (acute criteria for salmonid fishnot present) and CCC (chronic criteria for fish early life stages absent) adjusted for pH and temperature.
Boldface criteria were exceeded by sample results.
NA = not applicableND = not detectedNS = not sampledNM = not measured
RI051306DF Tetra Tech NUS, Inc.
FIGURES
ABERJONA RIVER
L E G E N D
k B6-02 GSPAISORP OROUNOWATER' SAMPLE LOCATIONS
SEE TABLE 2-10
TRANSECT LJN£
WETLANDS AREA
ABERJONA OVER OR OTHER OPEN STREAM
CULVERTED RIVER SECTION
PONDED WATER AREA
NOTES;
1. STREET. WATERWAY AND TOWNSHIP BOUNDARY LOCATIONS. UNLESS OTHERWISENOTED. FROM MASSACHUSETTS OS AND CITY OF WOBURN ENONEERMB DEPT.2. ALL SAMPLE LOCATIONS OBTAINED BY GPS UNLESS OTHERWISE NOTED.3. LOCATIONS OF HISTORIC MSHAWUU LAKE. AND PARTS OF THE ABERJONA RIVERNORTH BRANCH FROM A PLAN ENTITLED "PLANS OF ABERJONA RIVER, HALL'SBROOK AND MISHAWUM LAKE FLOOD CONTROL AND DRAINAGE STRUCTURES TOREPLACE EXISTING WATERWAY. REVISED: 9/29/96, ORIGINAL SCALE: r-200'.DATUM OF PLAN: NAD 27 FEET.4. INDUSTRI-PLEX SITE & HIDE PILE LOCATIONS FROM A PLAN BY MERIDIAN LANDSERVICES. INC., ENTITLED: "PROJECT RECORD. EAST SIDE UNDEVELOPED PROPERTIES.REMEDIATED AREAS. NDUSTRI-PLEX SITE REMEDIAL TRUST. WOBURN.MASSACHUSETTS*. DATED: MARCH 2, 2001. C-6.5. ABERJONA RIVER SOUTH BRANCH SHOWN FROM A PLAN BY HALLIBURTON NUS.INC.. PLAN DATED: AUGUST 25. 1997, ENTITLED: "HISTORICAL AND CURRENTSURFACE WATER CONDITIONS. PRELIMINARY MSGRP STUDY. INDUSTRI-PLEX. WOBURN,MA'.6. TRANSECT LINES FROM A PLAN PREPARED BY MAVERICK CONSTRUCTIONMANAGEMENT SERVICES. INC. * MERIDIAN LAND SERVICES, INC.. AMHERST, NH.ENTITLED: 'PLANIMETRIC WORKSHEET. INDUSTRI-PLEX SITE REMEDIAL TRUST, SITEBASEMAP, INDUSTRI-PLEX SITE REMEDIAL TRUST, WOBURN, MASSACHUSETTS",SCALE: 1'- 300'. DATED: SEPTEMBER 29. 2000.7. PLAN COORDMATES IN NAD 83 FEET: ALL LOCATIONS (IF NECESSARY)CONVERTED FROM ORIGINAL DATUM TO NAD S3 FEET USING BLUE MARBLEGEOGRAPHIC CALCULATOR SOFTWARE (VERSION 4.2).8. PLAN HOI TO BE USED FOR DESIGN.9. ALL LOCATIONS TO BE CONSIDERED APPROXIMATE.10. THE WATERWAY BOUNDARIES SHOWN MAY NOT REPRESENT THE UMTS OF THEWATERWAYS AT THE TME OF SAMPLING DUE TO SEASONAL VARIATIONS INWATERWAY BOUNDARIES AND POTENTIAL ERRORS IN WATERWAY MAPPING.11. REFER TO EPA OFFICE OF RESEARCH * DEVELOPMENT. JUNE 24. 2005,MEMORANDUM TOR ADDITIONAL AMMONIA GROUNDWATER DATA.
GRAPH1C SCALE
0' 800' 1600'
GROUNDWATER SAMPLE LOCATIONS ANALYZED FOR AMMONIA FIGURE 2-1TECHNICAL MEMORANDUM - SUPPLEMENTAL DATA
INDUSTRI-PLEX SITE, WOBURN, MASSACHUSETTSDRAWN BY: R.G. DEWSNAP
CHECKED BY: G. BULLARD
SCALE: AS SHOWN
REV.:
DATE: OCTOBER 17, 2005
FILE NO.: \4123\1340\GW_AREA_OA_REV.DWG
TETRA TECH NUS, INC.
55 Jonspin Road Wilmington, MA 01887(978)658-7899
W/ West>**?4 Hide
M5 A03 A23; A A A A A1 A04 A22 East-Central
Hide Pile
SouthHide
A15 A09,A10A A11
-AiilPhotoA^ril 2001MASSGIS
SGURCEi JUNE 84, 2005 MEMORANDUM FROM ROBERT FORD, EPA/DRD
EPA/ORD SNAP-SHOT GROUNDWATER SAMPLE LOCATIONS FIGURE 2-2TECHNICAL MEMORANDUM - SUPPLEMENTAL DATA
INDUSTRI-PLEX SITE, WOBURN, MASSACHUSETTSDRAWN BY: D.W. MACDOUGALL
CHECKED BY: G. BULLARD
SCALE: NOT NOTED
REV.:
DATE: AUGUST 19, 2005
\4123\1340\FIG_2-2.DWQ
TETRA TECH NUS, INC.
55 Jonspin Road Wilmington. MA 01887(978)658-7899
egional
Center
TW07TWOS*
TWO4AATW02
ATW01
TW05
Air PhotoApril 2001MASSGIS
SOURCE. JUNE 54, 2005 HEMDRANDUH FROM ROBERT FDRD, EPA/DRD
TW11
EPA/ORD FIXED GROUNDWATER SAMPLE LOCATIONS FIGURE 2-3
TECHNICAL MEMORANDUM - SUPPLEMENTAL DATA
INDUSTRI-PLEX SITE, WOBURN, MASSACHUSETTSDRAWN BY: D.W. MACDOUGALLCHECKED BY: G. BULLARD
SCALE: NOT NOTED
REV.:
DATE: AUGUST 19, 2005
NAME: \4123\1340\FIG_2-3.DWG
TETRA TECH NUS, INC.
55 Jonspin Road Wilmington, MA 01887(978)658-7899
' Atlantic Avenue Draii
DMLS-1NML
A *DMLS-2
North Surface Water
Hall's Brook Inlet
DMLS-3
Central Surface Water
South Surface Water
HBHA Pond Outlet
SPURGE. JUNE 24, 2005 MEMORANDUM FROM ROBERT FDRD. EPA/DRD
EPA/ORD SURFACE WATER SAMPLE LOCATIONS FIGURE 2-4
TECHNICAL MEMORANDUM - SUPPLEMENTAL DATA
INDUSTRI-PLEX SITE, WOBURN, MASSACHUSETTSDRAWN BY: D.W. MACOOUGALL
CHECKED BY; G. BULLARD
SCALE: NOT NOTED
REV.:
DATE: AUGUST 19, 2005
\4123\1340\FIG_2-4.DWG
TETRA TECH NUS, INC.
55 Jonspin Road Wilmington, MA 01887(978)658-7899
SamplingHalls Pond Watershed&EPA
New EnglandDtMn.fafiat.itia
SOURCE- AUGUST 16, 3005 MEMORANDUM FROM JASDN TURGEDN, EPA/OES
INDUSTRI-PLEX WATER SAMPLING HALLS POND WATERSHED FIGURE 2-5TECHNICAL MEMORANDUM - SUPPLEMENTAL DATA
INDUSTRI-PLEX SITE, WOBURN, MASSACHUSETTSDRAWN BY: D.W. MACOOUGALLCHECKED BY: G. BULLARD
SCALE: AS NOTED
REV.:
DATE: AUGUST 19, 2005
\4123\1340\FIG_2-5.DWG
TETRA TECH NUS, INC.
55 Jon spin Road Wilmington, MA 01887(978)658-7899
RC-12;
RC-11RC-10 •-'.,RC-09 • >RC-08
KC-07 r • '•
RC-06RC-05 r
RC-04 ;
RC-03RC-02
WELL68SD
RC-0!
-JSP
Bmufa
SOURCEi AUGUST 16, 3005 MEMORANDUM FROM JASDN TURGEDN, EPA/DES
NewEnglaodDRAFT: flufj«1 2th. a»5
Industri-Plex Soil SamplingRifle dub Area
INDUSTRI-PLEX SOIL SAMPLING RIFLE CLUB AREA FIGURE 2-6
TECHNICAL MEMORANDUM - SUPPLEMENTAL DATA
INDUSTRI-PLEX SITE, WOBURN, MASSACHUSETTSORA«M BY: D.W. MACDOUGALL
CHECKED BY: G. BULLARD
SCALE: AS NOTED
REV.:
DATE: AUGUST 19. 2005
\4123\1340\FIG_2-6.D«G
TETRA TECH NUS, INC.
55 Jonspin Road Wilmington, MA 01887(978)658-7899
INDUSTRI-PLEXSITE
ABERJONA RIVER
L E G E N D
A. 96-02 oap/usCW GROUNDWATER" SAMPLE LOCATIONS
9 AMMOMA < 4,0 mgA
AMMOMA > 4.0 mgA < 100 <"ifl-
AMMOMA > 100 mgA < 1000 mgA
A AMMOMA > 1000 mgA
B-2
GROUNDWATER PLUME AREASPRESENTED IN PROPOSED PLAN
TRANSECT LWE
WETLANDS AREA
ABERJONA RIVER OR OTHER OPEN STREAM
CULVERTED RIVER SECTION
PONDED WATER AREA
NOTES:
1. STREET. WATERWAY AND TOWNSHIP BOUNDARY LOCATIONS, UNLESS OTHERWISENOTED. FROM MASSACHUSETTS OS AND CITY OF WOBURN ENGINEERING DEPT.2. ALL SAMPLE LOCATIONS OBTAINED BY GPS UNLESS OTHERWISE NOTED.3. LOCATIONS OF HISTORIC MSHAWUM LAKE. AND PARTS OF THE ABERJONA RIVERNORTH BRANCH FROM A PLAN ENTITLED "PLANS OF ABERJONA RIVER. HALL'SBROOK AND MSHAWUM LAKE FLOOD CONTROL AND DRAINAGE STRUCTURES TOREPLACE EXISTING WATERWAY, REVISED: 9/25/98, ORIGINAL SCALE: 1'-20ff.DATUM OF PLAN: NAD 27 FEET.4. INDUSTRI-PLEX SITE * HIDE PILE LOCATIONS FROM A PLAN BY MERIDIAN LANDSERVICES. INC.. ENTITLED:'PROJECT RECORD, EAST SIDE UNDEVELOPED PROPERTIES.REMEDIATED AREAS. INDUSTRI-PLEX SITE REMEDIAL TRUST, WOBURN,MASSACHUSETTS*. DATED: MARCH 2, 2001, C-6.5. ABERJONA RIVER SOUTH BRANCH SHOWN FROM A PLAN BY HALLIBURTON NUS.NC., PLAN DATED: AUGUST 25, 1997, ENTITLED: 'HISTORICAL AND CURRENTSURFACE WATER CONDITIONS, PRELIMINARY MSGRP STUDY, INDUSTRI-PLEX, WOBURN,MA'.6. TRANSECT LINES FROM A PLAN PREPARED BY MAVERICK CONSTRUCTIONMANAGEMENT SERVICES, INC. * MERIDIAN LAND SERVICES. INC.. AMHERST, NH,ENTITLED: 'PLANIMETRIC WORKSHEET, INDUSTRI-PLEX SITE REMEDIAL TRUST. SITEBASEMAP. INDUSTRI-PLEX SITE REMEDIAL TRUST, WOBURN, MASSACHUSETTS'.SCALE: 1"» 300', DATED: SEPTEMBER 29, 2000.7. PLAN COORDINATES IN NAD K FEET; ALL LOCATIONS (IF NECESSARY)CONVERTED FROM ORIGINAL DATUM TO NAD 83 FEET USING BLUE MARBLEGEOGRAPHIC CALCULATOR SOFTWARE (VERSION 4.2).8. PLAN HQI TO BE USED FOR DESIGN.9. ALL LOCATIONS TO BE CONSIDERED APPROXIMATE.10. THE WATERWAY BOUNDARIES SHOWN MAY NOT REPRESENT THE LIMITS OF THEWATERWAYS AT THE TIME OF SAMPLING DUE TO SEASONAL VARIATIONS INWATERWAY BOUNDARIES AND POTENTIAL ERRORS M WATERWAY MAPPING.11. REFER TO EPA OFFICE OF RESEARCH 4 DEVELOPMENT. JUNE 24. 2006,MEMORANDUM FOR ADDITIONAL AMMONIA GROUNDWATER DATA.
GRAPHIC SCALE
0' 800' 1600'
AMMONIA CONCENTRATIONS IN GROUNDWATER
TECHNICAL MEMORAND 1 iy ci ippi FMFMTAI D A T AUM oUrnLC.MC.IN 1 ML \J r\ 1 A
INDUSTRI-PLEX SITE, WOBURN, MASSACHUSETTSDRAWN BY: R.G. DEWSNAP
CHECKED BY: G. BULLARD
SCALE: AS SHOWN
REV.: 0
DATE: OCTOBER 17, 2005
FILE NO.: \4123\1340\FIG_3-1.DWG
FIGURE 3-1
c
"ft TETRA TECH NUS, INC.
)5 Jonspin Road Wilmington, MA 01887(978)658-7899
RR-4 APPROXIMATELY 2000FT NORTH OF THIS LOCATION
• AT EAMES STREET
INDUSTRI-PLEXSITE
HBHA POND
HALLS BROOKHOLDING AREA
CONCENTRATED SOURCEOF ARSENIC IN SURFACEWATER AND SEDIMENT
DEPOSITION
HjHMhRMISHAWUMLAKE *
" W E T L A N D S
HBHAWETLANDS
WELLS G & HSUE
L E G E N D
WETLANDS AREA
ABERJONA RIVER OROTHER OPEN STREAM
CULVERTED RIVER SECTION
PONDED WATER AREA
GROUNDWATER PLUME
EPA AMMONIA SURFACE WATERSAMPLING LOCATION (JULY 2005)
EPA METALS SOILSAMPLING LOCATION (JULY 2005)
WELLS G & HWETLAND AREA
SIGNIFICANT AREA OFARSENIC DEPOSITION
WELL "H"
• WELL "G"
NfllESj
1, LOCATIONS OF TOWN BOUNDARIES, MAJOR ROADS, STREETS WATER BODIES AND WATER COURSES FROM PLANS BY THEMASSACHUSETTS CIS AND CITY DF WDBURN ENGINEERING DEPT. (S003> EXCEPT AS NDTED BELDW.Z. LOCATIONS OF HISTORIC MISHAWUM LAKE, AND HISTORIC ABERJONA RIVER NORTH BRANCH FROM A PLAN ENTITLED 'PLANS OFABERJONA RIVER, HALL' S BRDDK AND MISHAWUM LAKE FLOOD CONTROL AND DRAINAGE STRUCTURES TO REPLACE EXISTING WATERWAY,WOBURN, MA, FOR PETITION DF MARK PHILLIP TRUST', WESTON I. SAMPSON ENGINEERS, DATEDi NOV. 1974.3. PARTS QF THE ABERJDNA RIVER SOUTH BRANCH SHOWN FROM A PLAN BY HALLIBURTON NUS, INC. , PLAN DATED. AUGUST 25,1997, ENTITLED 'HISTORICAL AND CURRENT SURFACE WATER CONDITIONS, PRELIMINARY MSGRP STUDY, INDUSTRI-PLEX, WOBURN,MA'.4. SURFACE WATER FEATURES ADAPTED FROM FIGURE 39 (ABERJONA RIVER STUDY AREA, WETLANDS STATUS i RIVER COURSES, 1995)FROM A REPORT ENTITLED' AERIAL PHOTOGRAPHIC ANALYSIS DF THE ABERJONA RIVER STUDY AREA MIDDLESEX COUNTY,MASSACHUSETTS', OCTOBER, 8008, BY U. S. E. P. A. AND ONE METER AERIAL PHOTOGRAPHS OBTAINED FROM THE MASSACHUSETTS GIS. '5. ROADS AND WATER COURSES UNAVAILABLE FROM ABOVE SOURCES ADDED FROM AVAILABLE PLANS AND/OR FIELD OBSERVATIONS.6. PLAN DATUM IN NAD 83 FEET) ORIGINAL DATUM FROM OTHER PLANS CONVERTED TO NAD 83 FEET USING THE GEOGRAPHICCALCULATOR BY BLUE MARBLE GEDGRAPHICS, VERSION 4. Z.7. ALL LOCATIONS TO BE CONSIDERED APPROXIMATE.8. PLAN NO! TO BE USED FDR DESIGN.9. SEE EPA'S MARCH 2005 MSGRP REMEDIAL INVESTIGATION REPORT FDR FURTHER KEY CONTAMINANT MIGRATION PATHWAYS.10. SEE APPENDIZ B - JULY 2005 SURFACE WATER AND SOIL SAMPLE RESULTS FOR SPECIFIC SAMPLE IDENTIFICATION NUMBERS ANDLOCATIONS.
GRAPHIC SCALE
1200' 2400'
PARTIAL KEY CONTAMINANT MIGRATION PATHWAYSWITH AMMONIA AND JULY 2005 SAMPLE LOCATIONS FIGURE 3-2
TECHNICAL MEMORANDUM - SUPPLEMENTAL DATA
INDUSTRI-PLEX SITE, WOBURN, MASSACHUSETTSDRAWN BY: D.W. MACDOUGALL
CHECKED BY: G. BULLARD
SCALE: AS NOTED
REV.:
DATE: OCTOBER 17, 2005
RLE NO.: DWG\4123\1340\FIG_3-2.DWG
TETRA TECH NUS, INC.
55 Jonspin Road Wilmington, MA 01887(978)658-7899
REFERENCES
DRAFT FINAL
REFERENCES
Foster and Chrostowski. 1986. Sara A. Foster and Paul C. Chrostowski, ICF Clement Assoc.Integrated Exposure Model for Use of Tap Water Contaminated with Volatile OrganicChemicals. 79th Annual Meeting of the Air Pollution Control Association, Minneapolis,Minnesota. June 1986.
Foster and Chrostowski. 1987. Sara A. Foster and Paul C. Chrostowski, ICF Clement Assoc.,Washington, D.C. Inhalation Exposure to Volatile Organic Contaminants in the Shower. 80th
Annual Meeting of the Air Pollution Control Association, New York, New York. June 21-26,1987.
Gilliam, J.W. 1994. "Riparian Wetlands and Water Quality." J. Environ Q. Vol. 23:896-900.
Massachusetts Department of Environmental Protection. (MADEP). 1997. Groundwater Useand Value Determination Pilot, Industi-Plex Superfund Site. August 1997.
Masters, 1991. Introduction to Environemntal Engineering and Science, Gilbert M. Masters,Prentice-Hall, Inc., 1991.
Metcalf and Eddy, Inc. (M&E). 2004. Baseline Human Health and Ecological Risk Assessment,Wells G&H Superfund Site, Aberjona River Study, Operable Unit 3, Woburn, Massachusetts.Prepared for the U.S. Environmental Protection Agency. Contract No. 68-W6-0042. September2004.
Reilly, W. 1991. U.S. Environmental Protection Agency. Testimony for July 10, 1991 Hearingbefore the Senate Subcommittee on Environmental Protection regarding Section 404 of theClean Water Act.
TtNUS, 2005a, Draft Final MSGRP Remedial Investigation Report, Industri-Plex Site, Woburn,MA. Tetra Tech NUS, Inc. March 2005
TtNUS, 2005b, Draft Final MSGRP Feasibility Study Report, Industri-Plex Site, Woburn, MA.Tetra Tech NUS, Inc. June 2005
U.S. Environmental Protection Agency (USEPA). 1989. Risk assessment guidance forSuperfund. Volume I: Human health evaluation manual. Part A. Interim Final. EPA/540/1-89/002. December 1989.
U.S. Environmental Protection Agency (USEPA). 1994a. Revised interim soil lead guidance forCERCLA sites and RCRA corrective action facilities. Office of Solid Waste and EmergencyResponse. Washington, D.C. OSWER Directive 9355.4-12. July 1994.
U.S. Environmental Protection Agency (USEPA). 1994b. Risk updates, no. 2. USEPARegion I. August 1994.
U.S. Environmental Protection Agency (USEPA). 1997a. Exposure factors handbook. Office ofResearch and Development. Washington, D.C. August 1997.
RI051306DF R-1 Tetra Tech NUS, Inc.
DRAFT FINAL
U.S. Environmental Protection Agency (USEPA). 1999. Update of Ambient Water QualityCriteria for Ammonia. EPA-822-R-99-014. December 1999.
U.S. Environmental Protection Agency (USEPA). 2002. National Recommended Water QualityCriteria. Federal Register. December 27, 2002.
U.S. Environmental Protection Agency (USEPA). 2004. Preliminary remediation goals table.Region 9 technical support team. Office of Superfund Programs. Region IX. October 2004.
U.S. Environmental Protection Agency (USEPA). 2004b. Drinking Water Standards and HealthAdvisories. Office of Water. Washington, D.C. Winter 2004.
U.S. Environmental Protection Agency (USEPA). 2005. Integrated risk information system(IRIS). Environmental Criterion and Assessment Office. August 2005.
