Pfizer Little Island IEL Groundwater Monitoring Round 1 (April) 2016

60488151 / CKRP0001

Issue No. 3 Final Rev 1

Prepared for: Pfizer Ireland Pharmaceuticals Limited

Prepared by: AECOM Infrastructure and Environment Ireland Limited

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DOCUMENT PRODUCTION / APPROVAL RECORD

Issue No. 3 Name Signature Date Position

Prepared by David O’Connor

18 July 2016 Environmental Scientist

Checked by Fergus O’Regan

18 July 2016 Senior Environmental Scientist

Approved by Kevin Forde

18 July 2016 Associate Director

Project Name:

Pfizer Little Island IEL

Groundwater Monitoring

Sub Title:

Round 1 (April) 2016

Project No.

60488151

Status:

Final Rev 1

Client Contact Name:

Eoghan Callery / Clare Murray

Client Company Name:

Pfizer Ireland Pharmaceuticals

Limited

Issued by:

AECOM Infrastructure &

Environment Ireland Limited

Douglas Business Centre

Carrigaline Road

Douglas

Cork

www.aecom.com

DOCUMENT ISSUE RECORD

Issue No. Date Details

1 30 May 2016 Draft Issue for Client Review

2 14 June 2016

Final Issue

3 18 July 2016 Final Issue Rev 1 – after EPA comment

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Limitations

AECOM Infrastructure & Environment Ireland Limited1 (hereafter referred to as “AECOM”) has prepared this Report for

the sole use of Pfizer Ireland Pharmaceuticals Limited in accordance with the Agreement under which our services were performed (Proposal No. OPP-454637, dated 29 January 2016). No other warranty, expressed or implied, is made as to the professional advice included in this Report or any other services provided by AECOM. This Report is confidential and may not be disclosed by the Client or relied upon by any other party without the prior and express written agreement of AECOM. The information contained in this Report is based upon information provided by others and upon the assumption that all relevant information has been provided by those parties from whom it has been requested and that such information is accurate. Information obtained by AECOM has not been independently verified by AECOM, unless otherwise stated in the Report. The methodology adopted and the sources of information used by AECOM in providing its services are outlined in this Report. The work described in this Report is based on the conditions encountered and the information available during the said period of time. The scope of this Report and the services are accordingly factually limited by these circumstances. AECOM disclaim any undertaking or obligation to advise any person of any change in any matter affecting the Report, which may come or be brought to AECOM’s attention after the date of the Report. Certain statements made in the Report that are not historical facts may constitute estimates, projections or other forward-looking statements and even though they are based on reasonable assumptions as of the date of the Report, such forward-looking statements by their nature involve risks and uncertainties that could cause actual results to differ materially from the results predicted. AECOM specifically does not guarantee or warrant any estimate or projections contained in this Report. Unless otherwise stated in this Report, the assessments made assume that the sites and facilities will continue to be used for their current purpose without significant changes.

Copyright

© This Report is the copyright of Pfizer Inc.

1On 16 March 2015 the name of URS Ireland Limited changed to AECOM Infrastructure & Environment Ireland Limited to reflect the

company’s status as a wholly owned subsidiary through which AECOM operates in Ireland

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TABLE OF CONTENTS

EXECUTIVE SUMMARY 1

1. INTRODUCTION 1

1.1.1 Background Information 1

1.1.2 Site History 1

1.1.3 Site Description, Topography and Setting 1

1.1.4 Hydrology 2

1.1.5 Soils and Geology 2

1.1.6 Hydrogeology 3

1.1.7 Groundwater Flow 3

1.1.8 Groundwater Redox Chemistry 3

1.1.9 Chemicals of Potential Concern 4

1.1.10 Source-Pathway-Receptor Linkages 4

1.1.11 Monitoring Network and Sampling Schedule 5

1.2 Project Objectives 5

1.3 Scope of Works 5

1.3.1 Sampling Methodology 6

1.3.2 Laboratory Analyses 6

2. RESULTS AND DISCUSSION OF MONITORING PROGRAMME 7

2.1 Site Hydrogeology and Groundwater Flow 7

2.1.1 Water Quality Parameters 7

2.1.2 Groundwater Flow Gradient 7

2.1.3 Field Observations 7

2.2 Laboratory Analysis of Groundwater Samples 8

2.2.1 Assessment Guidelines 8

2.2.2 Groundwater Monitoring Results 8

2.2.3 Temporal Trends in Chemicals of Potential Concern 9

2.3 Conceptual Site Model 10

2.3.1 Potential Pollutant Linkages 11

3. SUMMARY, CONCLUSIONS AND RECOMMENDATIONS 13

3.1 Summary and Conclusion 13

3.2 Recommended Way Forward 13

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FIGURES

TABLES

APPENDIX A – LABORTORY CERTIFICATES

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EXECUTIVE SUMMARY

The first groundwater monitoring round for 2016 was conducted by AECOM on 27 April 2016 at the Pfizer Ireland Pharmaceuticals Limited site, Little Island, Co. Cork. The monitoring was completed in accordance with the site’s Industrial Emissions Licence (IEL) and is reported in accordance with Stage 1 - Step 2 of the Environmental Protection Agency’s (EPA’s) Guidance on the Management of Contaminated Land and Groundwater at EPA Sites, issued in 2013.

During April 2016, groundwater from the following monitoring wells was sampled:

• 200-series wells – wells 203 (plus duplicate Dup 01), 206 and 207

• 300-series wells – wells 301, 302, 303, 304 and 305

• 400-series wells – well 404

• 600-series wells – well 604

No floating/sinking non-aqueous phase liquid layer was detected in any of the groundwater monitoring wells.

The site is underlain by sand and gravel fill, overlying natural gravelly silt, which in turn overlies limestone gravels. Depth to bedrock has not been proven (>16 m below ground level) on the Pfizer Little Island site. The general groundwater flow direction in the gravel aquifer in April 2016 was to the north and north-west (toward Bury’s Bridge Basin).

Field measurements of water quality parameters and low nitrate concentrations are consistent with results of previous monitoring rounds and indicate that groundwater beneath the site is low in dissolved oxygen and is reducing (anaerobic). However, groundwater is no longer sufficiently reducing for the widespread generation of hydrogen sulphide gas – hydrogen sulphide odours were detected during purging and sampling of two of the ten wells monitored in April 2016.

Groundwater analytical results for methyl tertiary butyl ether (MTBE) in April 2016 are similar to the previous monitoring round in October 2015. Volatile organic compound (VOC) results for groundwater monitoring conducted in October 2015 and April 2016 are amongst the lowest recorded in recent years. Between October 2015 and April 2016, the MTBE concentration decreased to below the EPA Draft Interim Guideline Value (IGV) of 0.030 mg/L in groundwater from well 404 (from 0.035 mg/L to 0.0017 mg/L). Concentrations of MTBE also decreased in the groundwater samples taken from well 302 (0.0149 mg/L to 0.0034 mg/L) over the same period. In April 2016, concentrations of MTBE were only reported above the IGV at wells 203 (0.0484 mg/L) and at well 604 (0.0363 mg/L).

In April 2014, the EPA requested that well 604, (drilled on the Buffer Property in November 2013) be included in all future groundwater monitoring rounds. Concentrations of MTBE at well 604 have declined between April 2014 (0.162 mg/L) and April 2016 (0.036 mg/L).

The continual detection of MTBE in groundwater from well 604 since it was drilled and installed in November 2013 indicates that MTBE is continuing to be flushed through the sand and gravel aquifer beneath the site towards Bury’s Bridge Basin.

Toluene was not detected in groundwater from any well sampled in April 2016; the most recent toluene detection on the site was in March 2009 at well 203 (0.002 mg/L).

In April 2016, chloroform was detected in groundwater from well 404 at a concentration of 0.187 mg/L, an increase when compared to results for October 2015 (0.045 mg/L). Chloroform has been infrequently detected in groundwater from well 404, at concentrations generally less than 0.500 mg/L. The April 2016 result exceeded the Groundwater Threshold Value (GTV) of 0.075 mg/L and the IGV (0.012 mg/L).

The site does not currently use chloroform and concentrations of chloroform were historically higher when chloroform was being used on site.

1,1-dichloroethane (1,1-DCA) was detected at a concentration of 0.009 mg/L in groundwater from well 404 in April 2016, a slight decrease when compared to results for October 2015 (0.011 mg/L). There is no GTV or IGV defined for 1,1-DCA and the Dutch Intervention Value is 0.90 mg/L. Prior to October 2015, 1,1-DCA was last detected from well 404 in May 2012 at a concentration of 0.013 mg/L.

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In the 2000 Qualitative Risk Assessment (QRA), AECOM (then URS Dames & Moore) estimated that worst-case MTBE concentrations of up to 10 mg/L in Bury’s Bridge Basin would not cause significant harm to the aquatic ecosystem

2.

Given that MTBE concentration close to the down-gradient site boundary in April 2016 is more than two orders of magnitude lower than 10 mg/L (0.036 mg/L at well 604) and the potential for dilution in the basin is great, potential environmental impact of MTBE in groundwater discharging to the basin under April 2016 conditions is considered to be negligible.

Based on the Round 1 2016 groundwater monitoring results, AECOM continue to recommend that the frequency of groundwater sampling be reduced from biannually to annually.

2 URS Dames & Moore (AECOM legacy company) report, 13218-123-447, dated January 2001

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1. INTRODUCTION

AECOM Infrastructure & Environment Ireland Limited (AECOM) was requested by Pfizer Ireland Pharmaceuticals Limited (Pfizer) to conduct biannual groundwater monitoring during 2016 at their Little Island facility, Co. Cork. The groundwater monitoring programme was detailed in AECOM Proposal OPP-454637, dated 29 January 2016 and authorised by Pfizer under their purchase order number N-3604810, dated 01 February 2016.

The AECOM team for Round 1 April 2016 comprised the following:

• Project Director: Kevin Forde, Associate Director

• Project Manager: Fergus O’Regan, Senior Environmental Scientist

• Project Staff: David O’Connor, Environmental Scientist

Laboratory analysis of samples was subcontracted to Jones Environmental Laboratories, Flintshire, U.K.; an-AECOM approved laboratory with UKAS accreditation.

1.1.1 Background Information

1.1.2 Site History

The Pfizer Little Island facility is situated in an industrial estate approximately 8 kilometres (km) east of Cork city. A site location plan is presented as Figure 1.

The facility, originally developed in 1978 by Plaistow Limited, manufactures synthetic chemicals of bulk active pharmaceutical ingredients (API) for use in the pharmaceutical industry. Warner Lambert acquired the site in 1997 and merged with Pfizer in 2000.

The site was granted an Integrated Pollution Control (IPC) licence (P0136-01) in December 1996 by the Environmental Protection Agency (EPA). The licence was revised to an Integrated Pollution, Prevention and Control (IPPC) in September 2007 (P0136-03). The IPPC licence was most recently revised in 2010 (P0136-04). IPPC licence P0136-04 was converted by the EPA in January 2014 to an Industrial Emissions Licence (IEL) in line with provisions and requirements of Council Directive 2010/75/EU.