RI051306DF R-2 Tetra Tech NUS, Inc.
ill*
APPENDIX A
NATURAL ATTENUATION STUDY AMMONIA DATA IN SURFACE WATER
mil
June 24, 2005
MEMORANDUM ,
** SUBJECT: Industri-Plex Superfund Site and GSIP Study Area; Ammonia Data for WaterQuality Samples
— FROM: Robert Ford, EPA/ORD
—. TO: Joseph LeMay, RPM EPA/Region 1
Attached are tables that document measurements of temperature, pH, and dissolved ammonia-nitrogen in water samples collected from ground water, surface water, and sediment pore waterwithin the Industri-Plex Site boundary and GSIP Study Area during the period October 1999 -September 2004 (Tables 1-16). The positions of sampling locations are shown in Figures 1-3.Analytical measurements were made according to procedures specified in the NaturalAttenuation Study Work Plan (Revision 2; September 14, 2000).
Table 1. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected during snap-shot ground water sampling on1 October 13-21,1999 at the Industri-Plex Site and GSIP Study Area. The following abbreviations are used within the table: ft bgs = feetbelow ground surface, NM = not measured.
LocationA01-1A01-2A02-1A03-1A03-2A04-1A04-2A04-3A05-1A06-1A06-2A07-1A07-2A08-1A08-2A08-3A09-1A09-2A09-3At 0-1A10-2A10-3A11-1A11-2A11-3A12-1A12-2A12-3A13-1A13-2A13-3A13-4
Date10/14/9910/15/9910/14/9910/15/9910/15/9910/15/9910/15/9910/15/9910/15/9910/18/9910/18/9910/18/9910/18/9910/19/9910/19/9910/19/9910/19/9910/19/9910/19/9910/20/9910/20/9910/20/9910/20/9910/20/9910/20/9910/20/9910/21/9910/21/9910/20/9910/20/9910/20/9910/20/99
ScreenDepthft bgs
32.7541.7512.009.00
19.0015.0024.7532.508.50
15.5025.5013.5023.509.00
19.0039.0012.5022.5043.0010.0020.0030.0010.5020.5030.5012.0022.0032.007.50
17.5034.5045.00
Depth toWaterTable
ftNMNM
2.251.00
11.005.29
15.0422.79
NMNMNMNMNM
3.4213.4233.422.83
12.8333.33
NMNMNM
1.6711.6721.674.70
14.7024.70
1.0811.0828.0838.58
Depth toBedrock
ft bgsNMNM
14.0822.0022.0032.5032.5032.508.50
27.5027.50
NM
NM
64.0064.0064.0047.0847.0847.08
NM
NM
NM
NM
NM
NM
NM
NM
NM
45.0045.0045.0045.00
Temp.°C
NM
NM
NM
NM
NM
NM
NM
NM
NM
NM
NM
NM
NM
7.508.10NMNM
11.40NM
NM
11.1011.60
NM
NM
NM
12.8011.9012.60
NM
NM
NM
NM
pH6.62NM
6.706.616.666.92NM
NM
6.727.276.266.036.396.726.577.076.14NM
NM
6.467.147.516.687.807.796.196.376.586.888.04NM
NM
NH3-Nmg N/L
63.722.4
79.31.9
1.6
18.86.0
1.5
3.4
8.6
3.5
0.8
0.2
0.9
1.3
96.40.8
10.7NM
NM
235.7810.1
8.8
709.377.716.314.618.6
1142.61141.8
NM
244.2
Table 2. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected during snap-shot ground water sampling on November 30 - December 3,1999at the Industri-Plex Site apd GSIP Study Area. The following abbreviations are used within the table: ftbgs = feet below ground surface, NA = not applicable, ND = not detected, NM = not measured.
LocationA14-1A14-2A14-3
A15-11
A16-1A16-2A17-1A17-3A18-1A19-1
Date11/30/9911/30/9911/30/9911/30/9912/01/9912/01/9912/01/9912/01/9912/02/9912/02/99
ScreenDepthft bgs
10.0015.0030.0011.807.00
12.007.00
17.0019.008.50
Depth toWaterTable
ft0.715.71
20.71
NA
1.676.673.00
13.0010.191.50
Depth toBedrockft bgs
NM
NM
NM
11.80NM
NM
NM
NM
NM
NM
Temp.°C
5.2
6.4
NM
NM
6:3
NM
9.6
NM
13.010.7
PH5.566.40NM
NM
6.13NM
7.11NM
6.276.01
NH3-Nmg N/L
3.4
NM
NM
ND
NM
NM
NM
NM
1.2
ND
1 Ground water yield too low to connect to flow cell.'
Table 3. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected during snap-shot and fixed point ground water sampling on March 27 - April 6,2000 at the Industri-Plex Site and GSIP Study Area. The following abbreviations are used within thetable: ft bgs = feet below ground surface, NA = not applicable, NS = not sampled, NM = not measured.
Location
A20-1
A20-2A21-1A21-2A22-1A22-2A23-1
A23-2'TW01TW02TW03TW04TWOS
TW06-1TW06-2TW06-3TW07-1TW07-2TW07-3TW08-1TW08-2TW08-3
Date
3/28/00
3/28/003/30/00
1 3/30/003/31/003/31/003/31/004/3/003/29/004/6/00
3/29/003/29/00
NS
4/5/004/5/004/5/004/4/004/5/004/5/004/6/004/6/004/6/00
ScreenDepthft bgs
5.00
10.005.50
13.509.75
14.759.75
16.759.00 2
14.002
13.002
14.00 2
11.002
12.2517.5022.5012.2515.0020.008.00
13.0017.50
Depth toWaterTable
ft2.38
7.382.00
10.003.508.502.759.75
NA
NA
NA
NA
NA
NM
NM
NMNM
NM
NM
NM
NM
NM
Depth toBedrockftbgs
NM
NM
NM
NM
NM
NM
NM
NM
NM
NM
NM
NM
NM
47.0847.0847.08
NM
NM
NM
NM
NM
NM
Temp. ,°C
11.9
12.413.410.213.511.813.7
NM
11.18.1
13.810.9NM
13.1
10.99.8
13.112.011.86.7
6.1
8.1
PH
6.47
6.216.626.885.536.244.64NM
NM
7.566.065.94NM
6.44
5.995.046.165.906.038.025.426.70
NH3-NmgN/L
2.0
0.9
0.8
77.79.8
31.72.2
2.2
874.01260.0
37.92.5
NM
0.5
NM
7.45.6
4.1
14.9722.0
ND
229.0
1 Ground water yield too low to connect to flow cell.2 Screen depth is below water surface of Hall's Brook Holding Area Pond determined at the time of installation.
Table 4. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected during fixed point ground water sampling on May 16-18, 2000 at the Industri-Plex Site and GSIP Study Area. The following abbreviations are used within the table: ft bgs = feetbelow ground surface, NA = not applicable, NM = not measured.
ill
LocationTW01TW02TWOSTW04TWOS
TW06-1TW06-2TW06-3TW07-1TW07-2TW07-3TW08-1TW08-2TW08-3TW10-1TW10-2TW10-3
Date5/17/005/16/005/16/005/16/005/17/005/16/005/16/005/16/005/16/005/16/005/16/005/17/005/17/005/17/005/16/005/16/005/16/00
ScreenDepthft bgs
9.00 1
14.00 '13.001
14.001
11.00 1
12.2517.5022.5012.2515.0020.008.00
13.0017.5010.5815.5820.58
Depth toWaterTable
ftNA
NA
NA
NA
NA
NM
NM
NM
NM
NM
NM
NM
NM
NM
NM
NM
NM
Depth toBedrockft bgs
NM
NM
NM
NM
NM
47.0847.0847.08
NM
NM
NM
NM
NM
NM
NM
NM
NM
Temp.°C
14.116.816.615.414.114.614.113.716.013.815.315.514.315.914.815.416.2
PH7.267.725.956.195.226.325.835.255.725.825.867.825.336.636.656.126.24
NH3-NmgN/L
1065.01191.0
41.32.5
8.0
NM
1.2
8.4
4.9
5.5
16.5851.0
2.4
220.02.3
26.835.2
1 Screen depth is below water surface of Hall's Brook Holding Area Pond determined at the time of installation.
Table 5. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected during fixed point ground water sampling ori August 22-30, 2000 at the Industri-Plex Site and GSIP Study Area. The following abbreviations are used within the table: ft bgs = feetbelow ground surface, NA = not applicable, ND = not detected, NM = not measured.
LocationTW01TW02TW03TW04TWOS
TW06-1TW06-2TW06-3TW07-1TW07-2TW07-3TW08-1TW08-2TW08-3TW10-1TW10-2TW10-3TW11
TW12-1TW12-2TW13
Date8/23/008/23/008/22/008/23/008/23/008/22/008/22/008/22/008/23/008/23/008/23/008/23/008/23/008/23/008/22/008/22/00
i 8/22/008/30/008/30/008/30/008/30/00
ScreenDepth
' ft bgs9.00 1
14.00'13.001
14.001
11.00 1
12.2517.5022.5012.2515.0020.008.00
13.0017.5010.5815.5820.583.503.508.503.50
Depth toWaterTable
ftNANANANANANMNMNMNMNMNMNMNMNMNMNMNM
1.501.501.501.50
Depth toBedrockft bgs
NMNMNMNMNM
47.0847.0847.08
NMNMNMNMNMNMNMNMNMNMNMNMNM
Temp.(°C)
20.717.921.418.718.921.920.518.615.717.115.620.621.222.122.020.819.017.720.120.122.4
PH7.267.445.976.135.126.155.835.21
5.906.076.047.805.146.786.456.046.266.146.286.256.28
NH3-NmgN/L
897.01170.0
37.9
2.38.21.01.39.05.35.7
19.3916.0
ND276.0
2.024.834.8
1.50.10.21.5
1 Screen depth is below water surface of Hall's Brook Holding Area Pond determined at the time of installation.
Table 6. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected .during fixed point ground water sampling on March 28 - April 3, 2001 at theIndustri-Plex Site and GSIP Study Area. The following abbreviations are used within the table: ftfeet below ground surface, NA = not applicable, NS = not sampled, NM = not measured.
LocationTW01TW02.TW03TW04TWOS
TW06-1TW06-2TW06-3TW07-1TW07-2TW07-3TW08-1TW08-2TW08-3TW10-1TW10-2TW10-3TW11
TW12-1TW12-2TW13
Date4/3/20013/29/01
NS3/29/01
NSNSNSNS
3/29/013/29/013/29/014/3/01
NS4/3/014/2/01
' 4/2/014/2/01
NSNSNSNS
1 ScreenDepthftbgs
9.00 '14.00 1
13.00 1
14.001
11.00 1
12.2517.5022.5012.2515.0020.008.00
13.0017.5010.5815.5820.583.503.508.503.50
Depth toWaterTable
ft)NANANANANANMNMNMNMNMNMNMNMNMNMNMNM
1.501.501.501.50
Depth toBedrockftbgs
NMNMNMNMNM
47.0847.0847.08
NMNMNMNMNMNMNMNMNMNMNMNMNM
Temp.(°C)
7.48.6NM7.5NMNMNMNM8.57.69.78.3NM9.84.24.96.6NMNMNMNM
PH7.027.67NM
6.73NMNMNMNM
5.996.236.148.02NM
6.736.726.386.46NMNMNMNM
NH3-NmgN/L
1090.01110.0
NM1.9NMNMNMNM5.27.2
18.2405.0
NM303.0
0.918.031.4NMNMNMNM
1 Screen depth is below water surface of Hall's Brook Holding Area Pond determined at the time of installation.
Table 7. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected during fixed point ground water sampling on September 13-17, 2001 at theIndustri-Plex Site and GSIP Study Area. The following abbreviations are used within the table: ft bgs :feet below ground surface, NA = not applicable, ND = not detected, NS = not sampled, NM = notmeasured.
LocationTW01TW02TW03TW04TWOS
TW06-1TW06-2TW06-3TW07-1TW07-2TW07-3TW08-1TW08-2TW08-3TW10-1TW10-2TW10-3TW11
TW12-1TW12-2TW13
Date9/11/019/11/01
NS1 9/11/01
9/13/01NS
NS
NS
9/11/019/11/019/11/019/10/019/10/019/10/019/12/01'9/12/019/12/01
NS
NS
NS
NS
ScreenDepthft bgs
9.00 '14.00 1
13.001
14.001
11.00 '12.2517.5022.5012.2515.0020.008.00
13.0017.5010.5815.5820.583.503.508.503.50
Depth toWaterTable
ftNANANA
NA
NA
NM
NM
NM
NM
NM
NM
NM
NM
NM
NM
NMNM
1.501.501.501.50
Depth toBedrock
ft bgsNM
NM
NM
NM
NM
47.0847.0847.08
NM
NM
NM
NM
NM
NM
NM
NMNM
NM
NM
NM
NM
Temp.°C
23.721.8NM
22.819.7NM
NM
NM
17.618.817.821.321.221.321.521.222.2NM
NM
NM
NM
PH7.377.39NM
6.135.64NM
NM
NM
5.655.905.737.665.116.786.676.256.25NM
NM
NM
NM
NH3-NmgN/L
1380.01180.0
NM
11.78.5
NM
NM
NM
7.4
27.58.7
797.0ND
365.00.4
27.433.8NM
NM
NM
NM
1 Screen depth is below water surface of Hall's Brook Holding Area Pond determined at the time of installation.
Table 8. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected during surface water sampling on November 30 - December 3,1999 in theHall's Brook Holding Area Pond. Data were collected using a YSI submersible multi-electrode soncje.The following abbreviations are used within the table: NM = not measured.
m
LocationWN50
WN100WN150WN200WN250WN260WC50
WC100WC150WC200WC250WS50
WS100WS150WS200WS250WS300
Date1 1/30/9911/30/9911/30/9911/30/9911/30/9911/30/9911/30/9911/30/9911/30/9911/30/9911/30/9911/30/9911/30/9911/30/99
1 11/30/9911/30/9911/30/99
SondeDepth
cm50
100
150
200
250
260
50
100
150
200
250
50
100
150
200
250
320
Temp.°C
7.077.147.299.44
11.53NM
7.07
7.087.11
8.059.7
6.99e.Sg7.019.3
9.5410.16
PH6.326.326.226.086.49NM
6.346.316.326.126.496.296.3
6.296.216.456.84
NH3-NmgN/L
9.509.87
17.0042.50
NM
NM
9.369.349.86
33.60NM
9.589.549.57NM
NM
NM
Table 9. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected during surface water sampling on March 27 - April 6, 2000 in the Hall's BrookHolding Area Pond. Data were collected using a YSI submersible multi-electrode sonde. The followingabbreviations are used within the table: NM = not measured.
LocationWN50
WN100WN150WN175WN200WN225WN250WN300WC50
WC100WC150WC200WC250WC275WC300WS50
WS100WS150WS200WS250WS300WS340
Date4/4/004/4/004/4/00
. 4/4/004/4/004/4/004/4/004/4/004/4/004/4/004/4/004/4/004/4/004/4/004/4/00'4/4/004/4/004/4/004/4/004/4/004/4/004/4/00
SorideDepth
cm50
100
150
175
200
225
250
300
50
100
150
200
250
275
300
50100
150200
250
300
340
Temp.°C10.8310.8210.8710.8710.8910.9110.8310.4411.3911.4611.5211.059.959.959.60
11.6110.92
10.7810.409.318.988.94
pH6.79
6.957.027.047.056.967.197.517.036.986.976.816.5
6.587.356.996.87
6.786.7
6.397.127.33
NH3-N •mgN/L
7.4
7.4
7.5
8.2
8.0
8.4
99.1
597.07.6
7.3
7.3
24.18.0
27.3NM
7.98.3
8.89.1
12.780.5NM
10
Table 10. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected during surface water sampling on August 22-30, 2000 in the Hall's BrookHolding Area Pond. Data were collected using a YSI submersible multi-electrode sonde. The followingabbreviations are used within the table: NS = not sampled, NM = not measured.
LocationWN50WN100WN150WN180WN200WC50
WC100WC150WC200WC250WS50
WS100WS150WS200WS240
Date8/25/008/25/00
' 8/25/00
8/25/008/25/008/25/008/25/008/25/008/25/008/25/008/29/008/29/008/29/008/29/008/29/00
, SondeDepth(cm)
50100150
180
200
50
100
150
200
240
50
100
150
200
240
Temp.CO
19.0018.5417.7615.2914.2822.2619.2317.7415.2315.2320.4719.3018.5715.9915.08
PH7.127.287.167.377.207.527.397.357.768.026.756.586.617.217.31
NH3-Nmg N/L
13.114.715.568.8
132.014.815.244.061.0
119.016.031.160.3
103.0119.0
11
Table 11. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected during surface water sampling on March 28 - April 3, 2001 in the Hall's BrookHolding Area Pond. Data were collected using a YSI submersible multi-electrode sonde.
LocationWN50
WN100WN150WN200WN250WN270WN310WC50
WC100WC150WC200WC250WC300WS50
WS100WS150WS200WS250WS300
Date4/2/014/2/014/2/014/2/014/2/014/2/014/2/014/2/014/2/014/2/014/2/014/2/014/2/014/2/014/2/014/2/014/2/014/2/014/2/01
SondeDepth(cm)
50
100
150
200
250
270
310
50
100
150
200
250
300
50
100
150
200250
300
Temp.(°C)
4.1
4.1
4.1
4.1
4.4
4.6
6.4
4.0
4.5
4.8
4.9
4.8
4.9
5.1
5.3
5.2
5.45.2
5.2
PH6.346.136.166.166.716.466.505.105.235.035.826.296.536.206.176.436.636.726.78
NH3-NmgN/L
5.4
5.5
6.0
6.4
7.0
6.8
95.55.0
5.3
4.8
5.1
5.1
5.2
5.3
5.1
5.1
5.15.1
5.1
12
Table 12. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected during surface water sampling on September 13-17, 2001 in the Hall's BrookHolding Area Pond. Data were collected using a YSI submersible multi-electrode sonde. The followingabbreviations are used Within the table: NM = not measured.
LocationWC50
WC100WC150WC200WC250WC300WC320WS50
WS100WS150WS200WS250WS300WS330
Date9/17/019/17/019/17/019/17/019/17/019/17/01
9/17/019/17/019/17/019/17/019/17/019/17/019/17/019/17/01
SondeDepth(cm)
5010015020025030032050
100150200250300330
Temp.(°C)
16.416.316.516.516.015.715.617.016.816.416.816.015.214.7
PH6.586.566.336.426.606.576.726.666.696.376.506.656.797.17
NH3-Nmg N/L
16.417.944.879.6
115.0151.0
ftM
15.124.038.090.6
112.0117.0
NM
13
Table 13. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected during surface water sampling on September 21, 2004 in the Hall's BrookHolding Area Pond. Data were collected using a YSI submersible multi-electrode sonde. The followingabbreviations are used within the table: NM = not measured.
LocationWS50
WS100WS150WS200WS300WS350WS400
Date9/20/049/20/049/20/049/20/04
' 9/20/049/20/049/20/04
SondeDepth(cm)
50100150200300350400
Temp.(°C)
16.7215.9014.1914.1514.1214.0914.90
PH6.426.286.186.236.336.266.87
NH3-Nmg N/L •
2.02.22.42.42.34.4
104.0
14
Table 14. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements for inlets and outlet of the Hall's Brook Holding Area Pond. The following abbreviationsare used within the table: NM = not measured.
LocationHall's Brook Inlet
,
Atlantic Ave. Drainway
HBHA Pond Outlet
Date4/5/005/18/008/30/004/5/019/16/019/20/044/5/005/18/008/24/00, A 1
8/24/00, B '4/5/019/20/044/5/005/18/008/30/004/5/019/16/019/20/04
Temp.(°C)
11.514.019.4
11.015.1NM
11.1NM
16.718.2NM
NM
12.016.022.610.921.6NM
PH7.937.447.226.866.97NM
7.14NM
6.335.94NM
NM
6.707.146.956.766.73NM
NH3-Nmg N/L
5.2
7.8
7.6
5.5
4.1
3.3
0.1
NM
NM
NM
2.2
0.7
7.4
8.0
16.06.9 .
17.24.0
1 Dates '8/24/00, A' and'8/24/00, B' refer to samples collected at two closely spaced locations at Atlantic Avenue Drainway outlet.
m
15
Table 15. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected during water sampling from North Multi-Level Station in the Hall's Brook HoldingArea Pond. The following abbreviations are used within the table: NM = not measured.