Groundwater and localised soil contamination by organic solvents, predominantly methyl tertiary butyl ether (MTBE) and toluene have been previously identified at the Pfizer Little Island facility. Groundwater discharges from the facility to a tidal surface water body adjacent to the site called Bury’s Bridge Basin.

Significant upgrades to the site’s effluent drainage system were made between 2006 and 2008 by Pfizer, including bringing effluent drainage above ground where feasible.

Based on the decline in MTBE concentrations across the site, risk assessment of the presence of MTBE in groundwater predicted no significant environmental impacts on the aquatic flora and fauna in Bury’s Bridge Basin due to exposure to low concentrations of MTBE

3.

1.1.3 Site Description, Topography and Setting

The main site comprises a manufacturing facility with associated administration buildings, on-site and off-site car parks and a wastewater treatment plant (WWTP). The site manufactures bulk API and is often referred to as the API site. The API site is approximately 4.5 ha in area.

In 2005, Pfizer acquired approximately 2.26 ha of land located to the west of the API site. This area is referred to as the ‘Buffer Property’ (BP) and was incorporated within a revised site boundary in the IPPC licence revision for the main site in 2007/2008 (IPPC licence revision P0136-03).

In general, the API site slopes upwards to the north, before sloping down towards Bury’s Bridge Basin, a tidal channel located immediately north of the site. Ground elevation at the site varies between approximately 2 m and 11 m above Ordnance Datum (aOD).

3 AECOM report, Assessment of MTBE Persistence in the Source Area, Pfizer, Little Island, Cork, dated 14 November 2002, ref. 17717-

113-447/KF

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By contrast, the BP is relatively flat and is at a general elevation of less than 5 m aOD (Malin). The BP is at a lower elevation than surrounding lands to the west, south and east, which reach elevations of approximately 10 m aOD to the south and east and up to 15 m aOD to the west.

Land use in the vicinity of the main API site is predominantly commercial/industrial, as summarised below:

North – Bury’s Bridge Basin and N25 dual carriageway.

South – Cara Partners (IEL P0017-02, a homeopathic medicine production facility) is located to the south. Further south is the Little Island main road, with the shoreline of Cork Harbour 75 m beyond that.

East – Industrial units (including John Davis Design and the empty former Showerlux site) are to the east with open grassland beyond (~100m to the east of the site). Further to the east (~200m to the east of the site) is a major development of office and light industrial facilities (Eastgate Business Park).

West – Cara Partners fire water retention pond and a Gas Networks Ireland (formerly Bord Gais Eireann) above ground installation (AGI, gas transmission infrastructure) immediately to the west. Further to the west is the BP, and beyond that (~150m west of the site) is Tapella Limited (Integrated Pollution Control (IPC) licence P0103-02, former pharmaceutical facility), where a number of small start-up businesses occupy the former office, laboratory and warehouse buildings (now termed the Hoffman Science Technology Enterprise Park). The other buildings associated with the former pharmaceutical facility have been demolished.

The BP has not been developed since it was acquired in 2005, other than fencing-off the boundaries of the area and some improvements to the surface water drainage. Bury’s Bridge Basin lies on the northern boundary of the BP and beyond that is the N25 dual carriageway.

Other nearby chemical/pharmaceutical facilities include:

• Janssen Pharmaceuticals, (IEL P016-02)

• FMC (pharmaceutical)

• Thornbush Holdings Limited, (IPC licence P0389-01)

Little Island is also shared by a small number of residences. Within 1 km of the facility there is a population of approximately 500 people and a primary school is located approximately 1 km to the east of the facility.

A site layout plan is presented as Figure 2.

1.1.4 Hydrology

Little Island is located in the northern part of Cork Harbour called Lough Mahon. Bury’s Bridge Basin, a tidal channel on the sites northern boundary, eventually flows into Lough Mahon, which is located approximately 750 m west of the site. The basin comprises of a mudflat, and a narrow intertidal channel.

The estuarine water quality in Lough Mahon (2010 – 2012 data) is classified as ‘Intermediate’ by the EPA

4.

Under the Water Framework Directive (WFD) (2009-2015 data), Lough Mahon, a Transitional Waterbody, is classified as ‘Moderate’.

There are no significant rivers in close proximity to the API production site or BP. The nearest river is the Glashaboy River, which is located approximately 1.5 km north-west of the industrial estate and which flows from north to south into Lough Mahon.

1.1.5 Soils and Geology

Geological Survey of Ireland (GSI) data5 indicate that the bedrock aquifer underlying the site

consists of ‘Dinantian Pure Unbedded Limestone’. According to the GSI, the majority of the site is

4 www.epa.ie, accessed on 25 May 2016

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covered with made ground overlying bedrock, with glacial sandstone tills occupying a small section in the eastern part of the site, however site-specific geological data contradicts the GSI information and indicates tills overlying sands and gravels below the fill across the entire site.

Subsoil thickness varies across the Pfizer Little Island site, with actual drilling records indicating sand and gravel fill overlying natural gravelly silts overlying limestone gravels. Drilling on site has not proven depth to bedrock (>16 m below ground level (bgl)). Limestone rock outcrop and subcrop are also located in the vicinity of the Inchera House and Quarry, located approximately 600 m west of the site boundary.

1.1.6 Hydrogeology

According to the GSI online maps, the Waulsortian bedrock aquifer in the region is classified as a Regionally Important Aquifer – karstified, diffuse (Rkd). Northern sections of the site border a “locally important aquifer (LI), which is moderately productive in local zones”. The GSI classifies the interim vulnerability of the underlying aquifer as ‘High’.

There is a groundwater abstraction well on the API production site. The well was drilled in 2010 on the eastern side of the site to approximately 16 m bgl and installed within the gravel aquifer. Water from the well (referred to in this report as the Production Well) was being used for cooling purposes in the WWTP. The daily average volume of water abstracted from the Production Well during 2014 was 23 m

3/d, with elevated salinity. There has been no abstraction of groundwater from the well

since early December 2014.

Two wells are recorded in the GSI database within a 1 km radius of the API site. One borehole is identified approximately 300 m to the south, with a second well (industrial use) approximately 650 m to the south-east of the site. No details are available as to whether the wells are currently in use; what geological unit the wells abstract groundwater from; or, the depth from which they abstract groundwater. Given that groundwater in this coastal area is likely to be brackish and, as they are situated in a heavily commercial/industrial area, it is unlikely that wells for potable use are located in the vicinity of the site. It is considered that wells in the vicinity of the site are likely to be groundwater monitoring wells or used for industrial supply purposes.

There are four wells reported on the GSI database within 2 km radius of the BP, all of which are groundwater monitoring wells installed at industrial sites as part of the conditions attached to EPA regulatory licences.

Groundwater vulnerability in the general Wallingstown area is assessed as “High” by the GSI because of the predominantly thin and permeable subsoils present, with areas of “Extreme” vulnerability immediately to the west of the BP (rock mapped at, or close to, the surface, there is an old limestone quarry in this area).

1.1.7 Groundwater Flow

Depth to groundwater ranges from approximately 3.0 m to 6.0 m below casing top (m bct); with groundwater flow directions in the limestone gravel aquifer beneath the main site to the north and north-west (towards Bury’s Bridge Basin).

The majority of the API site is covered by either concrete hard standing or tarmac at ground level, which restricts infiltration of rainfall to the gravel aquifer beneath.

Given proximity to the tidal Bury’s Bridge Basin, groundwater beneath the BP is anticipated to show tidal fluctuations. Groundwater is interpreted to follow the topography and flow from more elevated lands surrounding the BP, possibly converging on the BP from the west, south and east.

Groundwater from beneath the BP is expected to discharge northward to Bury’s Bridge Basin. There is historical direct evidence of groundwater discharge to the basin via coarser areas within the tidal mud flats to the immediate north-west of the main site at low tide, however these areas have been subsequently infilled and developed.

1.1.8 Groundwater Redox Chemistry

Field measurements of dissolved oxygen and oxidation redox potential (ORP), together with low nitrate concentrations, suggest groundwater conditions are both reducing and anaerobic down-

5 www.gsi.ie

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gradient of the former Aeration Basin area of the site. However, groundwater is no longer sufficiently reducing for the widespread generation of hydrogen sulphide gas – hydrogen sulphide odours were detected during purging and sampling of two of the ten wells monitored in April 2016.

1.1.9 Chemicals of Potential Concern

Groundwater monitoring results are available going back to 1997 for selected wells (see Table 7). MTBE is the only remaining chemical of potential concern (COPC) detected in groundwater beneath the site.

Toluene had historically been widely detected in groundwater beneath the site, but has remained below the laboratory method detection limit (MDL) since March 2009.

Other volatile organic compounds (VOCs), such as chloroform, are occasionally detected in groundwater from monitoring wells, but generally at low concentrations.

Since significant upgrades to the site effluent drainage system between 2006 and 2008, the general trend has been for VOC concentrations in groundwater to decrease.

The highest VOC concentration historically reported was for MTBE, detected in groundwater from monitoring well 404 at a peak concentration of 1,098 mg/L in May 2005. This well is located in the south western corner of the site, in the area of the former Aeration Basin. Since May 2011, MTBE concentrations in groundwater from well 404 have been below 0.20 mg/L.

The highest concentration historically reported for toluene was 190 mg/L, detected in groundwater from monitoring well 203 in November 1997. Since September 2009, toluene results from well 203 have been consistently below the laboratory MDL (0.0005 mg/L).

1.1.10 Source-Pathway-Receptor Linkages

A summary of potential Source-Pathway-Receptor (SPR) linkages are outlined in the table below.

POTENTIAL SPR LINKAGES

Sources Pathways Receptor

S1 MTBE and other VOCs in soil and groundwater related to historical leaks from underground pipelines

Human Health

P1 Ingestion of soil/dust, groundwater or surface water

P2 Dermal contact with soil, dust, and groundwater

P3 Inhalation of indoor and outdoor contaminant vapours which can arise directly from residual contaminants in the unsaturated overburden itself and indirectly via the dissolved phase in groundwater

Human Health

R1 On-site workers

R2 Off-site workers

R3 Workers on-site undertaking subsurface works

Controlled Waters

P4 Lateral migration of contaminants through the gravel aquifer

Water Supply Well

There are no known potable water supplies within 300 m of site

On-site production well – used for cooling purposes only and not potable supply

Controlled Waters

R4 Bury’s Bridge Basin

R5 Cork Harbour SPA (No. 004030)

R6 Dunkettle Shore (pNHA)

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1.1.11 Monitoring Network and Sampling Schedule

Over several years of site investigation, Pfizer has built up a network of monitoring wells on the API site. Monitoring wells on-site are screened at various depths but all are within subsoils; there are no monitoring wells screened within the bedrock aquifer.