LocationNML-1
NML-2
NML-3
NML-4
NML-5
NML-6
NML-7
NML-8
NML-9
NML-1 0
Date4/5/014/10/015/14/019/14/019/21/044/5/01
4/10/015/14/015/31/019/14/019/21/044/5/014/10/015/14/019/14/019/21/044/5/01
4/10/015/14/019/14/019/21/04
' 4/5/014/10/015/14/019/13/019/21/044/5/01
4/10/015/14/015/31/019/13/019/21/044/5/01
4/10/015/14/019/13/019/21/044/5/01
4/10/015/14/019/13/019/21/044/5/014/10/015/14/019/14/019/21/044/5/014/10/015/14/019/13/019/21/04
., Screen" Depth
(cm)69
119
169
219
269
319
369
419
469
519
Temp.<°C)
NM11.814.115.8NM9.5
10.513.615.616.1NMNM
11.413.916.4NM9.4
10.914,216.3NM9.9
10.614.122.9NM9.6
10.614.815.223.916.09.9
11.314.824.816.810.410.716.427.517.9NMNMNMNMNM
10.112.715.921.318.6
PHNM
6.186.636.25NM
6.536.156.546.446.31NMNM
6.286.215.23NM
6.536.546.246.11NM
6.426.716.546.68NM
6.646.566.817.036.846.987.146.626.736.736.936.866.686.746.796.83NMNMNMNMNM
7.497.287.097.467.14
NH3-NmgN/L
NMNM
12.217.2NM8.2NM
16.1NM
14.9NMNMNM
21.318.3NM9.9NM
42.680.3NM
63.2NM
323.0449.0
NM297.0
NM817.0
NM1050.0933.0
1170.0NM
1180.01160.0
11101150.0
NM1230.01270.01100.01100.0
NM1890.02050.0
NM1980.0
NM2100.02110.01670.0
16
Table 16. Summary of temperature and pH data (field measurements) and laboratory ammoniameasurements collected from Discrete Multi-level Samplers installed within the Hall's Brook Holding AreaPond. The following abbreviations are used within the table: ND = not detected, NM = not measured,SWI = sediment-water interface.
Location
DMLS-1
Installed: 4/3/00
Retrieved:8/29/00
DMLS-2
Installed:8/30/00
Retrieved:4/3/01
OMLS-3
Installed' 4/3/01
Retrieved:9/12/01
RelativeDepth
cm '0.011.422.9 '34.345.7
57.2 '
74.6
86.0
97.5
108.9
120.3
0.0
11.4
22.9
34.3
45.7
57.2
74.6
86.0
97.5
108.9
120.3
0.0
11.4
22.9
34.3
45.7
57.2
74.6
86.0
97.5108.9
120.3
PHNM
NM
NM
NM
NM
NM
NM
NM
NM ,
NM
NM
6.85
6.90
7.49
NM
7.31
7.46
7.38
NM
7.27
NM
7.61
6.96
6.90
6.93
6.95
7.07
6.81
6.84
6.97
6.866.86
6.88
NH3-Nmg N/L
ND
344.3
368.5405.9
381.7
374.0
355.3
343.2
365.2
NM
NM
238.6
387.2
1762.2
1930.1
2073.9
2037.9
2037.9
NM
2014.0
2325.7
2349.7
738.1
658.2
719.8
655.8
637.1
610.2
600.2
588.7
584.8573.7
479.5
CommentsAbove SWIAbove SWIAbove SWIAbove SWIAbove SWIAbove SWIBelow SWIBelow SWIBelow SWI
Below SWI; sample cell not recoveredBelow SWI; sample cell not recovered
Above SWIAbove SWIAbove SWIBelow SWIBelow SWIBelow SWIBelow SWI
Below SWI ; sample cell not recoveredBelow SWIBelow SWIBelow SWIBelow SWIBelow SWIBelow SWIBelow SWIBelow SWIBelow SWIBelow SWIBelow SWfBelow SWIBelow SWIBelow SWI
17
Figure 1. Snap-shot ground water sampling locations for the Industri-Plex Site and GSIP Study Area.Image was derived from April 2001 aerial photograph obtained from MassGIS.
18
Figure 2. Fixed ground water monitoring locations for the Industri-Plex Site and GSIP Study Area. Imagewas derived from April 2001 aerial photograph obtained from MassGIS.
IN
19
Figure 3. Surface water and sediment porewater monitoring locations within the Hall's Brook HoldingArea Pond. Image was derived from November 1995 aerial photograph obtained from MassGlS.
**.,. Atlantic Avenue Draliiway
DMLS-1NML
A *DMLS-2
North Surface Water
DMLS-3
Hall's Brook Inlet
Central Surface Water
South Surface Water
WfeHA Pond Outlet
20
APPENDIX B
JULY 2005 SURFACE WATER AND SOIL SAMPLE RESULTS
£ ** \
USE/UNITED STATES ENVIRONMENTAL PROTECTION AGENCY'
REGION 11 Congress Street, Suite 1100BOSTON, MA 02114-2023
Memorandum
Date: August 16, 2005
Subject: Industri-Plex Sampling Results
From: Jason Turgeon, OES
To: Joe LeMay, OSRR
CC: kich Fisher, OEME
Joe,
Enclosed are the sampling results from our water sampling in the Halls Pondwatershed on July 11, 2005, and our soil sampling in the Rifle Club area on July12, 2005.
The sampling results are compiled in two tables for quick reference, andaccompanied by aerial maps detailing the sampling locations. Also enclosed arecopies of the sampling log. Following these are the complete analytical reportsfrom Chelmsford. If you would like the tables and maps in an electronic format,please let me know. You can reach me at 8-1634.
Jason
Industri-Plex Water Sampling Results, Halls Pond Watershed AreaSampling Date: July 11, 2005
Analyte (m9/L)Sample ID
CULV-01COMBAT 'J?.xtS>'1-'.OUTLET-01185NB-HALLS-01:185NB-RR01LANDFILL4.F01 'LANDFILL-LF02l DFILL-RRGJ ;RR03fsm .?^s^^my' i-HALLS-22MAPLE-01H/UXS-20THJRB-4W
BromideND<0.50ND<0.50ND<0.50
fNCkO.50ND<0.50ND<0.50ND<0.50ND<0.80ND<0.50ND<0.SQsND<0.50ND<0.50
Chloride40
103*83*104*105*130*131*112*86*
' 92*
108*; 105*
FluorideND<0.50ND<0.50ND<0.50ND<0.50
0.6ND<0.50ND<0.50
0.61.1
ND<0.50ND<0.50ND<0.5D
Nitrate5.93,62.42.67.22;7,4.05,64.13.02.92,2
Nitrite0.15
NEMUQND<0.10ND<0;10
0.210.240.39
-=0.1B'ND<0.10ND<0.10ND<0.10ND<0.10
Sulfate24
, .-23,:.-31
.-'tast-er
••,.'38:'-39
•;,-5S*.;'85*
- '24 •;•12
••• - 11
Nitrate (N)1.3
:.'V0.8t;';,-0.54
•:*QJSB-:-V1.6
•:~:-~.0.61-i i0.90
'•\'<t. 1.3r«'0.93
7i;;, 0.68 --nv0.650.50
Nitrite (N)0.05
N0<0.03ND<0.03NP<0.03
0.06s>.ao7 •
0.12;.fcmO£r..;'ND<0.03ND<0;03;ND<0.03:NDi:0.03
o-Phospate (P)ND<0.03
> NO<O.Q3vND<0.03
-.:--• NEMM p-ND<0.03NO<0,®rND<0.03
•:- MMK00;: •;-ND<0.03
;, NO<Oi03;lND<0.03
.;• ND<o.o3:-
* Estimated value, outside calibration curveND<0.50 = Not Detected at a reporting limit of 0.50 mg/L
Note: For clarity, the prefix "IP" has been removed from sample ID's.
Industri-Plex Soil Sampling Results, Rifle Club Area Sampling Date: July 12,2005
RC-05
RC-07
RC-09
RC-11
8300
2900
ND<12 ND<24
toalyte (ing/Kg)Sample ID Aluminum Antimony Arsenic Barium Beryllium Cadmium ICalcium [Chromium ICobart [Copper Iron I Lead Magnesium Manganese Nickel Potassium ISelenium Silver I Sodium [Thallium
ND<1.2 I ND<3.2
ND<11 ND<22 13
3100 L ND<10 ND<20J 40^ ND<1.0^ SSSS R^rfp^TTT
2200 I 12 |7JD<20| 7~[ND<0.99
ND<3.0 5400
79 J20pbp| 240!?*»J .v.f.JByyy^y*»P%ffr
21 I 7700 | 370 620
ND<3.0 I 130
|ND<3.3| 4 I 2900] 52
12 ~~|ND<3.0| 19 I 67001 240
8.4 |ND<3.0| 11 I 36001 160
23
3.8
33
' Estimated value, outside calibration curveND<15 = Not Detected at a reporting limit of 15 mg/Kg
Note: For clarity, the prefix "IP" has been removed from sample ID'S.
f/EPANew England
DRAFT: Aug; 12*, ZOOS
Roads
Hydro
Sc.im>
T Industri-Hex Water SamplingHalls Pond Watershed
N
1
a Jf£*4F.
RC-10 n4RC-09 cA—RC-08 a^
RG-07 nRG-Q6 a 4 ,RC-05 n
RC-04 a H
RC-03 n
RG-02 °
RC-01
<vEPANew England
DRAFT Ajjgmtlah, 2005
Roads
Rifle Club P*h l*joi
Industri-Plex Soil SamplingRifle Club Area
1 tacktf Kb ltd ftn
ALPHA ANALYTICAL LABORATORIES
Eight Walkup DriveWesthorough, Massachusetts 01581-1019(508) 898-9220 www.alphalab.com
MA:M-MA086 NH:200301-A CT:PH-0574 ME:MA086 RI:65 NY:11148 NJ:MA935 Army:USACE
CERTIFICATE OF ANALYSIS
Client: U.S. EPA Laboratory Job Number: L0507683
Address: N.'E. Regional Lab-Office of Env. Meas., 11 Technology Drive
North Chelmsford, MA 01863-2431 Date Received: 12-JUL-2.005
Attn: Mr. Dan Boudreau
Project Number: 05070015
Site: INDUSTRI- PLEX
Date Reported: 26-JUL-2005
Delivery Method: Alpha
ALPHA SAMPLE NUMBER
L0507683-01L0507683-02L0507683-03L0507683-04L0507683-05L0507683-06L0507683-07L0507683-08L0507683-09L0507683-10L0507683-11 'L0507683-12L0507683-13L0507683-14
CLIENT IDENTIFICATION
IP-CULV-01
IP-COMB-01IP-OUTLET-01IP-185NB-HALLS-01
IP-185NB-HALLS-01D
IP-185NB-RR01
IP-185NB-RR01D
IP-LANDFILL-LF01
IP-LANDFILL-LF02
IP-LANDFILL-RR02•
IP-RR03
IP-RR04
IP-HALLS-22 MAPLE-01
IP-HALLS-20 THIRD-01
SAMPLE LOCATION
I, the undersigned, attest under the pains and penalties of perjury that, based upon my personal inquiry of those responsible
for obtaining the information, the material contained in this report is, to the best of my knowledge and belief, accurate and
complete. This certificate of analysis is not complete unless this page accompanies any and all pages of this report.
Authorized bv:Doualas SheelevThis document electronically signed
07260510:06 Page 1 of 19
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OF ANALYSIS
MA:M-MA086 NH:200301-A CT:PH-0574 ME:MA086 RI:65 NY:11148 NJ:MA935 Army:OSACE
Laboratory Sample Number: L0507683-01IP-CULV-01
Sample Matrix: ' . WATER
Condition of Sample: Satisfactory
Number' & Type of Containers: 1-Plastic
Date Collected: ll-JUL-2005 10:30Date Received : 12-JUL-2005Date Reported : 26-JUL-2005
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia !.03 mg/1 0 .075 44 350.1 0721 17:30 0722 12:14 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 2 of 19
•ii
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OF ANALYSIS
MA:M-MA086 NH:200301-A CT:PH-0574 ME:MA086 RI:65 NY:11148 NJ:MA935 Army.USACE
Laboratory Sample Number: L0507683-02IP-COMB-01
Sample Matrix: WATER
Condition of Sample: Satisfactory
Number & Type of Containers: 1-Plastic
Date Collected: ll-JUL-2005 11:20Date Received : 12-JUL-2005Date Reported : 26-JUL-2005
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia 2.10 mg/1 0.075 44 350.1 0721 17:30 0722 12:15 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 3 of 19
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OP ANALYSIS
MA:M-MA086 NH:200301-A CT-.PH-0574 ME:MA086 RI:65 NY:11148 NJ:MA935 Army:USACE
Laboratory Sample Number: LO507683-03IP-OUTLET-01
Sample Matrix: WATER
Condition of Sample: Satisfactory
Number' & Type of Containers: 1-Plastic
Date Collected: ll-JUL-2005 12:15Date Received : 12-JUL-2005Date Reported : 26-JUL-2005
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia 3.81 mg/1 0.075 44 350.1 0721 11:30 0722 12:19 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 4 of 19
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OF ANALYSIS
MA:M-MA086 NH:200301-A CT:PH-0574 ME:MA086 RI:65 NY:11148 NJ:MA935 Army:USACE
Laboratory Sample Number: L0507683-04IP-185NB-HALLS-01
Sample Matrix: WATER
Condition of Sample: Satisfactory
Number & Type of Containers: 2-Plastic
Date Collected: ll-JUL-2005 13:15Date Received : 12-JUL-2005Date Reported : 26-JUL-2005
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia ND mg/1 0.075 44 350.1 0721 17:30 0722 12:20 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 5 of 19
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OF ANALYSIS
MA:M-MA086 NH:200301-A CT:PH-0574 ME:MA086 RI:65 NY:11148 NJ:MA935 Army:USACE
Laboratory Sample Number: LO507683-05IP-185NB-HALLS-01D
Sample Matrix: WATER
Condition of Sample: Satisfactory
Number & Type of Containers: 1-Plastic
Date Collected: ll-JUL-2005 13:15Date Received : 12-JUL-2005Date Reported : 26-JUL-20C5
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia ND mg/1 0.075 44 350.1 0721 17:30 0722 12:22 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 6 of 19
ritf
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OF ANALYSIS
MA:M-MA086 NH:200301-A CT:PH-0574 ME:MA086 RI:65 NY:11148 NJ:MA935 Army:USACE
Laboratory Sample Number: LO507683-06IP-185NB-RR01
Sample Matrix: WATER
Condition of Sample: Satisfactory
Number & Type of Containers: 2-Plastic
Date Collected: ll-JUL-2005 13:25Date Received : 12-JUL-2005Date Reported : 26-JUL-2005
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia 9.97 mg/1 0.075 44 350.1 0721 17:30 0722 12:23 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 7 of 19
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OF ANALYSIS
HA:M-MA086 NH:200301-A CT:PH-0574 ME:MA086 RI:65 NY:11148 NJ:HA935 Army:USAGE
Laboratory Sample Number: L0507683-07IP-185NB-RR01D
Sample Matrix: WATER
Condition of Sample: Satisfactory
Number & Type of Containers: 1-Plastic
Date Collected: ll-JUL-2005 13:25Date Received : 12-JUL-2005Date Reported : 26-JUL-2005
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia 10.1 mg/1 0.075 44 350.1 0721 17:30 0722 12:25 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 8 of 19
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OF ANALYSIS
MA:M-MA086 NH:200301-A CT:PH-0574 ME:MA086 RI:65 NY:11148 NJ:MA935 Army:USACE
Laboratory Sample Number: L0507683-08IP-LANDFILL-LF01
Sample Matrix: WATER
Condition of Sample: Satisfactory
Number & Type of Containers: 1-Plastic
Date Collected: ll-JUL-2005 14:30Date Received : 12-JUL-2005Date Reported : 26-JUL-2005
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia 12.7 mg/1 0.075 44 350.1 0721 17:30 0722 12:25 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 9 of 19
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OF ANALYSIS
MA:M-MA086 NH:200301-A CT:PH-0574 ME:MA086 RI:65 NY:11148 NJ:MA935 Army:OSACE
Laboratory Sample Number: LO507683-09IP-LANDFILL-LF02
Sample Matrix: WATER
Condition of Sample: Satisfactory
Number's Type of Containers: 1-Plastic
Date Collected: ll-JUL-2005 15:00Date Received : 12-JUL-2005Date Reported : 26-JUL-2005
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia 11.0 mg/1 0 . 075 44 350.1 0721 17:30 0722 12:26 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 10 o£ 19
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OF ANALYSIS
MA:M-MA086 NH:200301-A CT:PH-0574 ME:MA086 RI:65 NY:11148 NJ:MA935 Army:USACE
Laboratory Sample Number: L0507683-10IP-LANDFILL-RR02
Sample Matrix: WATER
Condition of Sample: Satisfactory
Number & Type of Containers: 1-Plastic
Date Collected: ll-JUL-2005 14:15Date Received : 12-JUL-2005Date Reported : 26-JUL-2005
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia 11.3 mg/1 0 . 075 44 350.1 0721 17:30 0722 12:31 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 11 of 19
Ml
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OF ANALYSIS
MA:M-MA086 NH:200301-A CT:PH-0574 ME:MA086 RI:65 NY:11148 NJ:MA935 Army:USACE
141 Laboratory Sample Number: L0507683-11IP-RR03
Sample Matrix: WATER
Condition of Sample: Satisfactory
Number fc Type of Containers: 1-Plastic
Date Collected: ll-JUL-2005 15:35Date Received : 12-JUL-2005Date Reported : 26-JUL-2005
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia mg/1 0.075 44 350.1 0721 17:30 0722 :2:31 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 12 of 19
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OF ANALYSIS
MA:M-MAOS6 NH:200301-A CT:PH-0574 ME:MA086 RI:65 NY:11148 NJ:MA935 Army:USAGE
Laboratory Sample Number: L0507683-12IP-RR04
Sample Matrix: WATER
Condition of Sample: Satisfactory
Number S Type of Containers: 1-Plastic
Date Collected: ll-JUL-2005 16:05Date Received : 12-JUL-2005Date Reported : 26-JUL-2005
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia 0.275. mg/1 0.075 44 350.1 0721 17:30 0722 12:32 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 13 of 19
ili
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OF ANALYSIS
MA-.M-MA086 NH:200301-A CT:PH-0574 ME:MA086 RI: 65 NY:11148 NJ:MA935 Army:USACE
Laboratory Sample .Number: L0507683-13IP-HALLS-22 MAPLE-01
Sample Matrix: WATER
Condition of Sample: Satisfactory
Number & Type of Containers: 1-Plastic
Date Collected: ll-JUL-2005 16:55Date Received : 12-JUL-2005Date Reported : 26-JUL-2005
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia ND mg/1 0 . 075 44 350.1 0721 17:30 0722 12:33 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 14 of 19
ALPHA ANALYTICAL LABORATORIESCERTIFICATE OF ANALYSIS
MA:M-MA086 NH:200301-A CT:PH-0574 ME:MA086 RI: 65 NY:11148 NJ:MA935 Army:OSACE
Laboratory Sample Number: L0507683-14IP-HALLS-20 THIRD-01
Sample Matrix: WATER
Condition of Sample: Satisfactory
Number & Type of Containers: 1-Plastic
Date Collected: ll-JUL-2005 17:15Date Received : 12-JUL-2005Date Reported : 26-JUL-2005
Field Prep: None
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Nitrogen, Ammonia ND mg/1 0.075 44 350.1 0721 17:30 0722 12:34 AT
Comments: Complete list of References and Glossary of Terms found in Addendum I
07260510:06 Page 15 of 19
ALPHA ANALYTICAL LABORATORIESQUALITY ASSURANCE BATCH DUPLICATE ANALYSIS
Laboratory Job Number: L0507683
Parameter Value 1 Value 2 Units RPD RPD Limits
Nitrogen, Ammonia for sample(s) 01-14 (L0507683-04, WG208238-4)Nitrogen, Ammonia ND ND mg/1 NC
07260510:06 Page 16 of 19
ALPHA ANALYTICAL LABORATORIESQUALITY ASSURANCE BATCH SPIKE ANALYSES
Laboratory Job Number: L0507683
Parameter ;; % Recovery QC Criteria
Nitr6gen, Ammonia LCS for sample(s) 01-14 (WG208238-2)Nitrogen, Ammonia 96
Nitrogen, Ammonia SPIKE for sample(s) 01-14 (L0507683-06, WG208238-3)Nitrogen, Ammonia 98
07260510:06 Page 17 of 19
ALPHA ANALYTICAL LABORATORIESQUALITY ASSURANCE BATCH BLANK ANALYSIS
Laboratory Job Number: L0507683
PARAMETER RESULT UNITS RDL REF METHOD DATE IDPREP ANAL
Blank Analysis for sample(s) 01-14 (WG208238-1)Nitrogen, Ammonia ND mg/1 0 .075 44 350.1 0721 17:30 0722 i:;:08 AT
07260510:06 Page 18 of 19
ALPHA ANALYTICAL LABORATORIESADDENDUM I
REFERENCES
44. Methods for the Determination of Inorganic Substances in EnvironmentalSamples, EPA/600/R-93/100, August 1993.
GLOSSARY OF TERMS AND SYMBOLSREF Reference number in which test method may be found.METHOD Method number by which analysis was performed.ID Initials of the analyst.ND Not detected in comparison to the reported detection limit.NI Not Ignitable.ug/cart Micrograms per Cartridge.
LIMITATION OF LIABILITIES
Alpha Analytical,, Inc. performs services with reasonable care and diligencenormal to the analytical testing laboratory industry. In the event of an error, thesole and exclusive responsibility of Alpha Analytical, Inc., shall be to re-performthe work at it's own expense. In no event shall Alpha Analytical, Inc. be heldliable for any incidental consequential or special damages, including but notlimited to, damages in any way connected with the use of, interpretation of,information or analysis provided by Alpha Analytical, Inc.
We strongly urge our clients to comply with EPA protocol regarding samplevolume, preservation, cooling, containers, sampling procedures, holding timesand splitting of samples in the field.
07260510:06 Page 19 of 19
• > - ! • • • •ENVIRONMENTAL PROTECTION AGENCY
^ REGION 1
ALPHA Job «1450*1 W3
CHAIN OF CUSTODY RECORD
1 1 * 1 1 1
"To A\f>HA AfVAiY TtCA-L
PROJ. NO.
05070OI5
PROJECT NAME
SAMPLERS: f£*»««u£tJ
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STA.NO. DATE TIME STATION LOCATION
NO.
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REMARKS
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Relinquished by: ISigntnin)
Date /Time
Date /Time
Received by: ISigrutunl
Received by: ISign»tun>
Relinquished by: (Signttunl Date / Time Received for Uboratory by:fSignxurt)
Date /Time
Distribution: Origin*! Accompmitt Shipment; Copy «0 Coordm«Of Freld Fil«
Remarks
1-14778
Joseph LeMay - HBO
US EPA New England Region 1
One Congress StreetBoston, MA 02114-2023
Office of Environmental Measurement & Evaluation* 1 Technology Drive
North Chelmsford, MA 01863-2431
Laboratory Report
July 20,2005 , '
Project Number: 05070015
Project: Industri-Plex - Woburn, MAAnalysis: Ion Chromatography AnionsAnalyst: Inna Germansderfer T£"
Analytical Procedure:
All samples were received and logged in by the laboratory according to the USEPA New EnglandLaboratory SOP fpr Sample Log-in.
Samples were analyzed following the EPA Region I SOP, EIASOP-INGDXIC8.
The analysis was performed using either a Dionex DX320 or DX120 Ion Chromatograph.
Date Samples Received by the Laboratory: 7/12/05
Results relate only to the items tested or to the samples as received by the Laboratory. This analytical report shall not bereproduced except in full, without written approval of the laboratory.
If you have any questions please call me at 617-918-8602 .
Sincerely,
Peter PhilbrookChemistry Laboratory Services Coordinator
Qualifiers:
RL = Reporting limitND = Not Detected above reporting limitNA = Not ApplicableNC = Not calculated since analyte concentration is NDJl = Estimated value due to MS recovery outside accceptance criteriaJ2 = Estimated value due to LFB result outside acceptance criteriaJ3 = Estimated value due to RPD result outside acceptance criteriaJ4 = Estimated value due to LCS result outside acceptance criteriaB = Analyte is associated with the lab blank or trip blank contamination. Values are
qualified when the observed concentration of the contamination in the sampleextract is less than 10 times the concentration in the blank.
R = No recovery was calculated since the analyte concentration is greater than four timesthe spike level.
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Ion Chromatography Anions
Client Sample ID:
Date of Collection:
IP-CULV-OI
7/11/2005Lab Sample ID: AA51244
Matrix Water
Date of Analysis: 7/12/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationmg/L
ND40
ND5.9
0.1524
RLme/L
0.500.100.500.100.100.10
Qualifier
Comments:
NO2NO3 as Nitrogen / PO4 as Phosphorus
CAS Number ParameterConcentration
mg/LRL
mg/L QualifierNitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
1.30.05ND
0.020.030.03
Pagel of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Ion Chromatography Anions
Client Sample ID:
Date of Collection:
IP-COMB-OI
7/111/2005Lab Sample ID:
Matrix
AA51245
Water
Date of Analysis: 7/12/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationmg/L
ND103ND3.6ND23
RLme/L
0.500.100.500.100.100.10
Qualifier
J
Comments. J- estimated value, outside calibration curve
ill
NO2NO3 as Nitrogen / PO4 as Phosphorus
CAS Number ParameterConcentration
mg/LRL
mg/L QualifierNitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
0.81NDND
0.020.030.03
Page 2 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-PIex - Woburn, MA
Ion Chromatography Anions
Client Sample ID:
Date of Collection:
IP-OUTLET-OI
7/11/2005Lab Sample ID:
Matrix
AA51246
Water
Date of Analysis: 7/12/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationmg/L
ND83
ND2.4ND31
RLmg/L
0.500.100.500.100.100.10
Qualifier
J
Comments: J- estimated value, outside calibration curve
NO2NO3 as Nitrogen / PO4 as Phosphorus
CAS Number ParameterConcentration
mg/LRL
mg/L QualifierNitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
0.54NDND
0.020.030.03
Page 3 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Ion Chromatography Anions
Client Sample ID:
Date of Col lection:
IP-I85NB-HALLS-OI
7/1 1/2005Lab Sample ID:
Matrix
AA51247
Water
Date of Analysis: 7/12/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationms/L
ND104ND2.6ND12
RLme/L
0.500.500.500.100.100.10
Qualifier
J
Comments: J- estimated value, outside calibration curve
•Bf
NO2NO3 as Nitrogen / PO4 as Phosphorus
CAS Number ParameterConcentration
mg/LRL
mg/L QualifierNitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
0.59NDND
0.020.030.03
Page 4 of 15
US UIN VIKUNMbN 1AL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Ion Chromatography Anions
Client Sample ID:
Date of Col lection:
IP-185NB-HALLS-01D
7/11/2005Lab Sample ID:
Matrix
AA51248
Water
Date of Analysis: 7/12/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationme/L
ND104ND2.6ND12
RLme/L
0.500.100.500.100.100.10
Qualifier
J
Comments: J- estimated value, outside calibration curve
NO2NO3 as Nitrogen / PO4 as Phosphorus
CAS Number ParameterConcentration
mg/LRL
mg/L QualifierNitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
0.59NDND
0.020.030.03
Page 5 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Ion Chromatography Anions
Client Sample ID:
Date of Collection:
IP-I85NB-RROI
7/11/2005Lab Sample ID:
Matrix
AA51249
Water
Date of Analysis: 7/12/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationmg/L
ND105
0.607.2
0.2161
RLme/L
0.500.100.500.100.100.10
Qualifier
J
J
Comments: J- estimated value, outside calibration curve
NO2NO3 as Nitrogen / PO4 as Phosphorus
CAS Number ParameterConcentration
mg/LRL
mg/L QualifierNitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
1.60.06ND
0.020.030.03
Page 6 of 15
tlN V 1KUINMK1N 1 AL fKU 1 CL. 11<J1N A
NEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Ion Chromatography Anions
Client Sample ID:
Date of Collection:
IP-I85NB-RR01D
7/11/2005Lab Sample ID:
Matrix
AA51250
Water
Date of Analysis: 7/12/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationmg/L
ND105ND7.2
0.2261
RLme/L
0.500.100.500.100.100.10
Qualifier
J
J
Comments: J- estimated value, outside calibration curve
NO2NO3 as Nitrogen / PO4 as Phosphorus
CAS Number ParameterConcentration
mg/LRL
mg/L QualifierNitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
1.60.07ND
0.020.030.03
Page 7 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Ion Chromatography Anions ,
Client Sample ID:
Date of Collection:
IP-LANDFILL-LFOI
in 1/2005Lab Sample ID:
Matrix
AA51251I
Water
Date of Analysis: 7/12/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationmg/L
ND130ND2.70.24
38
RLme/L
0.500.100.500.100.100.10
Qualifier
J
Comments: J- estimated value, outside calibration curve
NO2NO3 as Nitrogen / PO4 as Phosphorus
CAS Number ParameterConcentration
mg/LRL
mg/L QualifierNitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
0.610.07ND
0.020.030.03
Page 8 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Ion Chromatography Anions
Client Sample ID:
Date of Collection:
IP-LANDFILL-LF02
7/11/2005Lab Sample ID:
Matrix
AA51252
Water
Date of Analysis: 7/13/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationme/L
ND131ND4.00.39
39
RLme/L
0.500.100.500.100.100.10
Qualifier
J
Comments: J- estimated value, outside calibration curve
NO2NO3 as Nitrogen / PO4 as Phosphorus
CAS Number ParameterConcentration
mg/LRL
mg/L QualifierNitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
0.900.12ND
0.020.030.03
Page 9 of 15
••*
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Ion Chromatography Anions
Client Sample ID:
Date of Collection:
IP-LANDFILL-RR02
7/11/2005Lab Sample ID:
Matrix
AA51253
Water
Date of Analysis: 7/13/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationme/LND112
0.605.6
0.1858
RLme/L
0.500.100.500.100.100.10
Qualifier
J
J
Comments: J- estimated value, outside calibration curve
NO2NO3 as Nitrogen / PO4 as Phosphorus
CAS Number ParameterConcentration
me/LRL
QualifierNitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
1.30.05ND
0.020.030.03
Page 10 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Ion Chromatography Anions
Client Sample ID:
Date of Collection:
IP-RR03
7/11/2005Lab Sample ID:
Matrix
AA51254
Water
Date of Analysis: 7/13/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationms/L
ND86
1.14.1ND85
RLme/L
0.500.100.500.10
, 0.100.10
Qualifier
J
J
Comments: J- estimated value, outside calibration curve
NO2NO3 as Nitrogen / PO4 as Phosphorus
CAS Number ParameterConcentration
mg/LRL
mg/L QualifierNitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
0.93NDND
0.020.030.03
Page 11 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Ion Chromatography Anions
Client Sample ID:
Date of Collection:
IP-RR04
7ih 1/2005Lab Sample ID:
Matrix
AA51255*
Water
Date of Analysis: 7/13/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationme/L
ND92
ND3.0ND24
RLme/L0.500.100.500.100.100.10
Qualifier
J
Comments: J- estimated value, outside calibration curve
NO2NO3 as Nitrogen / PO4 as Phosphorus
CAS Number ParameterConcentration
mg/LRL
mg/L Qualifier
Nitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
0.68NDND
0.020.030.03
Page 12 of 15
US ENVIRONMENTAL PKUTbCTlUN AUtlNCtNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Ion Chromatography Anions
Client Sample ID:
Date of Collection:
IP-H ALLS-22M APLE-01
7/11/2005Lab Sample ID:
Matrix
AA51256
Water
Date of Analysis: 7/13/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationme/L
ND108ND2.9ND12
RLmE/L
0.500.100.500.100.100.10
Qualifier
J
Comments: J- estimated value, outside calibration curve
NO2NO3 as Nitrogen / PO4 as Phosphorus
CAS Number ParameterConcentration
mg/LRL
mg/L QualifierNitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
0.65NDND
0.020.030.03
Page 13 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Ion Chromatography Anions
Client Sample ID:
Date of Collection:
IP-HALLS-20THIRD-01
7^11/2005Lab Sample ID: AA51257
Matrix Water
Date of Analysis: 7/13/05
CAS Number ParameterBromideChlorideFluorideNitrateNitriteSulfate
Concentrationmg/L
ND105ND2.2ND11
RLmfi/L
0.500.100.500.100.100.10
Qualifier
J
Comments: J- estimated value, outside calibration curve
NO2NO3 as Nitrogen / PO4 as Phosphorus
ConcentrationCAS Number Parameter
RLmg/L Qualifier
Nitrate as NitrogenNitrite as Nitrogeno-Phosphate as Phosphorus
0.50NDND
0.020.030.03
Page 14 of 15
US ENVIRONMENTAL PROTECTION AUtlNCYNEW ENGLAND LABORATORY
Industri-PIex - Woburn, MA
Laboratory Blank
Client Sample ID: N/A
Date of Collection: N/ALab Sample ID:
Matrix
N/A
Water
Date of Analysis: 7/12/05
CAS Number ParameterConcentration
mg/LRL
mg/L QualifierBromideChlorideFluorideNitrateNitriteSulfate
NDNDNDNDNDND
0.500.100.500.100.100.10
Comments:
Page 15 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
MATRIX SPIKE (MS) RESULTS
Industri-Plex - Woburn, MA
**
COMPOUND
Sample ID: AA51247
BromideChlorideFluorideNitrateNitriteSulfate
5ampleID: AA51249
BromideChlorideFluorideNitrateNitriteSulfate
SPIKEADDED
mg/L
51.5155
7.5
51.5155
7.5
SAMPLECONCENTRATION
mg/L
ND104ND2.6ND12
ND1050.67.2
0.2161
MS MSCONCENTRATION %
, mg/L REC
5.2991.07.76.119
5.4too1.7125.764
104R100105122101
108R113103110R
QCLIMITS(% REC)
80-80-80-80-80-80-
80-80-80-80-80-80-
120120120120120120
120120120120120120
OC Page 1 of 3
NEW ENGLAND LABORATORY
LABORATORY DUPLICATE RESULTS
Industri-Plex - Woburn, MA
COMPOUND
SAMPLERESULT
mg/L
SAMPLE DUPLICATERESULT
mg/L
PRECISIONRPD
%
QCLIMITSRPD (%)
Sample ID: AA51244
BromideChlorideFluorideNitrateNitriteSulfate
Sample ID: AA51254
BromideChlorideFluorideNitrateNitriteSulfate
Comments:
ND40
ND5.9
0.1524
ND861.14.1ND85
ND.40ND5.9
0.1624
ND881.24.1ND85
ND0.0ND0.06.50.0
ND2.38.70.0ND0.0
202020202020
202020202020
OC Page 2 of 3
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Laboratory Fortified Blank (LFB) Results
Industri-Plex - Woburn, MA
COMPOUND
BromideChlorideFluorideNitrateNitriteSulfate
rLFB AMOUNT
SPIKED
mg/L
51.5155
7.5
LFBRESULT
mg/L5.01.4
0.905.14.87.7
LFBRECOVERY
%
100939010296103
QCLIMITS
%
90-11090- 11090-11090-11090-11090-110
* Samples in Batch: AA51244, AA51245, AA51246, AA51247, AA51248, AA51249, AA51250, AA51251,AA51252, AA51253, AA51254, AA51255, AA51256, AA51257
OC Page 3 of 3
United States Environmental Protection AgencyOffice of Environmental Measurement & Evaluation
Re#!Tn i^Ne" i£glJd 11 Technology DriveNorth Chelmsford, MA 01863-2431
Laboratory Report
July 26, 2005
Joseph LeMay - HBO
US EPA New England Region 1One Congress Street
Boston, MA 02114-2023
Project Number: 05070017
Project: Industri-Plex - Woburn, MAAnalysis: Metals in Soil Medium Level by ICPEPA Chemist: MikeDowling'
Analytical Procedure:
All samples were received and logged in by the laboratory according to the USEPA New EnglandLaboratory SOP for Sample Log-in.
Samples were prepared following the EPA Region I SOP, INGMETALSPREP5.SOP.
Samples were analyzed following the EPA Region I SOP, EIASOP-INGICP6.
Samples were analyzed by inductively coupled plasma - atomic emission spectrometry using pneumatic nebulization.Preparation and analysis SOP's are based on "Test Methods for Evaluating Solid Waste, Physical/Chemical Methods,SW-846, 3rd Edition, Revision 2, Final Update III, Methods 3050B and 6010B," respectively.
Date Samples Received by the Laboratory: 7/12/05
Results relate only to the items tested or to the samples as received by the Laboratory. This analytical report shall notbe reproduced except in full, without written approval of the laboratory.
If you have any questions, please call me at 617-918-8602.
Sincerely,
Peter Philbrook t£- ,l£ R* > Z ?-Chemistry Laboratory Services Coordinator
Qualifiers:
RL Reporting limitND Not Detected above reporting limitNA Not ApplicableNC Not calculated since analyte concentration is NDJl Estimated value due to MS recovery outside accceptance criteriaJ2 Estimated value due to LFB result outside acceptance criteriaJ3 Estimated value due to RPD result outside acceptance criteriaJ4 Estimated value due to LCS result outside acceptance criteriaJ5 Estimated value due to interference check recovery outside accceptance criteriaB Analyte is associated with the lab blank or trip blank contamination. Values are
qualified when the observed concentration of the contamination in the sampleextract is less than 10 times the concentration in the blank.
R No recovery was calculated since the analyte concentration is greater than four timesthe spike level.
Comments:
The samples were prepared and analyzed by ESAT contractors.
Sample results are in mg/Kg dry wt. units.
mil
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Metals in Soil Medium Level by ICP
Client Sample ID:
Date of Collection:
Date of Digestion:
Date of Analysis: '
Volume Digested:
CAS Number
7429-90-57440-36-07440-38-27440-39-37440-41-77440-43-97440-70-2
7440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-47440-23-57440-28-07440-62-27440-66-6
RC-01
7/12/2005
7/22/05
7/25/05
N/A
Parameter
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSelenium
SilverSodiumThalliumVanadiumZinc
Concentrationmg/Ke4600NDND56
NDND2300
131120
570069
83016009.5NDNDNDNDND
1453
Lab Sample ID:
Matrix
Final Volume:
Digestate Dilution:
PH:
RLme/Ke
209.8202.90.982.9202.92.92.99.89.8202.05.93909.82.9200202.92.9
AA51321
Soil/Sedin
50 mL
1
N/A
Qualifier
Comments:
II
Page 1 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Metals in Soil Medium Level by ICP
Client Sample ID:
Date of Collection:
Date of Digestion: ,
Date of Analysis:
Volume Digested:
CAS Number
7429-90-57440-36-07440-38-27440-39-37440-41-77440-43-97440-70-27440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-47440-23-57440-28-07440-62-27440-66-6
RC-02
7/12/2005
7/22/05
7X25/05
N/A
Parameter
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSelenium
SilverSodiumThalliumVanadiumZinc
Concentrationme/Ke9100NDND48
NDND
800021
4.729
130001409009411
NDNDNDNDND3679
Lab Sample ID: AA51322
Matrix Soil/Sedin
Final Volume: 50 mL
Digestate Dilution: 1
pH: N/A
RLme/Ke Qualifier
3015304.51.54.5304.54.54.51515303.08.9600154.5300304.54.5
Comments:
Page 2 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-PIex - Woburn, MA
Metals in Soil Medium Level by ICP
Client Sample ID:
Date of Collection:
Date of Digestion:
Date of Analysis:
Volume Digested:
CAS Number
7429-90-57440-36-07440-38-27440-39-37440-41-77440-43-97440-70-27440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-4
7440-23-57440-28-07440-62-27440-66-6
, RC-03
7/12/2005
7/22/05
7/25/05
N/A
Parameter
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
Concentrationme/Kg
9000NDND48
NDND
370026
5.079
200002406903311
NDNDNDNDND4857
Lab Sample ID: '
Matrix
Final Volume:
Digestate Dilution:
pH:
RLme/Ke
3216324.81.64.8324.84.84.81616323.29.7640164.8320324.84.8
AA51323
Soil/Sediment
50 mL1
N/A
Qualifier
Comments:
Page 3 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Metals in Soil Medium Level by ICP
*»»
Client Sample ID:
Date of Collection:
Date of Digestion:
Date of Analysis:
Volume Digested:
CAS Number
7429-90-57440-36-07440-38-27440-39-37440-41-77440-43-97440-70-2
I
7440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-4
7440-23-57440-28-07440-62-27440-66-6
RC-04
7/12/2005
7/22/05
7/25/05
N/A
ParameterAluminum
AntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickel
. PotassiumSeleniumSilver
SodiumThalliumVanadiumZinc
Concentrationme/Kg3800NDND40
NDND4800
17ND22
780025037024
NDNDNDND640ND
2445
Lab Sample ID:
Matrix
Final Volume:
Digestate Dilution:
pH:
RLms/Ke
3216324.81.64.8324.84.84.81616323.29.6640164.8320324.84.8
AA51324
Soil/Sediment
50 mL
1
N/A
Qualifier
Comments:
Page 4 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Metals in Soil Medium Level by ICP
Client Sample ID:
Date of Collection:
Date of Digestion:
Date of Analysis:
Volume Digested:
'
CAS Number
7429-90-57440-36-07440-38-27440-39-37440-41-77440-43-97440-70-27440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-47440-23-57440-28-07440-62-27440-66-6
RC-05
7/12/2005
7/22/05
7/25/05
N/A
Parameter
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
Concentrationms/Kg
8300NDND37
NDND
940022
3.921
770037062023
13490NDNDNDND3741
Lab Sample ID: AA51325
Matrix Soil/Sediir
Final Volume: 50 mL
Digestate Dilution: 1
pH: N/A
RLme/Kg Qualifier
2412243.61.23.6243.63.63.61212242.47.2480123.6240243.63.6
Comments:
Page 5 of 15
I IUS ENVIRONMENTAL PROTECTION AGENCY
NEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Metals in Soil Medium Level by ICP
Client Sample ID:
Date of Collection:
Date of Digestion: •
Date of Analysis:
Volume Digested:
CAS Number
7429-90-57440-36-07440-38-27440-39-37440-41-77440-43-97440-70-27440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-47440-23-57440-28-07440-62-27440-66-6
RC-06
7/12/2005
7/22/05
7/25/05
N/A
Parameter
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
Concentrationme/Kg3100NDND21
NDND72017
ND16
4300280150936.2NDNDNDNDND
2823
Lab Sample ID:
Matrix
Final Volume:
Digestate Dilution:
pH:
RLme/Kg
2010203.11.03.1203.13.13.11010202.06.1410103.1200203.13.1
AA51326
Soil/Sediment
50 mL
1
N/A
Qualifier
Comments:
Page 6 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-PIex - Woburn, MA
Metals in Soil Medium Level by ICP
Client Sample ID:
Date of Collection:
Date of Digestion:
Date of Analysis:
Volume Digested:
CAS Number
7429-90-57440-36-07440-38-2
7440-39-37440-41-77440-43-97440-70-27440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-47440-23-57440-28-07440-62-27440-66-6
,1 RC-07
7/12/2005
. 7/22/05
7/25/05
N/A
Parameter
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
Concentrationmg/Ke2900NDND13
NDND98
3.7ND4.0
29005269
3.8NDNDNDNDNDND9.S5.8
Lab Sample ID: AA51327
Matrix Soil/Sedirr
Final Volume: 50 mL
Digestate Dilution: 1
pH: N/A
RLmff/Ke Qualifier
2211223.3 .1.13.3223.33.33.31111222.26.6440113.3220223.33.3
Comments:
Page 7 of 15
lit
«l
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Metals in Soil Medium Level by ICP
Client Sample ID:
Date of Collection:
Date of Digestion:
Date of Analysis:
Volume Digested:
CAS Number7429-90-57440-36-07440-38-27440-39-37440-41-77440-43-97440-70-27440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-47440-23-57440-28-07440-62-27440-66-6
RC-08
7/12/2005
• 7/22/05
7/25/05
N/A
ParameterAluminumAntimony
, ArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
Concentrationme/Ke5400NDND
73NDND6000
127.621
6400200
10003711
530NDNDNDND1864
Lab Sample ID:
Matrix
Final Volume:
Digestate Dilution:
PH:
RLme/Ke
2613263.91.33.9263.93.93.91313262.67.9520133.9260263.93.9
AA51328
Soil/Sediment50 ml.