In November 2013, four boreholes were drilled on the BP to a maximum depth of 10 m bgl, to assist in the preparation of a hydrogeological assessment report

6. All four groundwater monitoring wells

were screened within the gravel aquifer.

Former IPC and IPPC licence requirements included monitoring of groundwater on a monthly and quarterly basis across the site from selected wells.

Due to improvements in infrastructure and groundwater quality at the site, the EPA agreed in 2007 to reduce groundwater monitoring frequency from quarterly to biannually, under a revised IPPC licence.

In May 2010, the EPA further agreed to remove wells 403 and 501 from the sampling schedule and requested that wells 206 and 303 be monitored biennially, as opposed to biannually.

As agreed with the EPA in August 2012, wells 201, 202, 205A and 405 were removed from monitoring schedule.

Groundwater from the following wells is sampled in accordance with the site’s IEL:

• Biannual sampling: 203, 207, 301, 302, 304, 305, 404

• Biennial sampling: 206 and 303

In February 2014, the EPA requested that well 604 be sampled in all future groundwater monitoring rounds.

The suite of parameters analysed for in each monitoring round generally includes:

• VOCs

• Semi-Volatile Organic Compounds (SVOCs), including polycyclic aromatic hydrocarbons (PAHs)

• Major Ions (calcium, magnesium, potassium, sodium, sulphate, chloride, nitrate and total alkalinity)

• pH

• Electrical conductivity (EC)

1.2 Project Objectives

The main objective of groundwater monitoring is to ensure that the Pfizer Little Island site complies with groundwater monitoring requirements detailed in the site’s IEL and as agreed with the EPA.

Secondary objectives of the monitoring are:

• To assess short and long-term concentration trends in key chemicals of potential concern for the selected wells

• To assess groundwater flow direction in the gravel aquifer

1.3 Scope of Works

Fieldwork for Round 1 2016 monitoring was carried out on 27 April 2016.

The scope of work for Round 1 IEL groundwater sampling comprised sampling from ten on-site monitoring wells and one off-site monitoring well on the BP as follows:

6 AECOM Report, CKRP0003/47092578, Issue 4/Final, dated 28 March 2014

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• 200-series wells – wells 203 (plus duplicate sample Dup 01), 206 and 207

• 300-series wells – wells 301, 302, 303, 304 and 305

• 400-series wells – well 404

• 600-series wells – well 604 (located on the BP)

The site layout, showing groundwater sampling locations, is presented in Figure 2.

1.3.1 Sampling Methodology

Prior to sampling, the depth to groundwater in all accessible monitoring wells on site was measured using an electronic interface probe. An interface probe is capable of distinguishing between water and separate-phase non-aqueous layers, which can be either more or less dense than water.

Groundwater samples were collected in accordance with AECOM groundwater sampling protocols, using dedicated sampling equipment in each monitoring well. The majority of samples were collected using inertial lift sample tubing, however well 404 was sampled using a dedicated bailer, due to the limited depth of standing water present in this well.

Stable measurements of groundwater quality parameters (dissolved oxygen, pH, EC, ORP and temperature) were recorded using a calibrated water quality meter and flow through cell (where possible). A flow-through cell minimises contact between the water sample and the atmosphere, which is critical for measuring dissolved oxygen and ORP accurately.

Sample containers were labelled in the field and the details were entered onto a chain of custody form. Samples were stored in a chilled cool-box on site and during overnight transit to the laboratory.

1.3.2 Laboratory Analyses

Groundwater samples were sent for analysis to Jones Environmental Laboratory, Flintshire, U.K.; an-AECOM approved laboratory with UKAS accreditation.

Groundwater samples from all wells (except well 404) were submitted for analysis of the following parameters:

• VOCs

• SVOCs

• Major Ions (calcium, magnesium, potassium, sodium, sulphate, chloride, nitrate and total alkalinity)

Groundwater well 404 was analysed for the following parameters in accordance with the site’s IEL:

• VOCs

• SVOCs

A duplicate sample was collected from well 203 for quality assurance purposes, labelled as:

• Dup 01

A sample inventory is provided in Table 1. Analytical results are presented in Tables 2 to 4, with laboratory certificates in Appendix A.

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2. RESULTS AND DISCUSSION OF MONITORING PROGRAMME

2.1 Site Hydrogeology and Groundwater Flow

2.1.1 Water Quality Parameters

Table 5 presents field water quality measurements of dissolved oxygen, pH, ORP, EC and temperature for all wells sampled in April 2016.

In Round 1 2016, dissolved oxygen readings were low across the site, ranging between 0.83 mg/L (well 304) and 5.91 mg/L (well 207).

Field readings of ORP (relative to Ag/AgCl) were compensated as per the manufacturer’s instructions, giving adjusted redox potential (Eh) readings of between 109 mV (well 203) and 308 mV (well 303).

Dissolved oxygen readings and field ORP results generally indicate anaerobic groundwater conditions beneath the site.

Groundwater pH readings were generally close to neutral, ranging between 6.45 (well 301) and 8.10 (well 404) in April 2016. All readings were within the typical range for Irish groundwater (6 - 9 pH units).

EC values measured in the field ranged from 294 µS/cm (well 305) to 2,799 µS/cm (well 207). The recorded EC values for April 2016 are comparable to those recorded in previous monitoring rounds. The higher EC reading for well 207 confirms analytical results, which show elevated major ion concentrations.

Groundwater temperatures recorded in Round 1 2016 were between 10.8 °C (well 303) and 12.9 °C (well 301). Groundwater temperature values were generally within the normal range for groundwater in Ireland of 10.0 ºC to 12.0 ºC.

2.1.2 Groundwater Flow Gradient

Depth to groundwater measurements and calculated water table elevations from all accessible wells in Round 1 2016 are presented in Table 6. Depth to groundwater ranged from 2.310 m bct in well 403 to 6.165 m bct in the Production Well (installed in 2010). Site personnel have informed AECOM that the Pfizer Production Well has not been pumped since late December 2014.

A piezometric surface contour map for the deeper gravel aquifer is presented as Figure 3.

The overall direction of groundwater flow is interpreted from the groundwater elevation data to be to the north and north-west, toward Bury’s Bridge Basin. This interpretation is consistent with previous interpretations of groundwater flow across the site.

2.1.3 Field Observations

During the water level measurement round, no light/dense NAPL layers were identified in any of the wells.

Considerable amounts of silt have entered the well-head chamber at well 207. As recommended by AECOM in previous monitoring reports, the cover and headworks of the well have now been re-sealed, to prevent further ingress of silt and surface water run-off.

The total depth of each well, as measured on 27 April 2016, has been compared to the reported well depths on installation (Table 6). Some siltation has occurred in most wells, with the thickness of silt accumulating in the base of each well ranging from 0.01 m (well 403) to 2.90 m (well 207). The accumulation of silt in the base of well 207 has blocked approximately 97% of the total screen length in this well.

During the October 2011 monitoring round, a surge block was used to try to remove this accumulated silt from well 207. The well was purged for over an hour and it was considered that the removal of silt was not occurring at a quick enough rate to continue.

In May 2012, a surge block was used to try and remove accumulated silt from well 202. Well 202 is located in the production area. Site safety restrictions prevented the use of a petrol powered pump and so well rehabilitation was attempted by purging the well by hand. Over 30 litres of water was purged from the well. Fine silt, but mostly coarse black sand was removed from the well. During well rehabilitation the total depth of the well decreased slightly rather than increased. It is

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considered possible that the base of the well is damaged and that coarse silica sand, now coated with organic deposits, that was used as a filter pack during the construction of the well, is entering at the base of the well.

2.2 Laboratory Analysis of Groundwater Samples

The results of laboratory analysis of groundwater samples are presented in Tables 2 to 4.

2.2.1 Assessment Guidelines

Preliminary assessment of groundwater field and analytical data was completed by comparing the results with a range of generic groundwater assessment criteria, specifically the Groundwater Threshold Values (GTVs), Draft Interim Guideline Values (IGVs) and the Dutch Intervention Values (DIVs).

GTVs are defined in Irish law in Statutory Instrument No. 9 of 2010, European Communities Environmental Objectives (Groundwater) Regulations, 2010. The GTVs are statutory Irish regulatory guidelines which were developed to give effect to the European Union Groundwater Directive. Exceedance of a threshold value triggers further investigation to confirm whether a ‘Poor’ groundwater chemical status for the groundwater body as a whole is indicated.

The IGVs were developed by the EPA in 2002 using a number of existing water quality guidelines in use in Ireland, including existing national environmental quality standards, proposed common indicators for the new groundwater directive, drinking water standards and GSI trigger values.

The DIVs represent concentrations, above which there may be a risk to human receptors, and above which more detailed site-specific risk assessment or remediation may be required in the Netherlands. These guidelines have no legal standing in Ireland and are used as a screening tool for assessment of potential contaminants only.

2.2.2 Groundwater Monitoring Results

2.2.2.1 Volatile Organic Compounds

Based on historical data, MTBE is the primary COPC in groundwater at the site. VOC results (including MTBE) are presented in Table 2 and historic results for the main COPCs are presented in Table 7.

The MTBE concentration in groundwater from well 206 was below the laboratory MDL (0.0001 mg/L) in April 2016.

In April 2016, MTBE was detected in groundwater from wells 207, 301, 302, 303, 304, 305 and 404 above the MDL but at concentrations that did not exceed the IGV (0.03 mg/L) or DIV (9.20 mg/L); there is no GTV defined for MTBE.

In April 2016, MTBE exceeded the IGV at well 203 (0.048 mg/L) and marginally exceeded the IGV at well 604 (0.0363 mg/L).

In April 2016, chloroform was detected in groundwater from well 404 at a concentration of 0.187 mg/L, an increase compared to October 2015 (0.045 mg/L). Chloroform was detected in groundwater from well 404 in April 2015 (0.024 mg/L), October 2014 (0.271 mg/L), April 2014 (0.096 mg/L) and May 2012 (0.309 mg/L).

1,1-dichloroethane (1,1-DCA) was detected at a concentration of 0.009 mg/L in groundwater from well 404 in April 2016, there is no GTV or IGV defined for 1,1-DCA and the DIV is 0.90 mg/L. 1,1-DCA was last detected from well 404 in October 2015 at a concentration of 0.011 mg/L. Prior to October 2015, 1,1-DCA was last detected from well 404 in May 2012 at a concentration of 0.013mg/L.

All other VOCs concentrations reported in April 2016 were below their respective MDLs.

Other VOCs which have previously been reported in groundwater at the site include 1,1,1-trichloroethane and 1,2-dichlorobenzene.

2.2.2.2 Semi-Volatile Organic Compounds

SVOC results are presented in Table 3. No SVOCs were detected above laboratory MDLs in April 2016.