1
N/A
Qualifier
Comments:
Page 8 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Metals in Soil Medium Level by ICP
Client Sample ID:
Date of Collection:
Date of Digestion:
Date of Analysis:
Volume Digested:
CAS Number
7429-90-57440-36-07440-38-27440-39-37440-41-77440-43-97440-70-27440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-47440-23-57440-28-07440-62-27440-66-6
i! RC-10
7/12/2005
, 7/22/05
7/25/05
N/A
Parameter
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSelenium
SilverSodiumThalliumVanadiumZinc
Concentrationmg/Kg
13000NDND
17NDND44016
4.617
730019069024
7.2NDNDNDNDND4033
Lab Sample ID: AA5 1 329
Matrix Soil/Sedirr
Final Volume: 50 mL
Digestate Dilution: 1
pH: N/A
RLme/Kg Qualifier
2311233.4 .1.13.4233.43.43.41111232.36.846011'3.4230403.43.4
Comments: The reporting limit for thallium was raised due to matrix interference.
Page 9 of 15
dim-ENVIRONMENTAL PROTECTION AGENCY
NEW ENGLAND LABORATORY
Industri-PIex - Woburn, MA
Metals in Soil Medium Level by ICP
tip
Client Sample ID:
Date of Collection:
Date of Digestion:
Date of Analysis:
Volume Digested:
CAS Number7429-90-57440-36-07440-38-27440-39-37440-41-77440-43-9
7440-7Q-27440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-47440-23-57440-28-07440-62-27440-66-6
RC-11
, 7/12/2005
7/22/05
7/25/05
N/A
Parameter
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
Concentrationme/Kg2200
12ND7.0NDND1308.4ND11
360016085
6.4NDNDNDNDNDND2817
Lab Sample ED:
Matrix
Final Volume:
Digestate Dilution:
PH:
RLme/Kg
209.920 .3.0
0.993.0203.03.03.09.99.9202.05.94009.93.0200203.03.0
AA51330
Soil/Sedin
50 mL
1
N/A
Qualifier
Comments:
Page 10 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Metals in Soil Medium Level by TCP
Client Sample ID:
Date of Collection:
Date of Digestion:
Date of Analysis:
Volume Digested:
CAS Number
7429-90-57440-36-07440-38-27440-39-37440-41-77440-43-97440-70-27440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-47440-23-57440-28-07440-62-27440-66-6
RC-12
7/12/2005
7/22/05
7/25/05
N/A
ParameterAluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
Concentrationme/Kg7400NDND30
NDND
2700182126
1700055
310079014
520NDNDNDND2484
Lab Sample ID:
Matrix
Final Volume:
Digestate Dilution:
pH:
RLms/Kff
199.7192.90.972.9192.92.92.99.79.7191.95.83809.72.9190402.92.9
AA51331
Soil/Sediment
50 mL
1
N/A
Qualifier
Comments: The reporting limit for thallium was raised due to matrix interference.
Page 11 of 15
l i tUS ENVIRONMENTAL PROTECTION AGENCY
NEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Metals in Soil Medium Level by ICP
Client Sample ID:
Date of Collection:
Date of Digestion: '
Date of Analysis:
Volume Digested:
CAS Number
7429-90-57440-36-07440-38-27440-39-37440-41-77440-43-97440-70-27440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-4
7440-23-57440-28-07440-62-27440-66-6
RC-08D
7/12/2005
7/22/05
7/25/05
N/A
Parameter
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromium
CobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilver
SodiumThalliumVanadiumZinc
Concentrationme/Kfi4900NDND78
NDND54009.47.520
66001706003811
540NDNDNDND1667
Lab Sample ID:
Matrix
Final Volume:
Digestate Dilution:
PH:
RLme/Kg
209.8202.9
0.982.9202.92.92.99.89.8202.05.93909.82.9200202.92.9
AA51332
Soil/Sediment
50 mL1
N/A
Qualifier
Comments:
Page 12 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Metals in Soil Medium Level by ICP
Client Sample ID: ( RC-09D
Date of Collection: 7/12/2005
Date of Digestion: 7/22/05
Date of Analysis: 7/25/05
Volume Digested: N/A
Lab Sample ID: ' AA51333
Matrix Soil/Sediment
Final Volume: 50 mL
Digestate Dilution: 1
pH: N/A
CAS Number
7429-90-57440-36-07440-38-27440-39-37440-41-7
7440-43-97440-70-27440-47-37440-4'8-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-47440-23-57440-28-07440-62-27440-66-6
Parameter
AluminumAntimonyArsenic
• BariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSelenium
SilverSodiumThalliumVanadium
Zinc
Concentrationme/Kg3900NDND51
NDND
710016
3.724
840028048050
7.8NDNDNDNDND2673
RLme/Ke Qualifier
2010203.01.03.0203.03.03.01010202.06.0400103.0200203.03.0
Comments:
Page 13 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Plex - Woburn, MA
Metals in Soil Medium Level by ICP
Client Sample ID:
Date of Collection:
Date of Digestion:
Date of Analysis:
Volume Digested:
CAS Number
7429-90-57440-36-07440-38-27440-39-37440-41-77440-43-97440-7Q-27440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-47440-23-57440-28-07440-62-27440-66-6
RC-09
, 7/12/2005
7/22/05
7/25/05
N/A
Parameter
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
•
Concentrationme/Kg3100NDND40
NDND5400
12ND
19670024036033
6.6NDNDNDNDND2156
Lab Sample ED:
Matrix
Final Volume:
Digestate Dilution:
PH:
RLme/Ke
2010203.01.03.0203.03.03.01010202.06.0400103.0200203.03.0
AA51334
Soil/Sedin
50 mL
1
N/A
Qualifier
Comments:
Page 14 of 15
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Industri-Pler - Woburn, MA
Laboratory Reagent Blank
Client Sample ID:
Date of Collection:
Date of Digestion:
Date of Analysis: ,
Volume Digested:
•
CAS Number
7429-90-57440-36-07440-38-27440-39-37440-41-77440-43-97440-70-27440-47-37440-48-47440-50-87439-89-67439-92-17439-95-47439-96-57440-02-07440-09-77782-49-27440-22-47440-23-57440-28-07440-62-27440-66-6
N/A
N/A7/22/05
7/25/05
50 mL
Parameter
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
ConcentrationUE/L
ND' ND
NDNDNDNDNDNDNDNDNDNDNDNDNDNDNDNDNDNDNDND
Lab Sample ID:
.Matrix
Final Volume:
Digestate Dilution:
PH:
RLug/L200100200301030
2003030301001002002060
400010030
20002003030
N/A
Water
50 mL
1
N/A
Qualifier
Comments:
Page 15 of 15
Comments:
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
METALS MATRIX SPIKE (MS) RESULTS
Industri-Plex - Wobum, MA
Sample ID: AA51324
mPARAMETER
AntimonyArsenicBariumBerylliumCadmiumChromiumCobaltCopperLeadManganeseNickelSeleniumSilverThalliumVanadiumZinc
SPIKEADDEDnig/Kg
16116116164.480.516116116116116116116132.2161161161
SAMPLECONCENTRATION
mg/Kg
NDND40NDND17
ND22
25024NDNDNDND2445
MSCONCENTRATION
mg/Kg
13017520764.369.017315618241517815717927.3136182187
MS%
REC
8110910410086979799
1029698
11185859888
QCLIMITS(%REC)
75 - 12575 - 12575 - 12575 - 12575 - 12575 - 12575 - 12575 - 12575 - 12575 - 12575 - 12575-12575 - 12575 - 12575 - 12575-125
OCPage 1 of 4
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Laboratory Duplicate Results
Industri-Plex - Woburn, MA
Sample ID: AA51331
PARAMETER
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
SAMPLERESULTmg/Kg
7400NDND30NDND2700
182126
1700055
310079014
520NDNDNDND2484
SAMPLE DUPLICATERESULTmg/Kg
8400NDND35NDND
3100202531
1900062
350095016
530NDNDNDND2796
PRECISIONRPD
%
13NCNC15
NCNC1411171811121218132
NCNCNCNC1213
QCLIMITS
30303030303030303030303030303030303030303030
Comments:
OC Page 2 of 4
US ENVIRONMENTAL PROTECTION AGENCYNEW ENGLAND LABORATORY
Laboratory Fortified Blank (LFB) Results
Industri-Plex - Woburn, MA
PARAMETER
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
LFB AMOUNTSPIKED
ug/L
1000100010001000400500
10000100010001000100010001000010001000100001000200
10000100010001000
LFBRESULT
ug/L
10009609701000400450
960099098010009909409700980980
10000990180
110001000990930
LFBRECOVERY
%
1009697
10010090969998
1009994979898
10099901101009993
QCLIMITS
%
85-11585-11585-11585-115,85-11585-11585-11585-11585-11585-11585-11585-11585-11585-11585-11585-11585-11585-11585-11585-11585-11585-115
Comments:
Samples in Batch: AA51321, AA51322, AA51323, AA51324, AA51325, AA51326,AA51327, AA51328, AA51329, AA51330, AA51331, AA51332,AA51333.AA51334
QCPage 3 of 4
U S tJN V 1KUIN JVllilM 1AL fK\J 1 HU 1HJ1N AUE.1N <^ 1
NEW ENGLAND LABORATORY
Solid Laboratory Control Sample (LCS) Results
Industri-Plex - Wobura, MA
1
PARAMETER
AluminumAntimonyArsenicBariumBerylliumCadmiumCalciumChromiumCobaltCopperIronLeadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
LCSRESULTS
mg/Kg
538057.414114871.1234
331096.046.971.4
1010075.9188025275.3192086.9132403113103131
CONTROLLIMITS
mg/Kg
395010.0108112
54.8201
268075.036.251.2
-9710-168-164-169-78.8-291-4180-116-53.1-81.4
6920-1720059.81560197
59.3140060.777.822190.780.0107
-88.6- 2520-307-86.1-2540-100-176-579-149-134-166
Comments:
OC Page 4 of 4
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IndustriPlex Water and Soil Sampling Locations, July 11-12, 2005
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IP-COMB-01. Facing West
IP-CULV-01 Facing West
IP-OUTLET-01 Facing West
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IP-RR-04. Facing South (upstream)
IP-HALLS-22MAPLE-01. North side of brook, facing South across brook. Flow fromright to left.
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IP-RC-04
IP-RC-05
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IP-RC-08
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IP-RC-09
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li
Soil and Surface Water Sampling for the Industri-Plex (OU-2)Superfund Site
Woburn, Massachusetts
Collection of Surface Soil Samples for Metals Analysis and Surface Water Samples for Ammonia andNitrate Analysis.
Quality Assurance Project Plan (QAPP)
July, 2005
U.S. Environmental Protection Agency1 EPA New England
Office of Environmental Measurement & EvaluationInvestigations & Analysis Unit
Project Officer: Joseph F. LeMay, Remedial Project Manager
Project Officer Signature:
Office of Quality Assurance Acceptance:
Signature:
Date:
1. Project Name: Soil and Surface Water Sampling for the Industri-Plex and Wells G&HSuperfund Sites
m • • '2. Site No: 0107 - (Industri-Plex OU-2)
"* 3. Project Requested By: Joseph F. LeMay (OSRR)
4. Date of Request: July 7, 2005 (informal request: 6/29/05)
5. Date of Project Initiation: June 30, 2005
ni6. Project Officer: Joseph F. LeMay (OSRR)
4g 7. Quality Assurance Officer: See Performance Coordinator
8. Project Description:.Collection of surface soil samples from various locations for metals analysisnil and surface water samples from various locations for ammonia and nitrate analysis.
A. Objective and Scope Statement:m
Please note the 2005 sampling requested by the site RPM is a continuation of a previously approvedEIA sampling projects, (QAPPs dated July 2002 and February 2004).
mUpdates:The purpose of the field study is for EPA's Investigations & Analysis Unit (EIA) to gather surface soil
"* and surface water samples from designated locations for analysis in support of an evaluation by theOffice of Site Remediation and Restoration (OSRR) of the Industri-Plex Superfund Site, Operable Unit2 (OU-2). The Request for Sampling and Analysis Assistance is for 15 surface water samples (2/3depth below surface) along New Boston Street Drainway from southern Wilmington to Halls Brookand along Halls Brook west of Halls Brook Holding Area Pond/ RR tracks and for 15 soil samples (0" -6") along a foot path on the eastern side of Wells G&H Superfund Site Wetlands (between the formerproduction wells G and H). See attached figures illustrating the proposed sampling locations. Thelocations may be modified in the field by the Project Officer. Sampling locations will be identified and
— flagged in the field, located by GPS, and also digitally photographed.
The soil samples will be analyzed for total metals at the EPA New England Regional Laboratory^ (NERL) in North Chelmsford, MA. The surface water samples will be analyzed for nitrates at NERL
and will be analyzed for ammonia by Alpha Analytical.
m B. Data Usage
Data from the sample analysis will be used by the EPA for risk screening and/or enforcement purposes.•
C. Monitoring Event Design:
Mi
The Project Officer will provide EPA-EIA with GIS or areal maps of the major sampling areas, alongwith the proposed sampling locations in each area labeled on the map. Alternatively, the ProjectOfficer can meet with the Sampling Leader at the site one to two weeks prior to the sampling event andcan flag the sampling locations.
i!The Project Officer has specified that approximately 15 surface soil samples be collected to a depth of6" at approximately 50 ft intervals along a foot path on the eastern side of Wells G&H Superfund SiteWetlands (between the former production wells G and H). The Project Officer has specified that up to15 surface water samples be collected from the New Boston Street Drainway from southernWilmington to Halls Brook and along Halls Brook west of Halls Brook Holding Area Pond/ RR tracks.Ambient field measurements of pH, dissolved oxygen (D.O.) and temperature will be recorded for
each surface water sample collected.
D. Monitoring Parameters and Frequency of Collection:
Parameter
Metals
i
Ammonia
Nitrate
Number ofSamples
15QC sample
15QC sample
15QC sample
SampleMatrix
Soil
Aqueous
Aqueous
Analytical MethodReference
EPA 200.7EIASOP-INGICP6
S.M. 4500
EPA 300.0EIASOP-
INGDXIC8
SampleContainer
8 oz. clearwide
mouth
250mlplastic
50mlplastic orglass
SamplePreservation
Ice
H2SO4 pH <2Ice
Ice
HoldingTime
6mos.
28 days
48hrs
9. Schedule of Tasks and Products:
Date
July 7, 2005
July 8, 2005
July 11-July 13, 2005
Daily (during sampling period)
July, 2005
August, 2005
August, 2005
Activity
Request OEME lab support
Sampling team field reconnaissance
Conduct field sampling
Deliver samples to Chelmsford laboratory
Laboratory analyses
Data to Sampling Leader
Data to Project Officer
10. Project Organization and Responsibility:The following is a list of key project personnel and their responsibilities:
Responsibility
Project Manager
Sampling Leader
Sampling QC
Laboratory Analysis
Laboratory QC
Performance Auditing
Overall PerformanceCoordination
Contact
Joseph LeMay (OSRR)
Rich Fisher (EIA)
Rich Fisher (EIA)
Peter Philbrook (EIA)
Peter Philbrook (EIA)
QA Office (EQA)
Rich Fisher (EIA)
11. Data Quality Requirements and Assessments
Accuracy and Precision values are for method internal QA/QC. The values are to be considered asgoals because some specific compounds are know outside these goals.
Parameter
Metals
Ammonia
Nitrate
Sample Matrix
Soil
Water
Water
Quant. Limit(mg/KG or mg/U
As, Cr, and Pb:(See Note below)
**
**
Accuracy (%)
75- 125%
75 - 125%
75- 125%
Precision (%)
20%
35%
35%
Field Precision
50%
50%
50%
*Samples that are above the calibration range, will be diluted and re-analyzed to within an acceptable calibration range.** See referenced SOP's for specific analyte reporting limits.
***Accuracy determined with matrix spike (MS) samples and precision determined with eithermatrix spike duplicate (MSD) samples or laboratory fortified blanks.
12. Data Representativeness:
In general the data obtained from the sample analysis will be used for risk screening and/orenforcement purposes. At least 85% of data must be valid. If data are incomplete, the project managerand OEME personnel will determine if additional sampling is needed.
13. Sampling Procedures:Samples will be collected in accordance with EPA Investigations & Analyses SOPs.
14. Sample Custody Procedures:
Samples will be handled in accordance with EPA Investigations & Analyses SOP for Chain ofCustody. Each sample will be given a unique number and recorded in the field logbook and/or sitemap.
15. Calibration Procedures and Preventative Maintenance:Equipment to be directly used during the field sampling event does not require calibration orpreventative maintenance. EPA-NE lab procedures and preventive maintenance are documented in thelab QA plan.
16. Documentation, Data Reduction, and Reporting:
All information will be recorded on the Sampling Team's field data sheets.In addition, the completion of chain of custody (COC) forms, labels, etc. is required for all samples.Laboratory documentation is maintained in their respective QA plans.
17. Data Validation:
The ammonia ,nitrate, and metals data will be reviewed as specified in the NERL QAP including areview by a peer chemist and by the Chemistry Team Leader.
18. Performance and Systems Audits:May be performed by the QA Office, as requesting by the Project Officer.
19. Corrective Action:Any corrective action will be determined by the sampling operations leader and project manager, ifnecessary, and documented in a field data sheet and/or field logbook.
20. Reports will be sent to: Joseph F. LeMay, RPMEPA Region 1 - New EnglandIndustri-Plex (OU-2) Superfund Sites
.1
I
41
APPENDIX C
SUPPORTING INFORMATION FOR RISK EVALUATION
m
C.1 - HUMAN HEALTH RISK EVALUATION TABLES
TABLE 1
SELECTION OF EXPOSURE PATHWAYS
INDUSTRI-PLEX SUPERFUND SITE
Scenario
Tlmeframe
Current/Future
Future
Medium
Surface Water
Soli
Groundwaler
Exposure
Medium
Surface Water
Surface Sol
Groundwater
Exposure
Point
HBHAPond
RCArea
(Wells G&HWetland)
Industrl-plexSile/HBHA Pond
Area
Receptor
Population
Recreational User
Recreational Uaer
Car Wash Worker
Receptor
AflB
Teenager
Adult/Young Chid
Adult
Exposure
Route
Dermal
Inhalation
Ingestlon
Ingestlon
Dermal
Inhalation
Ingestlon
Dermal
Inhalation
Type of
Analysis
dual
None
None
Quant
Quant
None
None
None
Quant
Rationale for Selection or Exclusion
of Exposure Pathway
Teens may use this area lor recreation (wading) with low frequency.
Inhalation exposures are expected to be negligible.
Since surface waters are shallow, wading but not swimming Is expected, and -Ingeslton Is unlikely.
Recreational users may be exposed to contaminants In soil along the recreattortral.
Dermal contact with contaminated soils may occur.
Inhalation exposures are expected to be negligible.
Direct contact with groundwater Is not assumed.
Direct contact with groundwater Is not assumed.
Workers may be exposed to volatile contaminants Impacting air during use ofaroundwater In a hot water car wash.
p«o. 1 on TlM>1.«ttrr>M°11
TABLE 2.1OCCURRENCE, DISTRIBUTION AND SELECTION OF CHEMICALS OF POTENTIAL CONCERN
INDUSTRI-PLEX SUPERFUND SITE
Scenario Tlmeframe: Future IIMedium: Groundwater used In a Car WashExposure Medium: Indoor Air I
Exposure
Poinl
Northern Sludy Area (a;
CAS
Number
7664-41-7
Chemical
Ammonia
Minimum
Concentration
(Qualifier)
(1)
N/A
Maximum
Concentration
(Qualifier)
(1) "
319607
Units
ug'rrC
Location
at Maximum
Concomralion
N/A
Oetecllon
Frequency
N/A
Range of
Detection
Limits
N/A
Concentration
Used lor
Screening
|2)
319697
Background
Value
(3)
N/A
Screening
Tox idly Value
(N/C)
W
10 N
Potential
ARAR/TBC
Value
N/A
Potential
ARAR/TBC
Source
N/A
COPC
Flag
(Y/N)
Y
Rationale for
Selection or
Deletion
(5)
ASL
(a) Reler lo Appendix C.2 lor data set utilized.
(1) Groundwaler contributions lo Indoor air have been presented In (tie Maximum Concentration field.Refer lo Appendix C.3 for modal results.
(2) Maximum concentration used lor screening.(3) Rofor lo supporting Information for background discussion.(4) USEPA Region 9 PRQs for ambenl air (adjusted to an hazard quotient« 0.1 for noncardnogens). October 2004.(5) Rationale Codes: Selection Reason: Above Screening Levels (ASL)
No Screening Level (NSL)Deletion Reason: rtoToxtalty Information (NTX)
Essential Nutrient (NUT)Below Screening Level (BSL)
Definitions: COPC • Clwmlcal of Potential ConcernARAR/TBC « Applicable or Relevant and Appropriate Requirement/To Be ConsideredPRG > Preliminary Remedial GoalN/A • Nol Applicable or Not AvailableJ« Estimated ValueC • CarcinogenicN « Non-CarcinogenicMCI» Maximum Contaminant Level
TABLE 2.2OCCURRENCE, DISTRIBUTION AND SELECTION OF CHEMICALS OF POTENTIAL CONCERN
INDUSTRI-PLEX SUPERFUNO SITE
Scenario Timeframo: Current/FutureMedium: Surface WaferExposure Medium: Surface Water
Exposure
Point
HBHA Pond
CAS
Number
7664-41-7
Chemical
Ammonia
Minimum
Concentration
(Qualifier)
(1)
100
Maximum
Concentration
(Qualifier)
(D
17200
Units
ug/L
Location
ol Maximum
Concentration
HBHA Pond Outlet
(9/16/2001)
Detection
Frequency
31/31
Range of
Detection
Limits
N/A
Concentration
Used for
Screening
(2)
17200
Background
Value
(3)
N/A
Screening
Toxicily Value
(NIC)
(4)
30000
Potential
ARAR/TBC
Value
N/A
Potential
ARAR/TBC
Source
N/A
COPC
Flag
(Y/N)
N
Rationale for
Selection or
Deletion
(5)
BSL
(a) Refer to Appendix C.2 for data set.(1) Minimum/maximum delected concentration.(2) Maximum concentralion used for screenlno.(3) Refer to supporting information for background discussion.(4) Given as a concentralion in drinking water, specifically related to taste threshold. Safe concentration may be higher (EPA. 2004).(5) Rationale Codes: Selection Reason: Above Screening Levels (ASL)
Deletion Reason: No Toxicily Information (NTX)Essential Nutrient (NUT)Below Screening Level (BSL)
EPA, 2004 .2004 Drinking Water Standards and Health Advisory
Definitions: COPC * Chemical of Potential ConcernARAR/TBC * Applicable or Relevant and Appropriate Requirement/To Be ConsideredPRO « Preliminary Remedial GoalN/A • Not Applicable or Not AvailableJ > Estimated ValueC * CarcinogenicN * Non-CarcinogenicAWQC > Ambient Water Quality Criterion for Human Health (20020)
TABLE 2.3OCCURRENCE, DISTRIBUTION AND SELECTION OF CHEMICALS OF POTENTIAL CONCERN
INDUSTRI-PLEX SUPERFUNO SITE
Scenario Timeframe: Future
Medium: SoilExposure Medium: Surface Soil
Exposure
Poini
RCsoil
CAS
Number
7429-90-5
7440-36-0
7440-39-3
7440-70-2
7440-47-3
7440-48-4
7440-50-8
7439-89-6
7439-92-1
7439-95-4
7439-96-5
7440-02-0
7440-09-7
7440-23-5
7440-02-2
7440-68-8
Chemical
Aluminum
Antimony
Barium
Calcium
Chromium
Cobalt
Copper
Iron
Lead
Magnesium
Manganese
Nickel
Potassium
Sodium
Vanadium
Zinc
"
Minimum
Concentration
(Qualifier)
0)
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
Maximum
Concentration
(Qualifier)
(D
13000
12
75.5
9400
26
21
79
20000
370
3100
1600
14
535
040
48
84
Units
mg/Kg
mg/Kg
mg/Kg
mg/Kg
mg/Kg
mg/Kg
mg/Kg
mg/Kg
mg/Kg
mg/Kg
mg/Kg
mg/Kg
mg/Kg
mg/Kg
mg/Kg
mg/Kg
location
of Maximum
Concentration
RC-10
RC-11
RC-08
RC-05
RC-03
RC-12
RC-03
RC-03
RC-05
RC-12
RC-01
RC-12
RC-09
RC-04
RC-03
RC-12
Detection
Frequency
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
- Range of
Detection
Limits
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
Concentration
Used lor
Screening
(2)
13000
12
75.5
9400
26
21
79
20000
370
3100
1600
14
535
640
48
84
Background
Value
(3)
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
Screening
Toxitily Value
(N/C)
(4)
7600 N
3.1 N540 NN/A
22 N
90 N
N/A
N/A
400 N
N/A
180 N
160 N
N/A
N/A
7.8 N
2300 N
Potential
ARAR/TBC
Value
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
Potential
ARAR/TBC
Source
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
COPC
Rag
(Y/N)
V
Y
N
N
Y
N
N
N
N
N
Y
N
N
N
Y
N
Rationale lor
Selection or
Deletion
(5)
ASL
ASL
BSL
NUT
ASL
BSL
NTX
NTX
BSL
NUT
ASL
BSL
NUT
NUT
ASL
BSL
(a) Data presented are from soil samples RC-01 through RC-12. Sea Appendix C.2 lor dais set.(1) Minimum/maximum delected concentration.(2) Maximum concentration used for screening.(3) Refer to supporting information Ibf background discussion.(4) USEPA Region 9 PRGs for residential soil (adjusted lo an hazard quotient« 0.1 fornoncerdnogens), October 2004.
PRO for chromium VI used for chromium.
The screening loxlclly value for lead to the residential sol lead guidance level of 400 mg/Kg (USEPA, 1994a).(5) Rationale Codes: Selection Reason: Above Screening Levels (ASL)
Deletion Reason: No Toxldty Information (NTX)Essential Nutrient (NUT)Below Screening Level (BSL)
Definitions: COPC • Chemical of Potential ConcernARAR/TBC • Applicable or Relevant and Appropriate Requirement/To Be ConsideredPRO - Preliminary Remedial GoalN/A > Not Applicable or Not AvailableJ • Estimated ValueC " CarcinogenicN • Non-Carcinogenic
TABLE 3.1 .RME
EXPOSURE POINT CONCENTRATION SUMMARY
REASONABLE MAXIMUM EXPOSURE
INOUSTRI-PLEX SUPERFUND SITE
Scenario Tlmetrame: Future
Medium: Groundwator mod in a Car Wash
Exposure Medium: Indoor Air
Exposure Pdnl
(1)
Northern Study Area
Chemical o(
Polontial Concern
Ammonia
UnHi
N/A
Arithmetic
Mean
NfA
95% UCL
(OiitrlbuUon)
N/A
Maximum
Concentration
(Qualifier)
N/A
Exposure Point Concentration (2)
Value
3.7E«04
Units
uoym1
Statistic
(3)
95HUCL-NP
Rationale
N/A
(1) Refer to Appendix C.2 for data seL(2) Refer to Appendix C.3 for air modeling resulli.(3) Statistics: Maximum Delected Value (Max): 95% UCL of Transformed Data (95% UCL • T); 95% UCL of Normal Data (95tt UCL - N); 95% UCL of Non-parametric Data (95% UCL • NP):
Arithmetic Mean (Mean): These statistics apply to the groundwaler data set prior to air modeling.J • Estimated Concentration EPC • Exposure Point ConcentrationMax * Maximum Detected Concentration RME * Reasonable Maximum ExposureN/A « Not Applicable CT • Central TendencyUCL - Upper Confidence Limit
m *• |T*te WME-Fviitf • CM WMti)
TABLE 3.Z.RME
EXPOSURE POINT CONCENTRATION SUMMARY
REASONABLE MAXIMUM EXPOSURE
INDUSTRI-PLEX SUPERFUND SITE
Scenario Tlmeframe: Future
Medium: Soil
Exposure Medium: Surface Soil
Exposure Point
<1>
RCSofl
Chemical ot
Polontlal Concern
Aluminum
Antimony
Chromium
Manganese
Vanadium
Unlti
mo/kg
mg/kg
mg/kg
mg/XB
mg/Xg
Arithmetic
Mosn
N/A
N/A
N/A
WA
N/A
95% UCL
(Oislrlbulion)
(2)
N/A
N/A
N/A
N/A
N/A
Maximum
Concentration
(Qualifier)
1.3E»M
1.2E«01
2.6E«01
1.6E<03
4,8E»01
Exposure Point Concentration
Value
I.3E«04
UE«01
2.eE«01
1.6E«03
4.BE*01
Unils
mg/kg
mg/ko
mg/kgmg/kg
mo/kg
Statistic(3)
Max
Max
Max
Max
Max
Rationale
(4)
(a)
(a)
(a)
(a)
(a)
(1) Refer 10 Appendix C.2 (or data set: only COPCi selected on Table 2.3 appear.(2) T • Transformed; N - Normal: NP • Non-paramelric: G - Gamma; <4 • sample size too small to calculate 85% UCL(3) Statistics: Maximum Detected Value (Max): 95% UCL of Transformed Data (95% UCL - T): 85% UCL of Normal Data (95% UCL • N); 95% UCL of Non-parametric Data (95S UCL - NP);
95% UCL of Gamma Distributed Dala (95% UCL - G); Arithmetic Mean (Mean)(4) Rationale:
(a) Due to small sample size (<4), Ihe maximum delected concentration Is used.(b) When IMo maximum delected concentration Is selected as Iho RME EPC, the arithmetic mean concentration 1$ selected as the CT EPC.(c) If the arllnmeUc moan concentration equals or exceeds Ihe maximum detected concentration, Ihe maximum delected concentration b used as Ihe CT EPC.(d) Shapiro-WJk W Test Indicates data are normally distributed.(e) Shapiro-Wilt W Tesl Indicates data we too-normally distributed.(I) Shapko-Wlk W Test Indicates data are neither normally nor tog-normally distributed.(g) 95S UCL exceeds maximum delected concentration. Therefore, maximum concentration used for EPC(h) A-D Tesl and/or K-S Tesl Indicates data are gamma distributed.
J > Estimated ConcentrationMax * Maximum Detected ConcentrationN/A * Not ApplicableUCL » Upper Confidence LimitEPC * Exposure Point ConcentrationRME * Reasonable Maximum ExposureCT-Central Tendency
TABLE 4.1.RME
VALUES USED FOR DAILY INTAKE CALCULATIONS
REASONABLE MAXIMUM EXPOSURE
INDUSTRI-PLEX SUPERFUND SITE
Scenario Timelrame: Future
Medium: Groundwaler
Exposure Medium: Groundwaler
Exposure Route
Inhalation of
volatile:
Receptor Population
Car Wash Worker
Receptor Ago
Adull
Exposure Point
Northern Study Area
Parameter
Code
CA
ET
EF
ED
CF
AT-C
AT-N
Parameter Definition
Chemical Concentration in Air
Exposure Time
Exposure Frequency
Exposure Duration
Conversion Factor
Averaging Time (Cancer)
Averaging Time (Non-Cancer)
Value
see Table 3s
8
250
25
24
25.550
9.125
Units
uj/m3
hrc/day
days/year
years
hrs/day
days
days
Rationale/
Reference
see Table 3s
USEPA. 1997a
USEPA, 19978
USEPA. 1997a
- -
USEPA. 1989 •
USEPA. 1989
Intake Equation/
Model Name
Chronic Dally Intake (CDI) (ug/m1) «
CAxETxEFxED
ATxCF
TABLE 4.Z.RME
VALUES USED FOR DAILY INTAKE CALCULATIONS
REASONABLE MAXIMUM EXPOSURE
INOUSTRI-PLEX SUPERFUND SITE
Scenario Timeframe: Future
Medium; Soil
Exposure Medium Surface Soil
Exposure Route
tngesllon
Dermal
Receptor Populallon
Recreational User
Recreational User
Receptor Age
Young Child
Young Child
Exposure Point
RCaoil
RCsoll
Parameter
Code
CS
IRFl
EF
ED
BW
AT-C
AT-N
CF
CS
SA
AF
EF
ED
DAF
BW
AT-C
AT-N
CF
Parameter Definition
Chemical Concentration In Soil
ngosllon Rale of Soil
Fraction Ingested
Exposure Frequency
Exposure Duration
Body Weight
Averaging Time (Cancer)
Averaging Time (NorvCancer)
Conversion Factor
Chemical Concentration In Soil
Skin Surface Area Available (or Contact
Skin Adherence Factor
Exposure Frequency
Exposure Duration
Dermal Absorption Factor
Body Weight
Averaging Time (Cancer)
Averaging Time (Non-Cancer)
Conversion Factor
Value
see Table 3s
200
0.5
78
615
25.550
2.100
0.000001
see Table 3s
2.600
0.2
76
echemical specific
15
25,550
2.180
0.000001
Units
mg/kg
mg/day
uniiless
days/year
years
kgdays
days
kg/mg
mg/kg
cm'
mo/cm'-aay
days/year
years
•• '
kg
days
days
kg/mg
Rationale/Reference
see Table 3s
USEPA. 1994b
Prof. Judgement
assumption
USEPA. 1894b
USEPA. 18846
USEPA, 1889
USEPA. 1888
..
see Table 3s
USEPA. 2004d
USEPA, 20Md
assumption
USEPA, 1884b
••USEPA, 18Mb
USEPA, 1868
USEPA. 1989
••
Intake Equation/Model Name
Chronic Daily Intake (GDI) (mg/ks-day) *
CS » IR x Fl K EF x ED x CFBWxAT
CDI (mg/kg-day) *
CSxSAxAFxEFxEDxDAFxCF
BWxAT
Young child SA term assumes exposure to face, forearms, hands, lower legs, and feet.
Young child AF term Is geometric mean value for children playing In wet toil.
TABLE 5.1
NON-CANCER TOXICITY DATA - ORAL/DERMAL
INDUSTRI-PLEX SUPERFUND SITE
Chemical
ol Potential
Concern
Aluminum
Anllmony
Chromium (VI)
Manganese (other media)
Vanadium
Chronic/
Subchronlc
Chronic
Chronic
Chronic
Chronic
Chronic
Oral RIO
Value
1E+00
4E-04
3E-03
7E-02
1E-03
Unite
mg/kg-day
mg/kg-day
mg/kg-day
mg/Vg-day
mg/kg-day
Oral Absorption
Efficiency lor Dermal
(1)
0.01
0.1S
0.025
0.04
0.026
Absorbed RID (or Dermal
Value
(2)
1.0E-02
6.0E-05
7.5E-06
2.BE-03
2.8E-05
Units
mg/kg-day
mg/Vg-day
mg/kg-day
mg/kg-day
mg/kg-day
Primary
Target
Organs)
CMS
General Toxlcity
Gl System
CMS
Kidney
Combined
Uncertainty/Modifying
Factors
100
1000
300
3
300
RfD:Target Organs)
Source(s)
STSC
IRIS
IRIS
IRIS
STSC
Date(s)
(MMfDD/YYYY)
01/05/05
01/05/05
01/05/05
01/05/05
01/05/05
(1) Oral absorption efficiencies from RAGS, Part E (USEPA, 2004a).
(2) Calculated as: (oral RID) x (oral to dermal adjustment factor).
(3) RID (or managanese Is based on total allowable Intake (10 mg/day) minus the background
intake (5 mg/day). The remaining Intake (5 mg/day) is divided by 70 kg.
IRIS * Integrated Risk Information System
STSC = Superfund Technical Support Center
8MBUOOSPaggloM
TABLE 5.2
NON-CANCER TOXICITY DATA - INHALATION
INDUSTRI-PLEX SUPERFUND SITE
Chomical
of Potential
Concern
(1)
Ammonia
Chronic/
Subchronlc
Chronic
Inhalation RIC
Value
1.00E+02
Units
ug/m1
Extrapolated RfD
Value
N/A
Units
N/A
Primary
Target
Organ(s)
Respiratory
Combined
Uncertainly/Modifying
Factors
30
RfC : Target Organ(s)
Source(s)
IRIS
Dale(s)(MM/DD/YYYY)
8/1/2005
IRIS = Integrated Risk Information System
N/A - Not Applicable
TABLE 6.1
CANCER TOXICITY DATA - ORAl/OERMAl
INDUSTRI-PLEX SUPERFUND SITE
Chemical
ofPolenlial
Concern
Aluminum
Antimony
Chromium (VI)
Manganese (other media)
Vanadium
Oral Cancer Slope Factor
Value
N/A
N/A
N/A
N/A
N/A
Unite
N/A
N/A
N/A
N/A
N/A
Oral Absorption
Efficiency for Dermal
N/A
NM
N/A
N/A
N/A
Absorbed Cancer Slope Factor
for Dermal
Value
N/A
N/A
N/A
N/A
N/A
Unite
N/A
N/A
N/A
N'A
N/A
Weight of Evidence/
Cancer Guideline
Description
N/A
D
D
D
NM
OrafCSF
Soorce(s)
N/A
IRIS
IRIS
IRIS
NM
Date(s)
(MM/DD/YYYY)
N/A
01/05/05
01(05/05
01/05/05
N/A
IRIS = Integrated Risk Information System
RME = Reasonable Maximum Exposure
CT « Central Tendency
N/A = Not Applicable
EPA Group:
A - Human carcinogen
B1 - Probable human carcinogen • Indicates that limited human data are available
B2 - Probable human carcinogen - Indicates sufficient evidence In animals and
Inadequate or no evidence In humans
C - Possible human carcinogen
D - Not classifiable aa a human carcinogen (by the oral route)
E - Evidence of noncardnogonlclty
P*9t 1 ol 1
TABLE 6.2
CANCER TOXICITY DATA - INHALATION
INDUSTRI-PLEX SUPERFUNO SITE
Chemical
of Potenlial
Concern
Ammonia
Unit Risk
Value
N/A
Units
N/A
Inhalation Cancer Slope Factor
Value
N/A
Units
N/A
Weight of Evidence/
Cancer Guideline
Description
D
Unit Risk : Inhalation CSF
Source(s)
IRIS
Date(s)(MM/DD/YYYY)
08/01/05
N/A = Not Applicable
IRIS = Integrated Risk Information System
EPA Group:
A - Human carcinogen
B1 - Probable human carcinogen - indicates that limited human data are available
B2 - Probable human carcinogen - Indicates sufficient evidence In animals and
inadequate or no evidence In humans
C - Possible human carcinogen
D • Not classifiable as a human carcinogen (by the oral route)
E - Evidence of noncardnogenldty
UBl91.xls [TabK 6.2)
TABLE 7.1.RME
CALCULATION OF CHEMICAL CANCER RISKS AND NON-CANCER HAZARDS
REASONABLE MAXIMUM EXPOSURE
INOUSTRI-PIi F.X SUPERFUND SITE
Scenario Tlmotrome: Future
Receptor Population: Car Wash Worker
Receptor Ago: Adull
Medium
Groundwoter
Exposure Medium
Indoor Air
-
Exposure Point
Northern Study Area
Exposure Route
Inhalation
Exp. Route Total
Exposure Point Total
Chemical of
Potential Concern
Ammonia
EPC
Value
4E«04
Unite
ugAn3
Exposure Medium Total
Medium Total
Concor Risk Calculations
Intake/Exposure Concentration
Value
3.0E«03
Unlit
uo/mj
CSF/Unll Risk
Value
N'A
UnlU
N'A
Total of Receptor Risks Acrest All Modlo
Cancer Risk
MM
N/A
N'A
N/A
N/A
N/A
Non-Cancer Hazard Calculations
Intake/Exposure Concentrafion
Value
6.5E-03
UnlU
ugmVJ
RID/RfC
Value
"t.OE«02
UnlU
~ ug/m
Total of Rocoplor Hazards Across All Media
Hazard Quotient
B.5E«01
»E»OI
OE-OI
9E-01
9E»01
8E-01
DYHV2005 Page t of 1lables.ils [Table 7.12.RME-fCarWashWorler)
TABLE 7.ZRM6
CALCULATION OF CHEMICAL CANCER RISKS AND NON-CANCER HAZARDS
REASONABLE MAXIMUM EXPOSURE
INOUSTRI.Pt.EX SUPERFUND SITE
Scenario Tlmefreme: Future
Receptor Population: Recreational User
Receptor Age: Young Child
Medium
Soil
Medium Total
Exposure Medium
Surface Soil
_
Exposure Point
RCjoS
Exposure Route
Ingasllon
k
Exp. Roulo Total
Dormal
Exp. Route Total
Exposure Point Tola!
Exposure Medium Tolel
Chemical ol
Potential Concern
Aluminum
Antimony
Chromium (VI)
fonganeie (other modi
Vanadium
EPC
Value
IE«04
1E«0>
3E«01
2E«03
5E.OI
Unltt
rnpAQ
mg/kg
mg/Vg
moAg
mg/kg
Cencer Rlik Calculations
Intake/Exposure Concentrelion
Value
I.OE-03
1.SE-09
3.2E-4U
JOE-04
5.0E-06
Units -
moflB-day
mn/kg^ay
ma/kg<(By
mgAo-day
mg/kg^fny
CSFAJnlt Risk
Value
N/A
N/A
N/A
N/A
N/A
Units
N/A
N/A
N/A
N/A
N/A
Tola! of Recoplor Risks Across All Medlo
Cencer Risk
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
Non-Concer Hazard Calculations
Intake/Exposure Concentration
Value
1.86-02
1.7E-05
3.7E-OS
2.3E-03
6.8E I5
Units
mg/kg-day
mgflcg-day
mg/kg-day
mg/kg-day
mg/kg-doy
RID/Rfc
Value
1.0E«00
4.0E-04
3.0E-03
7.0E-02
1.0E-OJ
Units
rng/kg-tfay
mg/kg-day
mgrkg^oy
mg/kg-day
mg/kg lay
Total of Receptor Hazards Across AH Media
Hazard Quotient
I.BE-O:4.3E-02
1.2E-02
3.1E-02
0,»E^)2
2E-OI
N/A
2E-01
2E-01
2E-01
2E-OI
avte/2005 Pag> 1 o( 1tobles.xli [Table 3-7.4.RME-(C)
TABLE 10.1.RME
RISK SUMMARY
REASONABLE MAXIMUM EXPOSURE
INDUSTRI-PtEX SUPERFUND SITE
Scenario Tlmolramo: Future
Receptor Population: Cor Wa»h Worker
Receptor Ago: Adult
Medium
aroundwaler
Exposure
Medium
Indoor Air
Exposure
Point
Northern study ATM
Chemical
of Potential
Concern
Ammonia
Chemical Tolal
Radlonucllde Total
Exposure Point ToUl
Exposure Medium Total
Medium Tola!