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2.2.2.3 Major Ions

As required by the EPA, nine monitoring wells (200- and 300- series wells, plus well 604) were analysed for selected major ions in April 2016. Major ion results are presented in Table 4.

Major ion results in April 2016 were within previously reported concentration ranges for all of the wells.

In April 2016, elevated concentrations (relative to the other wells on site) of magnesium (103 mg/L), potassium (21 mg/L), sodium (564 mg/L), sulphate (390 mg/L) and chloride (862 mg/L) were reported in groundwater from up-gradient well 207. Each of the listed five major ion concentrations in groundwater from well 207 exceeded their respective IGVs (and GTVs where applicable).

Historically, groundwater from well 207 consistently records the highest major ion concentrations at the site. Well 207 is the deepest monitoring well on site and is likely to be intersecting groundwater from the transition zone between shallow fresh water and deeper more brackish/saline water, which would account for the higher major ion concentrations. The higher major ion concentrations are also consistent with the higher field reading of EC (2,799 µS/cm) for well 207. The nearby Production Well is of similar depth to well 207 and also intersects brackish/saline water.

2.2.2.4 Duplicate Sample

In April 2016, duplicate sample analysis of groundwater from well 203 was completed for quality assurance purposes. The primary (well 203) and duplicate (Dup 01) samples were analysed for VOCs and SVOCs. All VOC and SVOC parameters, with the exception of MTBE were below laboratory MDLs. The relative percentage difference (RPD) for MTBE for the primary and duplicate samples was 2%.

A RPD of <20% is accepted for analytical variation in VOC samples by US EPA7; therefore the

Round 1 2016 duplicate sample analysis is satisfactory.

2.2.3 Temporal Trends in Chemicals of Potential Concern

Groundwater monitoring results are available going back to 1997 for selected wells (see Table 7 and Figures 5 to 9).

MTBE is the only remaining compound of concern detected in groundwater at the Pfizer Little Island site.

The following trends in MTBE concentrations were noted in April 2016:

• The MTBE concentration in groundwater from well 203 increased from 0.0260 mg/L in October 2015 to 0.0484 mg/L in April 2016. The April 2016 MTBE result for well 203 exceeded the IGV (0.030 mg/L), but remained significantly below the DIV (9.20 mg/L). During recent monitoring rounds, MTBE concentrations in groundwater from well 203 are frequently below the IGV and were last detected above the DIV in September 2006 (Figure 5.1)

• MTBE was above the MDL (<0.0001 mg/L) in groundwater from up-gradient groundwater monitoring well 207 (0.0007 mg/L)

• In groundwater from well 301 the MTBE concentration increased marginally from 0.003 mg/L in October 2015 to 0.0037 mg/L in April 2016 (Figure 6.2). MTBE was last detected above the IGV in groundwater from well 301 in October 2011 (0.035 mg/L)

• The MTBE concentration in groundwater from well 302 decreased between October 2015 (0.015 mg/L) and April 2016 (0.0034 mg/L). The MTBE concentration in groundwater from well 302 has been below the IGV since October 2011 (Figure 7.2)

• In groundwater from well 304, MTBE marginally increased from 0.001 mg/L in October 2015 to 0.002 mg/L in April 2016. MTBE concentrations in groundwater from well 304 have been below the DIV since December 2005 and below the IGV since April 2010 (Figure 8.1 and 8.2)

7 Tier 1 Data Validation Manual. Ohio EPA, Division of Hazardous Waste Management, March 31, 2004

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• In April 2016, MTBE was detected above the MDL (0.0001 mg/L) in groundwater from well 305 at a low concentration of 0.0004 mg/L, remaining below the IGV (0.030 mg/L) and DIV (9.20 mg/L)

• At well 404, the MTBE concentration decreased from 0.035 mg/L in October 2015 to 0.0017 mg/L in April 2016. The reported MTBE concentration is below the IGV and DIV. Between April 2003 and June 2007 and from November 2008 to March 2009, the MTBE concentration at well 404 had exceeded the DIV (Figure 9.1)

• Well 604 was installed and first sampled in November 2013, when an MTBE concentration of 0.139 mg/L was recorded. MTBE in groundwater from well 604 has declined to 0.036 mg/L in April 2016 (Figure 10)

Toluene had historically been detected in groundwater at the site, but has been below the MDL in all wells since March 2009. In April 2016, toluene remained below the laboratory MDL (0.0005 mg/L) in groundwater from all wells sampled.

2.3 Conceptual Site Model

A schematic representation of the conceptual site model (CSM) is presented in Figure 4.

Groundwater and localised areas of soil impacted by VOCs, predominantly MTBE and toluene, have been identified on the API site and, to a lesser extent, on the BP.

Since 1997, toluene concentrations have decreased site-wide due to source removal and natural attenuation in the aquifer. The source of toluene is considered to have been from historic drum storage on the API site and no flux of toluene to the basin is currently occurring. Toluene is no longer detected in groundwater and is no longer considered to pose a threat to Bury’s Bridge Basin.

Data from groundwater analysis indicate that there are no current, sustained elevated concentrations of organic compounds.

The source area for MTBE was largely restricted to the northern and western margins of the Main Production Building and an area south of the Production Building (OP1), which formerly contained the site’s WWTP. Groundwater impacts in this area are believed to have been related to broken effluent drains leading to the WWTP.

A drains survey in 1999 identified a damaged section of drain in this area, which was subsequently repaired. The site strong stream and weak stream effluent systems were significantly altered and upgraded between 2006 and 2008, bringing effluent drains above ground where possible. MTBE concentrations across the API site have subsequently reduced substantially from peak concentrations recorded in late 1990s and early 2000s, and MTBE is frequently below the MDL in recent monitoring rounds. Based on monitoring data reviewed from surrounding industrial sites, there does not appear to be an alternative source of MTBE in the immediate area.

There are no significant rivers or streams in close proximity to the Little Island facility. The nearest surface water body is Bury’s Bridge Basin, a shallow tidal inlet of Lough Mahon. Groundwater is unconfined within the gravel unit. Depth to groundwater is typically between 2 m and 6.5 m bgl, with equivalent groundwater elevations generally <1 m aOD. Groundwater flow direction across the API and BP portions of the site is towards the north and north-west.

Based on the available data, MTBE appears to be migrating from the area of the Main Production Building via groundwater in a generally north-western direction, discharging to the Bury’s Bridge Basin. MBTE movement towards the north-west of the site is under low head difference and groundwater follows the path of least resistance. The gravel aquifer itself is considered to be the main migration pathway, rather than a receptor, because of its lack of resource potential and the fact that groundwater is brackish to saline down-gradient of the site. Beneath the site, the fresh groundwater lens is expected to be relatively thin, given that the groundwater elevation is <1 m aOD. Natural biodegradation of MTBE is not believed to be occurring to any significant extent along the groundwater flow path in the anaerobic gravel aquifer.

Concerns about MTBE arise from the fact that its properties differ significantly from other gasoline constituents such as benzene, toluene, ethyl benzene and xylene (BTEX) compounds. MTBE is highly soluble in water, has low biodegradation potential and low sorption properties, which means that MTBE dissolves rapidly on contact with groundwater and the resulting MTBE plumes migrate rapidly, thereby threatening potential down gradient receptors. The toxicity of MTBE is low, but its

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low taste and odour threshold (5 –15 µg/L in water) makes it an undesirable contaminant in water used for potable water production

8.

Human toxicological data derived from both inhalation and oral routes of exposure suggest that MTBE is of low acute and sub-acute toxicity. It does not appear to be either a reproductive toxicant or to be mutagenic. The Environment Agency in the U.K. accepts a target criterion of 0.3 mg/L (a factor of 10 higher than the Irish IGV) for sites with no nearby potable groundwater abstractions, similar to the Pfizer site

9. All April 2016 MTBE results for the Pfizer Little Island site are

below this EA criterion for MTBE.

Seepages of MTBE-impacted groundwater to the Bury’s Bridge Basin have been historically identified (i.e. URS Dames & Moore 2001 - Quantitative Risk Assessment). However, due to its low aquatic toxicity and high volatility, MTBE is not considered to pose a significant threat to the aquatic ecosystem in Bury’s Bridge Basin, even at concentrations significantly higher than those detected in groundwater from the Little Island site in recent years.

The ongoing detections of MTBE at well 604 since it was drilled and installed in November 2013, indicates that MTBE is continuing to be flushed through the sand and gravel aquifer beneath the site north-westward towards the basin. MTBE in groundwater entering Bury’s Bridge Basin is greatly diluted by tidal flushing and is expected to be transported throughout the basin and into Cork Harbour/Lough Mahon by tidal mixing.

Detected elevated concentrations of some major ions (potassium, sodium, magnesium, sulphate and chloride) are considered to be related to the site’s location adjacent to the tidal Bury’s Bridge Basin. The mixing of groundwater and more saline surface water results in higher concentrations of these major ions in certain wells (particularly the deeper well 207 and the Pfizer Production well).

2.3.1 Potential Pollutant Linkages

A summary of potential Source-Pathway-Receptor (SPR) linkages is outlined in the table below.

POTENTIAL SPR LINKAGES

Sources Pathways Receptor

S1 MTBE and other VOCs in soil and groundwater related to historical leaks from underground pipelines

Human Health

P1 Ingestion of soil/dust, groundwater or surface water

P2 Dermal contact with soil, dust, and groundwater

P3 Inhalation of indoor and outdoor contaminant vapours which can arise directly from residual contaminants in the unsaturated overburden itself and indirectly via the dissolved phase in groundwater

Human Health

R1 On-site workers

R2 Off-site workers

R3 Workers on-site undertaking subsurface works

Controlled Waters

P4 Lateral migration of contaminants through the gravel aquifer

Water Supply Well

There are no known potable water supplies within 300 m of site

On-site production well – used for cooling purposes only and not potable supply

Controlled Waters

8 Chisala BN, Tait NG, Lerner DN, 2007. Evaluating the Risks of MTBE Pollution of Urban Groundwater. Journal of Contaminant

Hydrology 91:128-145

9 Environment Agency, 2000. A Review of the Current MTBE Usage and Occurrence in Groundwater in England and Wales. R&D

Project Report No. 97

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POTENTIAL SPR LINKAGES

R4 Bury’s Bridge Basin

R5 Cork Harbour SPA (No. 004030)

R6 Dunkettle Shore (pNHA)

In 2001, AECOM estimated that worst-case MTBE concentrations of up to 10 mg/L in Bury’s Bridge Basin would not cause significant harm to the aquatic ecosystem

1.

Given that MTBE concentrations in the sand and gravel unit across the site in April 2016 are more than two orders of magnitude lower than 10 mg/L (groundwater monitoring wells 203 (0.0484 mg/L) and 604 (0.0363 mg/L) had the highest concentrations of MTBE in April 2016) and the potential for dilution in the basin is great, the potential environmental impact of MTBE in groundwater discharging to the basin under April 2016 conditions is considered to be negligible.

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3. SUMMARY, CONCLUSIONS AND RECOMMENDATIONS

3.1 Summary and Conclusion

The general groundwater flow direction in April 2016 was to the north and north-west (toward Bury’s Bridge Basin) and is consistent with previous monitoring rounds.

In April 2016, the IGV for MTBE (0.03 mg/L) was exceeded at well 203 (0.0484 mg/L) and at well 604 (0.0363 mg/L). MTBE concentrations recorded in groundwater from wells 302 and 404 in April 2016 represent decreases compared to concentrations reported in October 2015.

In general, groundwater analytical results for MTBE in April 2016 are similar to the previous monitoring round in October 2015 and are considered some of the lowest MTBE concentrations on record.

The April 2016 analytical results continue to demonstrate the long-term declining trend in MTBE concentrations observed since significant upgrades to the site effluent drainage system between 2006 and 2008.

Toluene was not detected above the MDL in groundwater from any well sampled in Round 1 April 2016 and has not been detected in groundwater since March 2009.

In April 2016, chloroform was detected in groundwater from well 404 at a concentration of 0.187 mg/L, an increase compared to October 2015 (0.045 mg/L). Chloroform has been intermittently detected in groundwater from well 404 at concentration generally less than 0.50 mg/L.

1,1-dichloroethane (1,1-DCA) was detected at a concentration of 0.009 mg/L in groundwater from well 404 in April 2016, there is no GTV or IGV defined for 1,1-DCA and the DIV is 0.90 mg/L. 1,1-DCA was last detected at well 404 in October 2015 at a concentration of 0.011 mg/L. Prior to October 2015, 1,1-DCA was last detected from well 404 in May 2012 at a concentration of 0.013 mg/L.

3.2 Recommended Way Forward

Attempted well rehabilitation of wells 202 and 207 in 2012 was unsuccessful. Despite the degree of siltation in the base of well 207, it remains a functioning monitoring well and the rate of recharge to the well during purging does not appear to have decreased. Therefore, it is not recommended that more aggressive rehabilitation methods be undertaken at this stage.

Based on the results of the first round of 2016 biannual groundwater monitoring, AECOM continue to recommend that the groundwater monitoring frequency be reduced from biannually to annually.

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FIGURES

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N.T.S

Job No.SCALE

FO’R

CLIENT

PROJECT LOCATION

DRAWING TITLE

MAY 2016

A

PFIZER IRELAND PHARMACEUTICALS

FO’R KF

60488151

FIGURE 1 - SITE LOCATION PLAN

CORK

LITTLE ISLAND CO. CORK

SITE

LOCATION

Contains Ordnance Survey Data Crown Copyright and database right 2016. Reproduced from Ordnance Survey digitalmap data. Crown copyright 2016. All rights reserved.

2016. Material is reproduced with the permission of Natural England 2016. Copyright English Heritage 2016. Reproduced under the terms of the Click-Use Licence.(C) AECOM 2016.

Licence number 0100031673. Copyright Natural England

DOUGLAS BUSINESS CENTRE, CARRIGALINE ROAD,

DOUGLAS, CORK

TEL: +353 (0)21 436 5006 WWW.AECOM.COM

DOUGLAS BUSINESS CENTRE, CARRIGALINE ROAD,

DOUGLAS, CORK

North

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API SITE

BUFFER PROPERTY

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201

302

301 206

201

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301 206

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301 206

304304

403404

501

Job No.

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FO’R FO’R

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MAY 2016

AS SHOWN

SCALE REV.

KF DOUGLAS BUSINESS CENTRE, CARRIGALINE ROAD,

DOUGLAS, CORK

TEL: +353 (0)21 436 5006 WWW.AECOM.COM

DOUGLAS BUSINESS CENTRE, CARRIGALINE ROAD,

DOUGLAS, CORK

PFIZER IRELAND

PHARMACEUTICALS

CLIENT

PROJECT LOCATION

DRAWING TITLE

FIGURE 2 SITE LAYOUT

SHOWING BOREHOLE LOCATIONS

LITTLE ISLAND, CORK, IRELAND

60488151

APPROXIMATE SCALE

50m 100m

PRODUCTION WELL

GROUNDWATER MONITORING WELL

BOUNDARY OF UNDEVELOPED SITE (BP)

LEGEND

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API SITE

BUFFER PROPERTY

207

201

206

201

206

201

206

304

207

302

301301

Job No.

TRACED CHECKEDDRAWN APPROVED

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MAY 2016

AS SHOWN

SCALE REV.

KF DOUGLAS BUSINESS CENTRE, CARRIGALINE ROAD,

DOUGLAS, CORK

TEL: +353 (0)21 436 5006 WWW.AECOM.COM

DOUGLAS BUSINESS CENTRE, CARRIGALINE ROAD,

DOUGLAS, CORK

PFIZER IRELAND

PHARMACEUTICALS

CLIENT

PROJECT LOCATION

DRAWING TITLE

FIGURE 3 GROUNDWATER CONTOUR

MAP - GAVEL AQUIFER -

27 APRIL 2016

LITTLE ISLAND, CORK, IRELAND

60488151

APPROXIMATE SCALE

50m 100m

LEGEND

RELATIVE WATER LEVEL (m AOD)

INFERRED GROUNDWATER FLOW

GROUNDWATER CONTOUR

GROUNDWATER MONITORING WELL

BOUNDARY OF UNDEVELOPED SITE (BP)

NOT MEASURED

0.70

0.69

0.59

0.55

0.67

0.66

0.65

0.66

0.59

0.58

0.58

0.57

0.55

0.64

0.58

0.590.56

NM

NM

1.20

1.13

0.87

0.80

0.91

0.85

0.86

0.97

0.82

0.77

0.80

0.80

0.77

0.92

0.75

0.820.75

NM

NM

0.85m AOD

0.75m AOD0.75m AOD0.75m AOD

1.15 m AOD

1.05 m AOD1.05 m AOD

0.95 m AOD0.95 m AOD

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30m

40m

50m

60m

1

2

3

A

B

4

D

3

A

31

2

?

?

?

YR

AD

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OTHER ITEMS

Job No: REV

AN.T.S

KF

SILT/CLAY SUBSOIL

SAND/GRAVEL SUBSOIL

PIEZOMETRIC SURFACE

PFIZER IRELAND PHARMACEUTICALS 60488151

VOCS IN SOIL

VOCS IN GROUNDWATER IN BEDROCK AQUIFER

INGESTION OF SOIL AND DUST

DERMAL CONTACT WITH SOIL AND DUST

INHALATION OF VAPOURS INDOORS AND OUTDOORS

LATERIAL MIGRATION THROUGH SAND AND

GRAVEL AQUIFER TO BURYS BRIDGE BASIN

ON-SITE WORKERS

BURYS BRIDGE BASIN

11

1

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B

HISTORIC SOURCES

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4

POTENTIAL RECEPTORS

POTENTIAL PATHWAYS

SML

LIMESTONE BEDROCK

10 m

5m

IEL GROUNDWATER MONITORING

ROUND 1 (MAY) 2016

FIGURE 4 CSMDOUGLAS BUSINESS CENTRE, CARRIGALINE ROAD,

DOUGLAS, CORK

TEL: +353 (0)21 436 5006 WWW.AECOM.COM

DOUGLAS BUSINESS CENTRE, CARRIGALINE ROAD,

DOUGLAS, CORK

A

BURYS BRIDGE BASIN

Fill Material

PRODUCTION

TANK FARM AREA

CONTRACTORS COMPOUND

FORMER WWTP AREA

Fill Material

SILT/CLAY

SAND/GRAVEL AQUIFER

LIMESTONE BEDROCK (UNPROVEN)

BURYS BRIDGE BASIN

Fill Material

PRODUCTION

TANK FARM AREA

CONTRACTORS COMPOUND

FORMER WWTP AREA

Fill Material

SILT/CLAY

SAND/GRAVEL AQUIFER

NORTH WESTSOUTH EAST

LIMESTONE BEDROCK (UNPROVEN)

? ????

B

1

2

31 2

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EPA Export 10-04-2017:02:56:41

Figure 5.1: Historical Toluene and MTBE Concentration Trend Data for Well 203 (September 1997 - March 2008)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

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-99

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EPA Export 10-04-2017:02:56:41

Figure 5.2: Historical Toluene and MTBE Concentration Trend Data for Well 203 (March 2008 - April 2016)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0.0

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EPA Export 10-04-2017:02:56:41

Figure 5.3: Historical MTBE Concentration Trend Data for Well 203 (March 2008 - April 2016)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0.0

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EPA Export 10-04-2017:02:56:41

Figure 6.1: Historical Toluene and MTBE Concentration Trend Data for Well 301 (September 1998 - March 2008)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0

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EPA Export 10-04-2017:02:56:41

Figure 6.2: Historical Toluene and MTBE Concentration Trend Data for Well 301 (March 2008 - April 2016)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0.00

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EPA Export 10-04-2017:02:56:41

Figure 7.1: Historical Toluene and MTBE Concentration Trend Data for Well 302 (September 1998 - March 2008)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0

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-06

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EPA Export 10-04-2017:02:56:41

Figure 7.2: Historical Toluene and MTBE Concentration Trend Data for Well 302 (March 2008 - April 2016)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0.00

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0.02

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EPA Export 10-04-2017:02:56:41

Figure 8.1: Historical Toluene and MTBE Concentration Trend Data for Well 304 (September 1998 - March 2008)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0

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EPA Export 10-04-2017:02:56:41

Figure 8.2: Historical Toluene and MTBE Concentration Trend Data for Well 304 (March 2008 - April 2016)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0.00

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EPA Export 10-04-2017:02:56:41

Figure 9.1: Historical Toluene and MTBE Concentration Trend Data for Well 404 (April 2003 - March 2009)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0

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800

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EPA Export 10-04-2017:02:56:41

Figure 9.2: Historical Toluene and MTBE Concentration Trend Data for Well 404 (March 2009 - April 2016)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0.00

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EPA Export 10-04-2017:02:56:41

Figure 9.3: Historical MTBE Concentration Trend Data for Well 404 (March 2009 - April 2016)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0.00

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EPA Export 10-04-2017:02:56:41

Figure 9.4: Historical Chloroform Concentration Trend Data for Well 404 (January 2006 - April 2016)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0.00

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-12

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EPA Export 10-04-2017:02:56:41

Figure 10.1: Historical Toluene and MTBE Concentration Trend Data for Well 604 (November 2013 - April 2016)

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0

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EPA Export 10-04-2017:02:56:41

Figure 10.2: Historical Toluene and MTBE Concentration Trend Data for Well 604 (November 2013 - April 2016) )

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

0

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EPA Export 10-04-2017:02:56:41

Pfizer Ireland Pharmaceuticals Limited - Pfizer Little Island IEL Groundwater Monitoring April 2016