Receptor Total
Cardnooenlc Risk
Ingostlon
--
..
Inhalation
'
..
Dermal
• -
..
External
(Radiation)
--
..
Exposure
Routes Total
N/A
KM
N/A
N/A
N/A
N'A
Non.CarclnogBfltc Hazard Quotient
Primary
_ Target Organ
ReiplrBlory
Ingested
--
..
Inhalation
66-01
9E«01
Dermal
--
- ..
Exposure
Routes Tolal
9E»01
8E«t)1
9E»Ot
OE-OI
9E-OI
9E«OI
• • » Not Evaluoted
N/A-NotAppHcoble
Total Rlik Across All Media Total Haurd Across All Media |
Total Blood HI'
Total Cardiovascular HI'
Total Developmental HI •
Tolal General Toxlclty HI >
Total Gl System HI •
Total Immvne System HI •
Total Kidney Hi •
Tolal liver HI[•
Total Nervous System HI *
Total Skin HI«
Tolal Respiratory HI'
M/A
C.2 - DATA SETS USED FOR HUMAN HEALTH RISK CALCULATIONS
TABLE 1. GROUND WATER AMMONIA RESULTS
NSAMPLE PARAMETER EPASAMNO LAB_RESULT JQUAJLJ . UNITS
CBI-04-GW-01NS-1 10701
CB2-05-GW-02CB2-05-GW-03RCB2-06-GW-02NSCB3-02-GW-01NSCB3-02-GW-03CB3-03-GW-03CB4-03-GW-03
CB4-04-GW-OINS
CB4-04-GW-02NSCB4-05-GW-03NS
CB5-01-GW-01CB5-02-GW-02
CB5-02-GW-03
CB5-03-GW-03
CB6-03-GW-OI
CB6-Q3-GW-02CB6-03-GW-03CB7-01-GW-01CB7-01-GW-03 i
CB7-02-GW-01
CB7-02-GW-02CB7-03-GW-01
CB7-03-GW-02RCB7-03-GW-03
CB8-01-GW-01-AVG
CB8-01-GW-03
CB8-04-GW-02NS-AVG
CB9-01-GW-01
CB9-01-GW-03
CB9-02-GW-02
CB9-04-GW-01
CB9-05-GW-01
CE3-02-GW-03
CE4-02-GW-01
CE4-03-GW-01NS-072301
CE4-03-GW-03-AVG
CH1-04-GW-04
CH1-04-GW-05RCH2-02-GW-02CH2-02-GW-05
CH2-04-GW-05
CH2-04-GW-06CL2-03-GW-01
CL2-03-GW-02-AVG
CL2-05-GW-01NSCL2-05-GW-03
CW5-03-GW-01
CW5-03-GW-02R-AVG
ivhtrogen, AmmoniaNitrogen, AmmoniaNitrogen, AmmoniaNitrogen, AmmoniaNitrogen, Ammonia
Nitrogen, AmmoniaNitrogen, AmmoniaNitrogen, AmmoniaNitrogen, AmmoniaNitrogen, AmmoniaNitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, AmmoniaNitrogen, Ammonia
Nitrogen, AmmoniaMitrogen, AmmoniaMitrogen, AmmoniaNitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, AmmoniaNitrogen, AmmoniaNitrogen, AmmoniaNitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, AmmoniaNitrogen, Ammoniafltrogen, AmmoniaNitrogen, Ammonia•Jitrogen, Ammonia
Nitrogen, Ammonia•litrogen, Ammonia
'Jitrogen, AmmoniaNitrogen, Ammonia
•fitrogen, AmmoniaNitrogen, Ammonia
-litrogen, AmmoniaNitrogen, AmmoniaNitrogen, Ammonia
Nitrogen, Ammonia
•litrogen. Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia'itrogen, Ammonia
Nitrogen, Ammonia
itrogen. Ammonia
CB1-04-GW-01NS-1 10701CB2-05-GW-02CB2-05-GW-03RCB2-06-GW-02NSCB3-02-GW-01NS
CB3-02-GW-03CB3-03-GW-03CB4-03-GW-03CB4-04-GW-01NSCB4-04-GW-02NS
CB4-05-GW-03NS
CB5-01-GW-01CB5-02-GW-02
CB5-02-GW-03
CB5-03-GW-03
CB6-03-GW-01
CB6-03-GW-02CB6-03-GW-03CB7-01-GW-01
CB7-01-GW-03CB7-02-GW-01CB7-02-GW-02
CB7-03-GW-01CB7-03-GW-02R
CB7-03-GW-03CB8-01-GW-01CB8-01-GW-03CB8-04-GW-02NSCB9-01-GW-01CB9-01-GW-03CB9-02-GW-02
CB9-04-GW-01
CB9-05-GW-01CE3-02-GW-03CE4-02-GW-01
CE4-03-GW-01NS-07230I
CE4-03-GW-03CH1-04-GW-04
CH1-04-GW-05R
CH2-02-GW-02
CH2-02-GW-05
CH2-04-GW-05
CH2-04-GW-06
CL2-03-GW-01
CL2-03-GW-02
CU-05-GW-01NS
CL2-05-GW-03
CW5-03-GW-01
CW5-03-GW-02R
215013.3
738.5127032249.51562.7
1.8721.916 J720281
2710276
1910859
27.40.13
7611.4195348
13805.1173.3223558389147
3.522.170.0412.2
104
0.42
0.0550.092
2.52.54
0.630.240.18
0.05911.30.11
466.4
J
J
JJ
J
J
J
UJJ
JJJ
U
UJUJJJJUJUJUJ}UJJ
MG/LMG/LMG/LMG/LMG/LMG/LMG/LMG/LMG/LMG/LMG/LMG/LMG/LMG/LMCA.MG/LMG/LMG/LMG/LMG/LMG/LMG/LMG/LMG/LMG/LMG/L
MG/L
MG/LMG/LMG/L
MG/L
MG/LMG/LMG/LMG/L
MG/L
MG/LMG/LMG/LMG/LMG/LMG/LMG/LMG/L
MG/L
MG/L
MG/L
MG/LMG/L
Page 1 of 2 Groundwater ammonia data for addendum.xls [Basic]
TABLE 1. GROUND WATER AMMONIA RESULTS
NSAMPLE PARAMETER EPASAMNO LAB_RESULT J QUAL
CW5-03-GW-03NS
CW5-05-GW-02R
CW5-05-OW-03
CW5-08-OW-01
P1-01-GW-01-041201
Pl-Oi-GW-OIR
P1-01-GW-02
P1-01-GW-02R
P1-OI-GW-03R
P1-01-GW-04R
P1-01-GW-05R-AVG
PI-01-GW-06NS-U0701
P1-01-GW-07NS
PI-01-GW-08NS-1 11301
P1-02-GW-01
P1-02-GW-02
P1-02-GW-03
P1-02-GW-04-AVG
P1-02-GW-05NS-1 10501
P1-02-GW-06NS-1 10601
P1-02-GW-07NSP1-03-GW-01
P1-03-GW-02
PI-03-GW-03
P1-03-GW-04
P1-03-GW-05NS
P1-03-GW-06NS-051601
P1-04-GW-01
P1-04-CW-02-AVG
P1-04-GW-03P1-04-GW-04
P1-05-GW-01
P1-05-GW-02
P1-05-GW-03P1-05-GW-04NS
P1-05-GW-05
P1-06-GW-01
P1-06-GW-02
P1-06-GW-03
P1-06-GW-04
Pl-07-GW-m-AVG
P1-07-GW-02P1-07-GW-03NS-073I01
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Mitrogen, Ammonia
Nitrogen, AmmoniaNitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
>Iitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
tf trogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
Nitrogen, Ammonia
filrogen. AmmoniaNitrogen, Ammonia
CW5XJ3-GW-03NS
CW5-05-GW-02R
CW5-05-GW-03
CW5-08-GW-01
Pl-Ol-GW-Ol-041201
P1-01-GW-01R
P1-01-GW-02
P1-01-GW-02R
P1-01-GW-03R
P1-01-GW-04R
P1-01-GW-05R
P1-01-GW-06NS-1 10701
P1-01-GW-07NS
P1-01-GW-08NS-1 1 1301
P1-02-GW-01
P1-02-GW-02
P1-02-GW-03
P1-02-GW-04
P1-02-GW-05NS-1 10501
P1-02-GW-06NS-1 10601
P1-02-GW-07NSP1-03-GW-01
P1-03-GW-02
P1-03-GW-03
P1-03-GW-04
P1-03-GW-05NS
PI-03-GW-06NS-051601
P1-04-GW-OI
P1-04-GW-02
P1-04-GW-03
P1-04-GW-04
P1-05-GW-01
Pl-OS-GW-02
P1-05-GW-03
P1-05-GW-04NS
P1-05-GW-05
P1-06-OW-01
P1-06-GW-02
P1-06XJW-03
P1-06-GW-04
P1-07-GW-01
P1-07-GW-02P1-07-GW-03NS-073101
2492370
6161.4
1.97
1.42
0.11
0.04
0.04
0.049
0.051
030.16
0.27
8.7
19.5
8.02
0.28
1.131.150.24
0.087
0.079
0.30.11
0.74
0.38
OJ41.82
0.072
0.065
0.22
1.46
1.86
0.16
0.071
0.042
0.072
0.39
0.088
0.052
0.0850.078
JJ
UuUJ
UJUJuu
UJUJu
uUJUJ
UJ
UJUJUJJ
UNITS
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/L
MG/LMG/L
Page 2 of 2 Groundwatcr ammonia data for addendum.xls [Basic]
TABLE 2. SURFACE WATER AMMONIA RESULTS
Location
WN50
WC50
WS50
WN50
WC50
WS50
WN50
WC50
WS50
WN50
WC50
WS50
WC50
WS50
WS50
Hall's Brook Inlet
Atlantic Ave. Drainway
HBHA Pond Outlet
IP-OUTLET-01
Date
11/30/1999
11/30/1999
11/30/1999
4/4/2000
4/4/2000
4/4/2000
8/25/2000
8/25/2000
8/29/2000
4/2/2001
4/2/2001
4/2/2001
9/17/2001
9/17/2001
9/20/2004
4/5/2000
5/18/2000
8/30/2000
4/5/2001
9/16/2001
9/20/2004
4/5/2000
4/5/2001
9/20/2004
4/5/2000
5/18/2000
8/30/2000
4/5/2001
9/16/200J
9/20/2004
7/11/2005
Pepth
(cm)
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10NA
Depth
(ft)
1.6
1.6
1.6
1.6
1.6
1.6
1.6
1.6
1.6
1.6
1.6
1.6
1.6
1.6
1.6
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33
0.33NA
NH3-N
mgN/L
9.59.36
9.58
7.4
7.6
7.9
13.1
14.8
16
5.4
55.3
16.4
15.1
2
5.2
7.8
7.6
5.5
4.1
3.3
0.12.20.77.4
816
6.9
17.2
43.81
NotesNA = not applicable or not available
Page 1 of 1 Surface Water Ammonia data for addendum.xls [SW]
TABLE 3. SURFACE SOIL SAMPLING RESULTS - RC SAMPLES
INDUSTRI-PLEX OU-2 (INCLUDING WELLS G OU-3) SUPERFUND SITE
Sample ID:Sample Date:
Matrix:Lab Sample ID:
Contaminant (mg/kg)AluminumAntimony
ArsenicBariumJeryllium
CadmiumCalciumChromiumCobaltCopperYon-cadMagnesiumManganeseNickelPotassium
SeleniumSilverSodiumThalliumVanadiumZinc
RC-0112-Jul-05
Soil/SedimentAA51321
4,6009.8 U20 U56
0,98 U2.9 U
2,300131120
5,70069
8301,600
9.5390 U9.8 U2.9 U200 U
20 U1453
RC-0212-Jul-05
Soil/SedimentAA5I322
9,10015 U30 U481.5 U4.5 U
8,000214.729
13,000140900
94I I
600 U15 U
4.5 U300 U
30 U3679
RC-0312-JuI-05
Soil/SedimentAA51323
9,00016 U32 U481.6 U4.8 U
3,700265.079
20.000240690
3311
640 U16 U
4.8 U320 U
32 U4857
RC-0412-Jul-05
Soil/SedimentAA51324
3,80016 U32 U401.6 U4.8 U
4,80017
4.8 U22
7,800250370
249.6 U640 U
16 U4.8 U640
32 U2445
RC-0512-Jul-05
Soil/SedimentAA51325
8,30012 U24 U371.2 U3.6 U
9,400223.921
7,700370620
237.3490
12 U3.6 U
240 U24 U3741
RC-0612-Jul-05
Soil/SedimentAA5I326
3.10010 U20 U211.0 U3.1 U720
173.1 U16
4,3002801509.36.2
410 U10 U
3.1 U200 U
20 U2823
RC-0712-Jul-05
Soil/SedimentAA51327
.2,900
11 U22 U13
1.1 U3.3 U983.73.3 U4.0
2,90052693.86.6 U
440 UII U
3.3 U220 U
22 U9.55.8
Page 1 of2 Soil data for addendum.xls [Data]
I 1
TABLE 3. SURFACE SOIL SAMPLING RESULTS - RC SAMPLESINDUSTRI-PLEX OU-2 (INCLUDING WELLS G OU-3) SUPERFUND SITE
Sample ID:Sample Date:
Matrix:Lab Sample ID:
Contaminant (nig/kg)AluminumAnlimonyArsenicJariumJerylliumCadmiumCalciumChromiumCobaltCopperron^eadMagnesiumManganeseNickelPotassiumSeleniumSilverSodiumThalliumVanadiumZinc
RC-08l2-Jul-05
Soil/SedimentAA51328
5,40013 U26 U731.3 U3.9 U
6,00012
7.621
6,400200
1,0003711
53013 U
3.9 U260 U
26 U1864
RC-08Dl2-Jul-05
Soil/SedimentAAS1332
4,9009.8 U20 U78
0.98 U2.9 U
5,4009.47.520
6,600170600
3811
5409.8 U2.9 U200 U20 U1667
RC-0912-Jul-OS
Soil/SedimentAA51334
3,10010 U20 U401.0 U3.0 U
5,40012
3.0 U19
6.700240360
336.6
400 U10 U
3.0 U200 U
20 U2156
RC-09D12-Jul-OS
Soil/SedimentAA51333
3,90010 U20 U511.0 U3.0 U
7,10016
3.724
8,400280480
507.8
400 U10 U
3.0 U200 U20 U2673
RC-1012-M-05
Soil/SedimentAA51329
13,00011 U23 U171.1 U3.4 U440164.617
7,300190690247.2460 U
11 U3.4 U230 U40 U4033
RC-ll12-Jul-05
Soil/SedimentAA51330
2,2001220 U
7.00.99 U
3.0 U1308.43.0 U11
3,60016085
6.45.9 U
400 U9.9 U3.0 U200 U20 U2817
RC-1212-Jul-05
Soil/SedimentAA5133I
-^
7,4009.7 U19 U30
0.97 U2.9 U
2,700182126
17,00055
3,100790
145209.7 U2.9 U190 U40 U2484
Page 2 of2 Soil data for addendum.xls [Data]
C3~ AIR MODELING
APPENDIX C.3
AIR MODELING
*
1.0 INTRODUCTION
This appendix contains a description of the methods and assumptions used to evaluate
inhalation exposures to ammonia following its release to air during groundwater use in a warm
water car wash.
The purposes of this evaluation are: 1) to evaluate the potential human health risks that may be
posed by ammonia contamination of groundwater at the Industri-plex site area; and 2) to provide
a basis for decisions as to whether remedial action is necessary for ammonia in groundwater.
This assessment provides estimates of risk under a hypothetical future groundwater use
scenario (use of groundwater in a warm water car wash) for the reasonable maximum exposedi
(RME) receptor, used to represent the maximum (upper-bound) exposure that is reasonably
expected to occur.
2.0 HAZARD IDENTIFICATION
To evaluate the impact of future industrial and commercial groundwater use on indoor air quality,
the maximum detected groundwater ammonia concentration presented in Table 1 of this
appendix (2,710,000 ug/L) was modeled to an indoor air concentration using methods and
assumptions provided in Table 2 of this appendix. Indoor air concentrations were modeled
based on the use of groundwater in a warm water car wash. For estimation of air concentration
in a warm water car wash, the shower model approach presented by Foster and Chrostowski
(1986; 1987) was assumed to be proportionally representative of conditions similar to a car
wash. The modeling equations and model inputs are provided on Table 2. A Henry's Law
Constant (ATSDR, 2002) applicable to ammonia at pH 7 was selected for use in the modeling
based on site-specific groundwater pH measurements which indicate that groundwater pH
ranges from 4.64 to 8.04 at the site, with most measured values below pH 7. The model adjusts
the Henry's Law Constant for its application to a temperature of 45 °C (113 °F). The maximum
Appendix C.3 - Draft 1 October 2005
modeled indoor air concentration is presented in Table 2.1 of Appendix C.1 (319,697 ug/m3).
Because only one air concentration was modeled (based on the maximum groundwater
concentration), only one air concentration (i.e., the maximum predicted concentration) appears
on Table 2.1 of Appendix C.1.
The maximum modeled indoor air concentration of ammonia was compared to its ambient air
preliminary remedial goal (PRG) published by USEPA Region 9 (USEPA, 2004b) to determine
whether further evaluation of ammonia was warranted. PRGs are chemical concentrations
back-calculated using toxicity criteria and either a 1 x 10"6 target risk level for potential
carcinogens or a hazard quotient (HQ) of 1 for noncarcinogens. For purposes of this screening
analysis, a HQ of 0.1 was used to add a ten-fold measure of safety to reduce the chance of
omitting ammonia from the list of chemicals that could contribute to a total hazard index (HI) of 1.
To accomplish this, the ammonia PRG was divided by 10 prior to comparison to its maximum
modeled value resulting in an adjusted PRG of 10 ug/m3. Because the maximum modeled air
concentration exceeded the Region 9 ambient air PRG (Table 2.1 in Appendix C.1), further risk
evaluation of ammonia was performed.
3.0 EXPOSURE AND TOXICITY ASSESSMENT
Because USEPA recommends the use of the UCL providing 95% coverage on the arithmetic
mean concentration for the estimation of RME risk (USEPA 1989; 1992; 1994; 2002; and
2004a), ammonia groundwater data were used to generate a groundwater UCL value which was
then modeled to estimate an airborne UCL ammonia concentration a worker may be exposed to
during warm water car wash use. The groundwater ammonia UCL was calculated using
USEPA's program "ProUCL Statistical Software" (version 3.0). Table 4 in this appendix provides
the ProUCL output for the groundwater data. Table 3.RME in this appendix summarizes the
mean, maximum, and 95% UCL groundwater values. The 95% UCL groundwater concentration
(316,000 ug/L) was then modeled to a 95% UCL airborne ammonia concentration (37,300
ug/m3). Table 5 in this appendix documents the groundwater UCL, assumptions used in the
modeling, and the inputs to the model. The same model and assumptions used to generate the
maximum ammonia indoor air concentration were used to predict a 95% UCL indoor air
ammonia concentration. Tables 3.1.RME in Appendix C.1 lists the modeled UCL ammonia air
Appendix C. 3 - Draft 2 October 2005
concentrations used to evaluate the car wash water use scenario.
Car wash workers are assumed to be exposed to volatile COPCs in indoor air only. For the
inhalation pathway, the exposure time was assumed to be equivalent to a typical 8-hour work
day for both the CT and RME cases (USEPA, 1997). An exposure frequency of 250 days/year
was used, representative of the 95th percentile number of days worked per year. The default
high-end exposure duration of 25 years was used for the RME case (USEPA, 1997). An
ammonia inhalation reference concentration (RfC; 100 ug/m3) from the Integrated Risk
Information System (IRIS; USEPA, 2005) was used, in conjunction with the exposure
assumptions, to estimate noncarcinogenic hazard for the car wash scenario. Based on available
information, ammonia is not a classified as a known, probable, or potential carcinogen.
Therefore, only noncarcinogenic ammonia hazards have been further evaluated.
4.0 RISK CHARACTERIZATION AND CLEANUP LEVEL DEVELOPMENT
Risk characterization combines estimates of exposure with toxicity data to develop estimates of
the probability that an adverse effect will occur under the specified conditions of exposure.