60488151/CKRP0001/ISSUE NO. 3/FINAL REV 1

18 JULY 2016

TABLES

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EPA Export 10-04-2017:02:56:41

Compiled by: DO'C

Checked by: FO'RTable 1 - Sample Inventory, Pfizer Little Island - April 2016

VOCs SVOCs Major Ions

203 (plus duplicate

Dup 01)X X ~ X

206* X X X X

207 X X X X

301 X X X X

302 X X X X

303* X X X X

304 X X X X

305 X X X X

404 X X NA X

201+ NA NA NA NA

202+ NA NA NA NA

205A+ NA NA NA NA

402 NA NA NA NA

403^ NA NA NA NA

405+ NA NA NA NA

501^ NA NA NA NA

502 NA NA NA NA

503 NA NA NA NA

503 NA NA NA NA

Production Well NA NA NA NA

601~ NA NA NA NA

602~ NA NA NA NA

603~ NA NA NA NA

604~ X X X X

Notes:

VOCs : Volatile Organic Compounds

SVOCs: Semi Volatile Organic Compounds

Major Ions: Calcium, magnesium, potassium, sodium, sulphate, chloride, nitrate and total alkalinity

Field Parameters: Dissolved oxygen, oxidation-reduction potential, pH, electrical conductivity and temperature

~: Not scheduled for analysis

NA: Analysis not required

^ As agreed with the EPA (May 2010), wells 403 and 501 were removed from monitoring schedule+ As agreed with the EPA (August 2012), wells 201, 202, 205A and 405 were removed from monitoring schedule

~600 Series wells drilled in the Overflow Car Park and Buffer Property in November 2013. Well 604 is now included in

the biannual monitoring schedule

Additional monitoring wells onsite - not included in IEL monitoring.

Monitoring

Well

IEL C.6 Monitoring Requirements

Laboratory Parameters

Field Parameters

* As agreed with the EPA (May 2010), wells 206 and 303 are monitored biennially, to be monitored next in Round 1 2018

X: Scheduled for analysis

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

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EPA Export 10-04-2017:02:56:41

Compiled by: DO'C

Checked by: FO'RTable 2 - Volatile Organic Compound Results (mg/L), Pfizer Little Island - April 2016

203 Dup 01 206 207 301 302 303 304 305 404 604

27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16

---- ---- ---- <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002---- ---- ---- <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003---- ---- ---- <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003---- ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001---- ---- ---- <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

0.030 1 0.010 ---- <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

0.010 1 ---- <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003---- 0.9 ---- <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 0.009 <0.003

0.030 1 0.020* ---- <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- 0.080** ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

0.012 0.400 0.075 B <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 0.187 <0.002

---- ---- ---- <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

0.500 0.300 ---- <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 0.039 <0.002

0.001 0.030 0.00075 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

---- 0.080** ---- <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

0.070, 0.010 4 0.500 0.0075

A <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- 0.075 B <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

---- ---- ---- <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- ---- <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

0.010 1 ---- <0.005 <0.005 <0.005 <0.005 <0.005 <0.005 <0.005 <0.005 <0.005 <0.005 <0.005

---- ---- ---- <0.002 <0.006 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

---- 0.130 ---- <0.002 <0.007 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

0.020 0.01 ---- <0.002 <0.008 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

---- 0.005 0.000375 <0.0001 <0.009 <0.0001 <0.0001 <0.0001 <0.0001 <0.0001 <0.0001 <0.0001 <0.0001 <0.0001

---- 0.080** ---- <0.002 <0.010 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

0.010, 0.040 2 0.04 0.0075

A <0.003 <0.011 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- 0.075 B <0.002 <0.012 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

---- ---- ---- <0.002 <0.013 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

0.001 0.18 ---- <0.002 <0.014 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

---- ---- ---- <0.002 <0.015 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

0.010 0.15 ---- <0.0005 <0.016 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

0.010 5 0.070***** ---- <0.001 <0.017 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

0.010 5 0.070***** ---- <0.0005 <0.018 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

---- 0.300 ---- <0.002 <0.019 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

---- 0.630 0.075 B <0.002 <0.020 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

0.030 1 0.020* ---- <0.003 <0.021 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- ---- <0.003 <0.022 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- ---- <0.004 <0.023 <0.004 <0.004 <0.004 <0.004 <0.004 <0.004 <0.004 <0.004 <0.004

---- ---- ---- <0.003 <0.024 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- ---- <0.003 <0.025 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- ---- <0.002 <0.026 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

---- ---- ---- <0.003 <0.027 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- ---- <0.003 <0.028 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- ---- <0.003 <0.029 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- ---- <0.003 <0.030 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- ---- <0.003 <0.031 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- ---- <0.003 <0.032 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- ---- <0.003 <0.033 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- 0.050*** ---- <0.003 <0.034 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- 0.050*** ---- <0.003 <0.035 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- ---- <0.003 <0.036 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

0.01 0.050*** ---- <0.003 <0.037 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

---- ---- ---- <0.002 <0.038 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

0.0004 3 0.010*** ---- <0.003 <0.039 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

0.0001 ---- ---- <0.003 <0.040 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

0.001 0.070 ---- <0.002 <0.041 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002 <0.002

0.0004 3 0.010*** ---- <0.003 <0.042 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003 <0.003

0.030 9.20 ---- 0.0484 <0.043 <0.0001 0.0007 0.0037 0.0034 0.0002 0.002 e 0.0017 0.0363

Shaded Indicates Result is above Dutch Intervention Value (DIV) A: Guideline Threshold Value is for the sum of tetrachloroethene and trichloroethene.

BOLD Indicates Result is above Interim Guideline value (IGV) B: Guideline Threshold Value is for the sum of trihalomethanes.

Italics Indicates Result is above Guideline Threshold Value (GTV)

`

5: IGV is for the sum of xylenes.

**** DIV is for the sum of all trichlorobenezenes.

***** DIV is for the sum of all xylenes.

* DIV is for both cis and trans 1,2-dichloroethene.

*** DIV is for the sum of all dichlorobenzenes.

2: Two IGVs are given for tetrachloroethene.

3: IGV is for the sum of trichlorobenzenes.

4: Two IGVs are given for trichloroethene.

1: The IGV is given for dichloroethene, it is assumed that this applies to the sum of all dichlororethenes.

** DIV is for the sum of dichloropropanes.

Naphthalene

1,3,5-Trimethylbenzene

4-Chlorotoluene

1,3-Dichlorobenzene

1,4-Dichlorobenzene

1,2-Dibromo-3-chloropropane

1,2,4-Trichlorobenzene

Hexachlorobutadiene

tert-Butylbenzene

n-Butylbenzene

1,2-Dichlorobenzene

sec-Butylbenzene

4-Isopropyltoluene

1,2,4-Trimethylbenzene

Styrene

1,1,2,2-Tetrachloroethane

1,1,1,2-Tetrachloroethane

Bromoform

trans-1,2-Dichloroethene

Isopropylbenzene

Ethylbenzene

Notes:

1,2-Dichloropropane

Trichloroethene

Bromodichloromethane

Dibromomethane

cis-1,3-Dichloropropene

Toluene

1,1,2-Trichloroethane

Carbon tetrachloride

1,3-Dichloropropane

trans-1,3-Dichloropropene

1,2,3-Trichloropropane

Tetrachloroethene

Dibromochloromethane

1,2-Dibromoethane

Chlorobenzene

MTBE

1,2,3-Trichlorobenzene

Trichlorofluoromethane

Vinyl Chloride

1,1-Dichloroethane

cis-1,2-Dichloroethene

2,2-Dichloropropane

Chloroform

Bromochloromethane

1,1,1-Trichloroethane

Benzene

Propylbenzene

Bromobenzene

2-Chlorotoluene

p/m-Xylene

o-Xylene

Monitoring Well ID

1,1-DichloroetheneDichloromethane

VOCDutch Intervention

Value

EPA Interim

Guideline Values

Guideline

Threshold Value

DichlorodifluoromethaneChloromethaneChloroethaneBromomethane

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

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EPA Export 10-04-2017:02:56:41

Compiled by: DO'C

Checked by: FO'RTable 3 - Semi Volatile Organic Compound Results (mg/L), Pfizer Little Island - April 2016

203 Dup 01 206 207 301 302 303 304 305 404 604

27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16

Phenols

2-Chlorophenol 206* 0.1 ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

2-Methylphenol 0.0005 1 ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

2-Nitrophenol 0.0005 1 ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

2,4-Dichlorophenol 0.0005 1 0.03 ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

2,4-Dimethylphenol 303* ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

2,4,6-Trichlorophenol 0.2 ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

2,4,5-Trichlorophenol 0.0005 1 ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

4-Chloro-3-MethylPhenol 0.0005 1 ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

4-Methylphenol 0.0005 1 ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

4-Nitrophenol 0.0005 1 ---- ---- <0.01 <0.01 <0.01 <0.01 <0.01 <0.01 <0.01 <0.01 <0.01 <0.01 <0.01

Pentachlorophenol 0.002 0.003 ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Phenol 0.0005 1 0.2 ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

2-Methylnaphthalene ---- ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Naphthalene 0.001 0.07 ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Acenaphthylene ---- ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Acenaphthene ---- ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Fluorene ---- ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Phenanthrene ---- 0.005 ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Anthracene 10 0.005 ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Fluoranthene 0.001 0.001 ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Pyrene ---- ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Benzo(a)anthracene ---- 0.0005 ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Chrysene ---- 0.0002 ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Benzo(bk)fluoranthene 0.00005 0.00005 0.000075 A <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Benzo(a)pyrene 0.00001 0.00005 0.0000075 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Indeno(1,2,3-cd)pyrene 0.00005 0.00005 0.000075 A <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Dibenz(a,h)anthracene ---- ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Benzo(ghi)perylene 0.00005 0.00005 0.000075 A <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Phthalates

bis(2-ethylhexyl)phthalate 0.008 0.005 *** ---- <0.005 <0.005 <0.005 <0.005 <0.005 <0.005 <0.005 <0.005 <0.005 <0.005 <0.005

Butyl benzyl phthalate 0.005 2 0.005 *** ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

di-n-Butyl phthalate 0.002 0.005 *** ---- <0.0015 <0.0015 <0.0015 <0.0015 <0.0015 <0.0015 <0.0015 <0.0015 <0.0015 <0.0015 <0.0015

di-n-octyl phthalate 0.005 2 0.005 *** ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Diethyl phthalate 0.005 2 0.005 *** ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Dimethyl phthalate 0.005 2 0.005 *** ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Other SVOCs

1,2 Dichlorobenzene 0.01 Sum(0.05) * ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

1,2,4-Trichlorobenzene 0.0004 0.01 ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

1,3 Dichlorobenzene ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

1,4 Dichlorobenzene ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

2-Nitroaniline ---- ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

2,4-Dinitrotoluene ---- ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

2,6-Dinitrotoluene ---- ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

3-Nitroaniline ---- ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

4-Bromophenyl phenyl ether ---- ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