Noncancer hazard is estimated by means of a Hazard Quotient (HQ). To calculate the
noncarcinogenic HQ, the following equation was used:
HQ = (CA x ET x EF x ED) / (CF x AT x RfC)
Where:
CA = modeled 95% UCL ammonia concentration in air (37,300 ug/m3)
ET = exposure time (8 hours/day)
EF = exposure frequency (250 days/year)
ED = exposure duration (25 years)
CF = conversion factor (24 hours/day)
AT = averaging time (9,125 days)
RfC = reference concentration (100 ug/m3)
The HQ for ammonia (85) exceeds the target HQ of 1. Therefore, ammonia was determined as
posing a future potential risk to human health. Based on this determination, a cleanup goal was
Appendix C.3 - Draft 3 October 2005
developed for ammonia based on the same methods and assumptions used to estimate the
noncancer hazard for ammonia. Using the following proportionality, a groundwater cleanup goal
was estimated:
95% UCL groundwater concentration groundwater PRG
RME HQ target HQ
Where:
95% UCL Groundwater Concentration = 316,000 ug/LRME HQ = 85Target HQ = 1Groundwater PRG = 3,718 ug/L (rounded to 4,000 ug/L or 4 mg/L)
5.0 REFERENCES
Agency for Toxic Substances and Disease Registry (ATSDR). 2002. ToxicologiCal profile for
ammonia. U.S. Department of Health and Human Services. Public Health Service.
December 2002.
Foster and Chrostowski. 1986. Sara A. Foster and Paul C. Chrostowski, ICF Clement Assoc.
Integrated Exposure Model for Use of Tap Water Contaminated with Volatile Organic
Chemicals. 79th Annual Meeting of the Air Pollution Control Association, Minneapolis,
Minnesota. June 1986.
Foster and Chrostowski. 1987. Sara A. Foster and Paul C. Chrostowski, ICF Clement Assoc.,
Washington, D.C. Inhalation Exposure to Volatile Organic Contaminants in the Shower.
80th Annual Meeting of the Air Pollution Control Association, New York, New York. June
21-26, 1987.
U.S. Environmental Protection Agency (USEPA). 1989. Risk assessment guidance for
Superfund. Volume I: Human health evaluation manual. Part A. Interim Final.
EPA/540/1-89/002. December 1989.
U.S. Environmental Protection Agency (USEPA). 1992. Supplemental guidance to RAGS:
calculating the concentration term. Office of Solid Waste and Emergency Response.
Appendix C.3 - Draft 4 October 2005
Washington, D.C. Publication 9285.7-081. May 1992.
U.S. Environmental Protection Agency (USEPA). 1994. Risk updates, no. 2. USEPA Region I.ii
August 1994.
U.S. Environmental Protection Agency (USEPA). 1997. Exposure factors handbook. Office of
Research and Development. Washington, D.C. August 1997.
U.S. Environmental Protection Agency (USEPA). 2002. Calculating upper confidence limits for
exposure point concentrations at hazardous waste sites. Off ice of Emergency and
Remedial Response. Washington, D.C. OSWER 9285.6-10. December 2002.
U.S. Environmental Protection Agency (USEPA). 2004a. ProUCL version 3.0 statistical
software to compute upper confidence limits on the unknown population mean.
Technical Support Center. Las Vegas, Nevada.
http://www.epa.gov/nerlesd1/tsc/tsc.html. April 2004.
U.S. Environmental Protection Agency (USEPA). 2004b. Preliminary remediation goals table.
Region 9 technical support team. Office of Superfund Programs. Region IX. October
2004.
U.S. Environmental Protection Agency (USEPA). 2005. Integrated risk information system
(IRIS). Environmental Criterion and Assessment Office. August 2005.
Appendix C.3 - Draft 5 October 2005
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TABLE 4. PRO UCL OUTPUT
OausFleVariable:
1 U-ANEVWELLSG&HVRI AddenouMCroundwatei ammonian data for aOOendunvxls
Raw StatisticsNumber of ObservationsNumber of Missing DataNumber 01 Vald Observationslumber ol Distinct ObservationsMinimumMaximumMean !Standard DevotionVariance iCoefficient of VariationSkewne&s 1Too Few Distinct Observations?Normal StatisticsUWelorsTeslStaOsHIcLJUIefors 5% Critical ValueShaplro-WiBi Test StatisticShaplro-Wilk 5% Critical Value5% Normality Test Result95% student's-! UCLGamma Statisticsthat< star (biasThelahatThetastarnu hatnu slar
corrected
jAmmonia II
^—
921 ioi ;
... «|
T!
1
J
187J i
0.02 12710
zoa.eisl549.7804302258.'2.632859)3.2554821
NO
0.3780550.092372WA
{t
N/ANOT NORMAL304.065:
0.1742430.175807
I 11M.415
5% Approximate Chi Souare ValueAdjusted Level of SignificanceAdjusiea CM Square ValueAnderson-Darting Test Statistic
1187.75
!
!
ti
Data not normal at 5% stonlflcan
32.0606632.3485320.346520.047391
i 20.19197
iI
, 1 5.505533!Anderson-Oarlna5% Critical ValueAnderson-Oarina 5% Gamma Test ResultKolmoflrov-Smimov Test StatisticKotmoH'ov-Smimov 5% Critical Value<dmogrov-Smimov5% Gamma Test Resull5% Gamma Test Result95% Approximate Gamma UCt95% Adjusted Gamma UCL.OQironrval statisticsMinimum of IOD dataMaximum of log data.lean of log dataStandard Deviation ol loo dataVariance of loo data tUBieforsTestSlalisWcjiteforc 5% Critical Value
Shapiro-Wine Test Sta&sMcShapiro- Wile .5% Critical Value5% Lognormality Test ResultMLE MeanMLE Standard DeviationMLE Coefficient of VariationJLESkewneis
MLE Median«_E 60% Ouanae
MLE 90% Quanta*»LE95%QuanlileJLE 99% Ouanse»VU Estimate ol Median
MVU Estimale of Mean
0.93758
ce level
j
11
"" ' 1 i
(
WOT AD GAMMA ! Data not oamma acsWxited at 5% sionBicance level0.1917510.104296 t
j !! 1
NOT KS GAMMA I Data not samma distributed at 5X sioniflcanee levelNOT GAMMA Oata not gamma eNstritxjted at 5% significance level i331.9909334.4822
•3.912027.9047041.0274493.659444
1 1359153i 0.0996840.092372M/AWA
1
i
INOTLOGNORMALI 2260.218I 1828454I 808.97315.29E«C8
Data not loanormal at
2.79393I81.539531307.9186 "•1149.6761 i
[ '
i
5%M>r»r>c
13895.45!2.597663! I1408.783
<VU Estimale of Standard DevbOonMVU Estimate of SE of Mean I95%H-UCL6% Cheoyshev (MVUE1 UCL7.5% Ol«>yshev (MVUE) UCLS% CneDyshev (MVUE) UCL
Non-parametric Statistics5%O.TUCL5%AdjusUH>£LTUCL5K Modified-t UCL5% jackXnlfe IXL
95% cnebyshev (Mean. Sdl UCL97.5% Chebvshev fUean. Sd) UCL
155474.11
1012.0061 |18670.I2J j5818.014 !7726.75711476.11J
i303.0956; i323.8829! 1307.3077! i304.0653: !45J.660SJ 1566.7693!
99%aiebvshev(Mean,Sd)UCL i 77S.1275!Bootstrap StatisticsUmber of Bootstrap Runs5% Standard E-ootetrao UCL
95%Bootstrap-IUCL!5% Hairs Bootstrap UCL5% Percentae Bootstrap UCL
95% BCA Bootstrap UCLecommendauonsigman Inspection Recommende<
Apprapnate Dteuitxilionst Recommended UCL
2nd Recommenced UCLrd Recommended UCL
j ,i 20001305.11T4!
: 337.4971 i316.1744)302.3632
! 322.9993!
P IY6Si NON-PARAMETRIC3161744: 195% Hafs Bootstrap
iecommended UCL > Max Da la Value '•I1
1
iancelevel ,
i i
i
1
1
... j
1- - j
. -.j
! i
] !: i
'• i
i1
CL
11
Recommendation Warnlna! IPLEASE CHECK Hairs Bootstrap/Bootstrap-! may yield erraticAlternative UCL 1 ;NONE i in that case use 99% Chebvshev (Mean. Sd)
—
'a'ues.ixx ;
F>;c I of I anvrvnu ProUCL.xb | Amncou)
TAOLE 5. SHOWER MODELFOSTER ANB CHROSTOWSKfFiiliire Advil Scenario - Northern Sludy ton Croiindwiter In Car \Vssti. 9SV* UCL Con«ntr»llun>
Analyle
Ammonil
Eillmalton o( Gvt-ttiiie MM*Tnn* frr CoeHlritnl (tmftir)
Srvoo
fcfflttM MW fc*VQC)
3.00E403 1.70B+OI 3.08E+03
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Page 1 of) air.xls (Shower-Study Arca-95 UCUJ
APPENDIX D
NATIONAL RECOMMENDED WATER QUALTIY CRITERIA TABLES FOR AMMONIA
United States Office of Water EPA-822-R-99-014Environmental Protection 4304 December 1999Agency
SERA 1999 Updateof AmbientWater QualityCriteriafor
Ammonia
Supersedes 1998 Update
pH-Dependent Values of the CMC (Acute Criterion)
CMC,
PH
6.5
6.6
6.7
6.8
6.9
7.0
7.1
7.2
7.3
7.4
7.5
7.6
7.7
7.8
7.9
8.0
8.1
8.2
8.3
8.4
8.5
8.6
8.7
8.8
8.9
9.0
SalmonidsPresent
32.6
31.3
29.8
28.1
26.2
24.1
22.0
19.7
17.5
15.4
13.3
11.4
9.65
8.11
6.77
5.62
4.64
3.83
3.15
2.59
2.14
1.77
1.47
1.23
1.04
0.885
mgN/L
SalmonidsAbsent
48.8
46.8
44.6
42.0
39.1
36.1
32.8
29.5
26.2
23.0
19.9
17.0
14.4
12.1
10.1
8.40
6.95
5.72
4.71
3.88
3.20
2.65
2.20
1.84
1.56
1.32
86
Temperature and pH-Dependent Values of the CCC (Chronic Criterion)for Fish Early Life Stages Present
>
pH
6.5
6.6
6.7
6.8
6.9
7.0
7.1
7.2
7.3
7.4
7.5
7.6
7.7
7.8
7.9
8.0
8.1
8.2
8.3
8.4
8.5
8.6
8.7
8.8
8.9
9.0
0
6.67
6.57
6.44
6.29
6.12
5.91
5.67
5.39
5.08
4.73
4.36
3.98
3.58
3.18
2.80
2.43
2.10
1.79
1.52
1.29
1.09
0.920
0.778
0.661
0.565
0.486
14
6.67
6.57
6.44
6.29
6.12
5.91
5.67
5.39
5.08
4.73
4.36
3.98
3.58
3.18
2.80
2.43
2.10
1.79
1.52
1.29
1.09
0.920
0.778
0.661
0.565
0.486
CCC for
16
6.06
5.97
5.86
5.72
5.56
5.37
5.15
4.90
4.61
4.30
3.97
3.61
3.25
2.89
2.54
2.21
1.91
1.63
1.39
1.17
0.990
0.836
0.707
0.601
0.513
0.442
Fish Early Life
18
5.33
5.25
5.15
5.03
4.89
4.72
4.53
4.31
4.06
3.78
3.49
3.18
2.86
2.54
2.24
1.94
1.68
1.43
1.22
1.03
0.870
0.735
0.622
0.528
0.451
0.389
Stages Present,
Temperature, C
20 22 24
4.68
4.61
4.52
4.42
4.30
4.15
3.98
3.78
3.57
3.32
3.06
2.79
2.51
2.23
1.96
1.71
1.47
1.26
1.07
0.906
0.765
0.646
0.547
0.464
0.397
0.342
4.12
4.05
3.98
3.89
3.78
3.65
3.50
3.33
3.13
2.92
2.69
2.45
2.21
1.96
1.73
1.50
1.29
1.11
0.941
0.796
0.672
0.568
0.480
0.408
0.349
0.300
3.62
3.56
3.50
3.42
3.32
3.21
3.08
2.92
2.76
2.57
2.37
2.16
1.94
1.73
1.52
1.32
1.14
0.973
0.827
0.700
0.591
0.499
0.422
0.359
0.306
0.264
mgN/L
26
3.18
3.13
3.07
3.00
2.92
2.82
2.70
2.57
2.42
2.26
2.08
1.90
1.71
1.52
1.33
1.16
1.00
0.855
0.727
0.615
0.520
0.439
0.371
0.315
0.269
0.232
28
2.80
2.75
2.70
2.64
2.57
2.48
2.38
2.26
2.13
1.98
1.83
1.67
1.50
1.33
1.17
1.02
0.879
0.752
0.639
0.541
0.457
0.386
0.326
0.277
0.237
0.204
30
2.46
2.42
2.37
2.32
2.25
2.18
2.09
1.99
1.87
1.74
1.61
1.47
1.32
1.17
1.03
0.897
0.773
0.661
0.562
0.475
0.401
0.339
0.287
0.244
0.208
0.179
87
Temperature and pH-Dependent Values of the.CCC (Chronic Criterion)for Fish Early Life Stages Absent
1
PH
6.5
6.6
6.7
6.8
6.9
7.0
7.1
7.2
7.3
7.4
7.5
7.6
7.7
7.8
7.9
8.0
8.1
8.2
8.3
8.4
8.5
8.6
8.7
8.8
8.9
9.0
0-7
10.8
10.7
10.5
10.2
9.93
9.60
9.20
8.75
8.24
7.69
7.09
6.46
5.81
5.17
4.54
3.95
3.41
2.91
2.47
2.09
1.77
1.49
1.26
1.07
0.917
0.790
CCC for Fish Early Life
8
10.1
9.99
9.81
9.58
9.31
9.00
8.63
8.20
7.73
7.21
6.64
6.05
5.45
4.84
4.26
3.70
3.19
2.73
2.32
1.96
1.66
1.40
1.18
1.01
0.860
0.740
9
9.51
9.37
9.20
8.98
8.73
8.43
8.09
7.69
7.25
6.76
6.23
5.67
5.11
4.54
3.99
3.47
2.99
2.56
2.18
1.84
1.55
1.31
1.11
0.944
0.806
0.694
10
8.92
8.79
8.62
8.42
8.19
7.91
7.58
7.21
6.79
6.33
5.84
5.32
4.79
4.26
3.74
3.26
2.81
2.40
2.04
1.73
1.46
1.23
1.04
0.885
0.756
0.651
Stages
Temperature
11 12
8.36
8.24
8.08
7.90
7.68
7.41
7.11
6.76
6.37
5.94
5.48
4.99
4.49
3.99
3.51
3.05
2.63
2.25
1.91
1.62
1.37
1.15
0.976
0.829
0.709
0.610
7.84
7.72
7.58
7.40
7.20
6.95
6.67
6.34
5.97
5.57
5.13
4.68
4.21
3.74
3.29
2.86
2.47
2.11
1.79
1.52
1.28
1.08
0.915
0.778
0.664
0.572
Absent,
13
7.35
7.24
7.11
6.94
6.75
6.52
6.25
5.94
5.60
5.22
4.81
4.38
3.95
3.51
3.09
2.68
2.31
1.98
1.68
1.42
1.20
1.01
0.858
0.729
0.623
0.536
mg N/L
14
6.89
6.79
6.66
6.51
6.33
6.11
5.86
5.57
5.25
4.89
4.51
4.11
3.70
3.29
2.89
2.52
2.t7
1.85
1.58
1.33
1.13
0.951
0.805
0.684
0.584
0.503
15*
6.46
6.36
6.25
6.10
5.93
5.73
5.49
5.22
4.92
4.59
4.23
3.85
3.47
3.09
2.71
2.36
2.03
1.74
1.48
1.25
1.06
0.892
0.754
0.641
0.548
0.471
16*
6.06
5.97
5.86
5.72
5.56
5.37
5.15
4.90
4.61
4.30
3.97
3.61
3.25
2.89
2.54
2.21
1.91
1.63
1.39
1.17
0.990
0.836
0.707
0.601
0.513
0.442
* At 15 C and above, the criterion for fish ELS absent is the same as the criterion for fish ELSpresent.
88
APPENDIX E
AMMONIA TOXICITY PROFILE
TOXICITY PROFILE
AMMONIA
Ammonia (NH3) is found throughout the environment in the air, soil, and water. It is also found inplants and animals, including humans. Bacteria found in the intestines can produce ammonia.It occurs naturally and is produced by human activity. As an important nutrient, it does not lastlong in the environment, but is taken up quickly by plants, bacteria, and animals. It does notbiomagnify in the food chain (ATSDR, 2004). Ammonia is manufactured by reacting hydrogenwith nitrogen in a reaction called the Haber Process. About 80% of ammonia produced is usedin fertilizers. Ammonia is used as a refrigerant gas, in the manufacture of plastics, explosives,pesticides, and other chemicals, as a corrosion inhibitor, in the purification of water supplies, asa cleaning component, in the pulp and paper, metallurgy, rubber, food and beverage, textile, andleather industries, and in the manufacture of Pharmaceuticals (ATSDR, 2002). Ammonia is alsoproduced naturally when organic matter decomposes (ATSDR, 2004).
At room temperature,' ammonia is a colorless, highly irritating gas with a distinct pungent,suffocating odor. It is lighter than air and can be flammable at high concentrations andtemperatures (ATSDR, 2002). This odor is familiar to many people because of its use insmelling salts, many household and industrial cleaners, and window cleaning products.Ammonia is also applied directly to soil as a fertilizer for farm crops, lawns, and plants. It iseasily compressed, and forms a clear colorless liquid under pressure (ATSDR, 2002). Ammoniacan dissolve easily into water to form the ammonium ion (NH4
+) and ammonium hydroxide(NH4OH), an alkaline solution. Ammonia-based cleaning products vary between 5% (householdcleaner) and 25% (commercial cleaner) solutions. Commercial strength cleaners are corrosiveand commonly stored in steel drums. Once exposed to open air, dissolved ammonia quicklyvaporizes (ATSDR, 2004). Adequate ventilation and protective clothing are recommended whenusing ammonia-based cleaners or fertilizers (ATSDR, 2002).
No adverse health effects have been noted in humans exposed to typical environmentalconcentrations of ammonia. However, exposure to higher concentrations of airborne ammonia(> 100 ppm) may be irritating to the skin, eyes, throat, and lungs, causing coughing and burns.The irritation may be accompanied by lacrimation, rhinorrhea, and upper airway swelling. Theseeffects are caused by the reaction of moisture in the mucous membranes with ammonia toproduce ammonium hydroxide. Lung damage, characterized by bronchiolar and alveolar edemaand airway destruction, and death have resulted after exposure to extremely high concentrationsof ammonia (> 300 ppm). However, ammonia=s odor threshold (5 ppm) is sufficiently low toprovide adequate warning of its presence. Asphyxiation may occur in poorly ventilated orenclosed spaces. Chronic exposure may cause chronic cough, asthma, and lung fibrosis(ATSDR, 2002).
Ingestion of concentrated ammonia solutions can cause corrosive damage to the mouth, throat,and stomach, accompanied by nausea, vomiting, abdominal pain, and esophageal burns.Ingestion of ammonia does not normally result in systemic poisoning due to its rapid (i.e., withinminutes) biotransformation in the body to less toxic materials. Ammonia breakdown productstypically leave the body within a couple of days (ATSDR 2004). Dilute aqueous solutions (5%)can produce moderate skin irritation. More concentrated solutions can cause pain,inflammation, blisters, necrosis, and deep burns, especially on moist skin. Frostbite injury canoccur upon contact with compressed liquid ammonia (ATSDR, 2002).
Airborne concentrations of greater than 50 ppm may produce rapid eye irritation (ATSDR, 2002).
Higher concentrations may cause severe eye injury. Splashing 25% ammonia solutions into theeyes can also cause skin burns and permanent eye damage that may result in blindness
( (ATSDR, 2004). Cataracts and glaucoma have been reported in people acutely exposed toammonia vapor. '< '
A level of 300 ppm is considered immediately dangerous to life or health (ATSDR, 2002). Thereis no antidote for ammonia poisoning, but ammonia=s effects can be treated and most peoplerecover.
Ammonia is an essential metabolite for DMA, RNA, and protein synthesis and is necessary formaintaining acid-base balance. Ammonia is produced and used in all mammalian species,including humans. Minimal Risk Levels (MRLs) of 1.7 ppm and 0.1 ppm for acute-duration andchronic-duration inhalation exposures, respectively, have been established. If a person isexposed to ammonia in air at a concentration below the MRL, it is not expected that harmfulhealth effects will occur. No oral MRLs have been derived for ammonia in water. However, theamount of ammonia that can be safely ingested and assimilated may be substantial (tens ofmg/kg) based on the various efficient ways by which the body can dispose of ammonia (ATSDR,2004).
Ammonia has not been classified as to its ability to produce carcinogenicity (ATSDR, 2002). It isalso unknown whether ammonia exposure causes birth defects or if ammonia can pass throughthe placenta to a fetus or pass to infants via breast milk. However, decreased egg productionand conception rates have been observed in animals, and ammonia has been shown to crossthe ovine placenta! barrier (ATSDR, 2002).
Agency for Toxic Substances and Disease Registry (ATSDR). 2002. Managing HazardousMaterials Incidents. Volume III - Medical Management Guidelines for Acute ChemicalExposures: Ammonia. U.S. Department of Health and Human Services, Public Health Service.
Agency for Toxic Substances and Disease Registry (ATSDR). 2004. Toxicological Profile forAmmonia. U.S. Department of Health and Human Services, Public Health Service.