4-Chloroaniline ---- ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

4-Chlorophenyl phenylether ---- ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

4-Nitroaniline ---- ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Azobenzene ---- ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

bis(2-chloroethoxy)methane ---- ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Bis(2-chloroethyl) ether ---- ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Carbazole ---- ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Dibenzofuran ---- ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Hexachlorobenzene 0.00003 0.0005 ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Hexachlorobutadiene 0.0001 ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Hexachlorocyclopentadine 0.0001 ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Hexachloroethane ---- ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Isophorone ---- ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

N-nitrosodi-n-propylamine ---- ---- ---- <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005 <0.0005

Nitrobenzene 0.01 ---- ---- <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001 <0.001

Notes:

Shaded Indicates Result is above Dutch Intervention Value (DIV)

BOLD Indicates Result is above Interim Guideline value (IGV)

Italics Indicates Result is above Guideline Threshold Value (GTV)

1 IGV is for the sum of phenols

2 IGV is for the sum of phthalates

* DIV is for the sum of dichlorobenzenes

** DIV is for the sum of all trichlorophenols

*** DIV is for the sum of all phthalates

A PAH compounds specified in GTV

Monitoring Well ID

SVOCEPA Interim

Guideline Value

Sum(0.05) *

Guideline

Threshold

Value

sum(0.01) **

Dutch

Intervention

Value

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

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EPA Export 10-04-2017:02:56:42

Compiled by: DO'C

Checked by: FO'RTable 4 - Major Ion Concentrations (mg/L), Pfizer Little Island - April 2016

203 206 207 301 302 303 304 305 604

27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16 27-Apr-16

Calcium 200 ---- 53 78 151 105 74 55 69 60 92

Magnesium 206* ---- 8 32 103 25 7 10 10 6 44

Potassium 5 ---- 8 9 21 3 3 3 4 1 17

Sodium 150 150 32 130 564 36 35 28 27 15 252

Sulphate 200 187.5 58 103 390 201 60 31 116 17 102

Chloride 303* 24 - 187.5 35 190 862 58 53 35 35 21 226

Nitrate (as NO3) 25 37.5 1 9 7 0.3 2 9 0.3 37 <0.2

Total Alkalinity (as

CaCO3)---- ---- 158 230 258 150 174 156 106 132 532

--- Indicates no guideline value define

BOLD Indicates Result is above Interim Guideline value (IGV)

Italics indicates Result is above Guideline Threshold Value (GTV)

Parameter

Interim

Guideline

Value

Guideline

Threshold

Value

Monitoring Well

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

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EPA Export 10-04-2017:02:56:42

Compiled by: DO'C

Checked by: FO'RTable 5 - Groundwater Quality Measurements, Pfizer Little Island - April 2016

Monitoring

Well

DO

(mg/L)pH

Field ORP

(mV)

Eh

(mV)

EC

(µµµµS/cm)

Temperature

( oC)

Description

203 0.97 7.30 -91 109 670 12.6 Clear water, hydrogen sulphide odour.

206 1.30 7.63 20 220 1,015 12.6 Clear water, no odour.

207 5.91 7.76 40 240 2,799 11.9 Clear water, no odour.

301 1.53 6.45 -38 162 802 12.9Slightly cloudy brown water, slight

hydrogen sulphide odour.

302 2.32 7.60 30 230 532 11.6 Clear water, no odour.

303 4.53 7.51 108 308 420 10.8 Slightly cloudy brown water, no odour.

304 0.83 8.09 -86 114 346 12.3 Cloudy brown silty water, no odour.

305 5.22 7.60 75 275 294 11.0 Slightly cloudy brown water, no odour.

404 4.52 8.10 24 224 314 11.3 Cloudy brown water, no odour.

604 3.58 7.63 18 218 1,598 11.8 Slightly cloudy brown water, no odour.

Notes:

EC: Electrical Conductivity µs/cm: Microsiemens per centimetre

ORP: Oxidation-Reduction Potential

Eh: Redox Potential

Field readings of ORP adjusted as per manufacturer's recommendations to give Eh

DO: Dissolved Oxygen mg/L: Milligrams per Litre

oC: Degrees Celsius

mV: Millivolts

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

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EPA Export 10-04-2017:02:56:42

Compiled by: DO'C

Checked by: FO'RTable 6 - Groundwater Level Data, Pfizer Little Island - 27 April 2016

Monitoring

Well

Screen

Interval

m bct

Top of Well

Casing

m AOD

SWL

m bct

SWL

m AOD

Total Depth

Measured

m bct

Total Depth

Installed

m bct

Thickness of

Silt

m

% of Screen

Section

Silted-Up

201 4.5-10.0 5.341 4.427 0.91 8.59 10.00 1.41 26%

202 6.0-10.0 6.115 NM NM NM 10.00 NM NM

203 4.5-10.0 6.397 5.595 0.80 8.31 9.24 0.93 17%

205A 3.4-7.4 6.649 5.880 0.77 7.17 7.15 NA NA

206 7.0-13.0 6.953 6.135 0.82 12.47 13.00 0.53 9%

207 10.5-13.5 6.774 5.805 0.97 10.60 13.50 2.90 97%

301 6.0-10.0 7.079 6.325 0.75 10.43 10.00 NA NA

302 2.0-7.0 4.006 3.257 0.75 7.58 7.00 NA NA

303 3.2-6.2 4.190 3.375 0.82 6.51 6.20 NA NA

304 2.9-6.9 6.535 5.740 0.80 9.48 9.60 0.12 3%

305 2.6-6.9 4.395 3.620 0.77 7.11 6.90 NA NA

402 5.0-6.5 6.001 5.150 0.85 6.45 6.50 0.05 3%

403 1.5-3.0 5.453 2.310 3.14 2.99 3.00 0.01 1%

404 1.7-4.7 5.628 2.355 3.27 4.37 4.70 0.33 11%

405 5.1-6.1 5.856 4.994 0.86 5.98 6.10 0.12 12%

501 2.1-4.1 5.584 2.525 3.06 3.69 4.10 0.41 21%

601 8.1-10.1 4.494 3.290 1.20 10.10 10.17 0.07 4%

602 8.45-9.4 5.385 4.255 1.13 9.41 9.47 0.06 6%

603 9.6-10.6 5.171 4.306 0.87 10.58 10.60 0.02 2%

604 7.6-9.1 4.790 3.990 0.80 9.02 9.16 0.14 9%

Production Well - 7.080 6.165 0.92 NM 16.05 NA NA

Notes:

m AOD: Metres above Ordnance Datum

SWL: Static Water Level

m bct: Metres below casing top

NM: Not Measured

NA: Not Applicable

-: Not Known

Bold. Greater than 30% of screen section silted up

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

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EPA Export 10-04-2017:02:56:42

Compiled by: DO'C

Checked by: FO'RTable 7 - Key Contaminant Concentration Trends in Monitored Wells (mg/L), Pfizer Little Island - to April 2016

203

MTBE 9.200

Toluene 1.000

205A

MTBE 9.200

Toluene 1.000

301

MTBE 9.200

Toluene 1.000

302

MTBE 9.200

Toluene 1.000

304

MTBE 9.200

Toluene 1.000

402

MTBE 9.200

Toluene 1.000

403

MTBE 9.200

Toluene 1.000

501

MTBE 9.200

Toluene 1.000

502

MTBE 9.200

Toluene 1.000

503

MTBE 9.200

Toluene 1.000

604

MTBE 9.200

Toluene 1.000

404

MTBE 9.200

Toluene 1.000

Chloroform 0.400

405

MTBE 9.200

Toluene 1.000

Notes:

Indicates well not sampled

Indicates result above DIV

-* Indicates sample not

analysed due to matrix

affects

- Indicates result below

method reporting limit

Well / VOC DIV

Well / VOC DIV

Jan-06 Feb-06 Mar-06 Apr-06 May-06 Jun-06 Jul-06 Aug-06 Sep-06 Oct-06 Nov-06 Dec-06 Mar-07 Jun-07 Sep-07 Mar-08 Aug-08 Dec-08 Mar-09 Sep-09 Apr-10 Oct-10 May-11 Oct-11 May-12 Oct-12 May-13 Nov-13 Apr-14 Oct-14 Apr-15 Oct-15 Apr-16

8.67 6.57 8.81 9.29 29.0 13.7 14.9 14.8 10.7 7.72 2.95 3.36 1.78 4.02 4.24 1.54 0.259 0.420 0.504 0.064 0.256 0.062 0.087 0.017 0.031 0.015 - 0.018 0.067 0.002 0.047 0.026 0.048

- - - - - - - - - - - - - - - - - - 0.002 - - - - - - - - - - - - - -

16.6 21.9 17.1 8.62 28.8 15.1 10.8 9.66 14.3 17.5 11.4 11.7 2.94 2.36 0.809 5.75 0.345 0.026 0.002 - - - - -

- - - - - - - - - - - - - - - - - - - - - - - -

0.190 0.192 0.175 0.159 0.060 0.063 0.020 0.063 0.010 0.026 0.022 0.018 0.005 0.069 0.035 0.004 0.001 - 0.020 0.002 - 0.002 0.003 0.004

- - - - - - - - - - - - - - - - - - - - - - - -

- 0.029 0.432 0.748 0.040 - 0.128 0.023 0.003 0.003 0.028 0.014 0.040 0.022 0.023 0.034 0.007 0.004 - 0.007 0.003 0.007 0.001 0.015 0.003

- - - - - - - - - - - - - - - - - - - - - - - - -

3.52 1.64 1.97 3.75 7.06 5.16 4.33 1.99 1.08 0.482 0.993 3.98 0.094 0.096 0.330 0.041 0.030 0.023 0.095 0.084 0.005 0.004 0.003 0.005 0.004 - - - 0.006 0.001 0.002 0.001 0.002

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

4.07 5.11 3.52 6.86 6.26 2.26 2.02 0.465 0.719 0.355 0.321 0.810 0.780

- - - - - - - - - - - - -

0.609 1.39 0.797 4.76 2.36 2.51 2.28 2.08 1.42 1.96 3.63 1.18 1.75 0.004 0.015

- 0.054 0.054 0.159 0.092 0.114 0.100 0.012 - - 0.017 - - - -

4.19 5.28 2.42 3.21 7.04 8.20 7.69 7.84 3.96 4.27 1.16 0.405 0.003 0.003

- 0.314 0.104 0.175 0.187 0.298 - 0.135 0.163 0.117 0.010 - - -

2.66 2.36 3.55 2.96 4.86 2.95 1.78 2.60 3.05 0.494 1.40 1.41 3.22

- 0.003 0.013 - - 0.013 - - - - 0.106 0.006 -

4.13 3.45 19.7 12.8 7.90 10.6 8.37 3.15 1.42 2.00 5.07

- - 0.018 - - - - - - - -

0.139 0.162 0.062 0.064 0.031 0.036

- - - - - -

Jan-06 Feb-06 Mar-06 Apr-06 May-06 Jun-06 Jul-06 Aug-06 Sep-06 Oct-06 Nov-06 Dec-06 Jan-07 Feb-07 Mar-07 Apr-07 May-07 Jun-07 Jul-07 Aug-07 Sep-07 Oct-07 Mar-08 Aug-08 Nov-08 Dec-08 Mar-09 Sep-09 Apr-10 Oct-10 May-11 Oct-11 May-12 Oct-12 May-13 Nov-13 Apr-14 Oct-14 Apr-15 Oct-15 Apr-16

151 300 215 266 94.6 121.246 89.4 102 122 33.2 44.4 47.6 59.4 58.9 249 552 59.3 60.5 - 0.082 0.035 0.005 146 106 14 1 1 - 0.123 0.157 0.065 0.018 - 0.171 0.004 0.020 0.164 0.035 0.002

4.00 1.13 0.831 1.25 2.43 1.96 2.59 2.07 1.97 1.15 0.789 0.651 0.385 0.570 0.983 0.723 1.02 0.692 - 0.002 0.005 - - - - - - - - - - - - - - - - - -

- - - - - - - - - 0.034 - 0.031 0.046 - - - 0.414 0.008 0.087 0.212 0.045 0.309 - - - 0.096 0.271 0.024 0.045 0.187

3.41 9.28 9.31 7.31 3.22 5.13 14.3 9.71 17.6 11.4 7.24 11.3 11.2 6.94 5.15 9.27 5.11 0.667 1.43 2.00 5.25 1.62 0.015 0.057 0.519 0.038 0.005 0.004 0.005 0.004 -

- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -

Monitoring Round

Monitoring Round

AECOM Pfizer Little Island Round 1 (April) 2016 Tables Final Rev 1.xlsx

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EPA Export 10-04-2017:02:56:42

Pfizer Ireland Pharmaceuticals Limited - Pfizer Little Island IEL Groundwater Monitoring April 2016

60488151/CKRP0001/ISSUE NO. 3/FINAL REV 1

18 JULY 2016

APPENDIX A –

LABORTORY CERTIFICATES

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EPA Export 10-04-2017:02:56:42

Unit 3 Deeside Point

Zone 3

Deeside Industrial Park

Deeside

AECOM

Attention :

Date :

Your reference :

Our reference :

Location :

Date samples received :

Status :

Issue :

Eleven samples were received for analysis on 29th April, 2016 of which eleven were scheduled for analysis. Please find attached our Test Report

which should be read with notes at the end of the report and should include all sections if reproduced. Interpretations and opinions are outside the

scope of any accreditation, and all results relate only to samples supplied.

All analysis is carried out on as received samples and reported on a dry weight basis unless stated otherwise. Results are not surrogate corrected.

Paul Lee-Boden BSc

Project Manager

23rd May, 2016

454637

Little Island

29th April, 2016

Final report

Compiled By:

Test Report 16/8304 Batch 1

1

Jones Environmental Laboratory

CH5 2UA

Tel: +44 (0) 1244 833780

Fax: +44 (0) 1244 833781

Fergus O'Regan

Acorn Business Campus

Mahon Industrial Park

Black Rock

Cork

Ireland

Registered Address : Unit 3 Deeside Point, Zone 3, Deeside Industrial Park, Deeside, CH5 2UA. UK

QF-PM 3.1.1 v16Please include all sections of this report if it is reproduced

All solid results are expressed on a dry weight basis unless stated otherwise. 1 of 11

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EPA Export 10-04-2017:02:56:42

Client Name: Report : Liquid

Reference:

Location:

Contact: Liquids/products: V=40ml vial, G=glass bottle, P=plastic bottle

JE Job No.: 16/8304 H=H2SO4, Z=ZnAc, N=NaOH, HN=HN03

J E Sample No. 1-4 5-8 9-12 13-16 17-19 20-23 24-27 28-31 35-38

Sample ID 203 206 207 301 302 303 304 305 604

Depth

COC No / misc

Containers V P G V P G V P G V P G V G V P G V P G V P G V P G

Sample Date 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016

Sample Type Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water

Batch Number 1 1 1 1 1 1 1 1 1

Date of Receipt 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016

Dissolved Calcium # 53.4 78.2 151.4 104.8 73.5 55.0 68.8 60.0 92.1 <0.2 mg/l TM30/PM14

Dissolved Magnesium # 8.3 32.2 102.6 25.1 7.2 10.1 9.5 5.9 43.8 <0.1 mg/l TM30/PM14

Dissolved Potassium # 7.7 8.5 20.6 3.4 3.2 2.6 3.8 1.0 16.7 <0.1 mg/l TM30/PM14

Dissolved Sodium # 31.5 129.9 563.8AA 36.3 35.0 27.5 27.2 14.7 252.4AA <0.1 mg/l TM30/PM14

Sulphate # 58.24 103.09 390.36 200.90 59.50 31.05 116.42 16.90 101.82 <0.05 mg/l TM38/PM0

Chloride # 34.9 190.1 861.9 58.1 53.0 35.4 34.9 21.1 225.8 <0.3 mg/l TM38/PM0

Nitrate as NO3 # 0.5 8.5 6.8 0.3 1.9 9.1 0.3 37.3 <0.2 <0.2 mg/l TM38/PM0

Nitrate as N # 0.12 1.93 1.54 0.07 0.43 2.05 0.06 8.42 <0.05 <0.05 mg/l TM38/PM0

Total Alkalinity as CaCO3 # 158 230 258 150 174 156 106 132 532 <1 mg/l TM75/PM0

Little Island

Fergus O'Regan

Please see attached notes for all

abbreviations and acronyms

LOD/LOR UnitsMethod

No.

Jones Environmental Laboratory

AECOM

454637

QF-PM 3.1.2 v11Please include all sections of this report if it is reproduced

All solid results are expressed on a dry weight basis unless stated otherwise. 2 of 11

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EPA Export 10-04-2017:02:56:42

Client Name: SVOC Report : Liquid

Reference:

Location:

Contact:

JE Job No.: 16/8304

J E Sample No. 1-4 5-8 9-12 13-16 17-19 20-23 24-27 28-31 32-34 35-38

Sample ID 203 206 207 301 302 303 304 305 404 604

Depth

COC No / misc

Containers V P G V P G V P G V P G V G V P G V P G V P G V G V P G

Sample Date 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016

Sample Type Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water

Batch Number 1 1 1 1 1 1 1 1 1 1

Date of Receipt 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016

SVOC MS

Phenols

2-Chlorophenol # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

2-Methylphenol # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

2-Nitrophenol <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

2,4-Dichlorophenol # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

2,4-Dimethylphenol <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

2,4,5-Trichlorophenol # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

2,4,6-Trichlorophenol <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

4-Chloro-3-methylphenol # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

4-Methylphenol <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

4-Nitrophenol <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 <10 ug/l TM16/PM30

Pentachlorophenol <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Phenol <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

PAHs

2-Chloronaphthalene # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

2-Methylnaphthalene # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Naphthalene # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Acenaphthylene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Acenaphthene # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Fluorene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Phenanthrene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Anthracene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Fluoranthene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Pyrene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Benzo(a)anthracene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Chrysene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Benzo(bk)fluoranthene # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Benzo(a)pyrene <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Indeno(123cd)pyrene <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Dibenzo(ah)anthracene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Benzo(ghi)perylene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Phthalates

Bis(2-ethylhexyl) phthalate <5 <5 <5 <5 <5 <5 <5 <5 <5 <5 <5 ug/l TM16/PM30

Butylbenzyl phthalate <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Di-n-butyl phthalate # <1.5 <1.5 <1.5 <1.5 <1.5 <1.5 <1.5 <1.5 <1.5 <1.5 <1.5 ug/l TM16/PM30

Di-n-Octyl phthalate <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Diethyl phthalate # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Dimethyl phthalate <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Little Island

Fergus O'Regan

Please see attached notes for all

abbreviations and acronyms

LOD/LOR UnitsMethod

No.

Jones Environmental Laboratory

AECOM

454637

QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced

All solid results are expressed on a dry weight basis unless stated otherwise. 3 of 11

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EPA Export 10-04-2017:02:56:42

Client Name: SVOC Report : Liquid

Reference:

Location:

Contact:

JE Job No.: 16/8304

J E Sample No. 1-4 5-8 9-12 13-16 17-19 20-23 24-27 28-31 32-34 35-38

Sample ID 203 206 207 301 302 303 304 305 404 604

Depth

COC No / misc

Containers V P G V P G V P G V P G V G V P G V P G V P G V G V P G

Sample Date 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016

Sample Type Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water

Batch Number 1 1 1 1 1 1 1 1 1 1

Date of Receipt 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016

SVOC MS

Other SVOCs

1,2-Dichlorobenzene # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

1,2,4-Trichlorobenzene # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

1,3-Dichlorobenzene # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

1,4-Dichlorobenzene # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

2-Nitroaniline <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

2,4-Dinitrotoluene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

2,6-Dinitrotoluene <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

3-Nitroaniline <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

4-Bromophenylphenylether # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

4-Chloroaniline <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

4-Chlorophenylphenylether # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

4-Nitroaniline <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Azobenzene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Bis(2-chloroethoxy)methane # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Bis(2-chloroethyl)ether # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Carbazole # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Dibenzofuran # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Hexachlorobenzene # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Hexachlorobutadiene # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Hexachlorocyclopentadiene <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Hexachloroethane # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Isophorone # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

N-nitrosodi-n-propylamine # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM16/PM30

Nitrobenzene # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM16/PM30

Surrogate Recovery 2-Fluorobiphenyl 95 96 85 96 81 88 86 93 90 95 <0 % TM16/PM30

Surrogate Recovery p-Terphenyl-d14 97 99 95 98 86 88 96 87 103 94 <0 % TM16/PM30

LOD/LOR UnitsMethod

No.

Jones Environmental Laboratory

AECOM

454637

Little Island

Fergus O'Regan

Please see attached notes for all

abbreviations and acronyms

QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced

All solid results are expressed on a dry weight basis unless stated otherwise. 4 of 11

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EPA Export 10-04-2017:02:56:42

Client Name: SVOC Report : Liquid

Reference:

Location:

Contact:

JE Job No.: 16/8304

J E Sample No. 39-42

Sample ID DUP01

Depth

COC No / misc

Containers V P G

Sample Date 27/04/2016

Sample Type Ground Water

Batch Number 1

Date of Receipt 29/04/2016

SVOC MS

Phenols

2-Chlorophenol # <1 <1 ug/l TM16/PM30

2-Methylphenol # <0.5 <0.5 ug/l TM16/PM30

2-Nitrophenol <0.5 <0.5 ug/l TM16/PM30

2,4-Dichlorophenol # <0.5 <0.5 ug/l TM16/PM30

2,4-Dimethylphenol <1 <1 ug/l TM16/PM30

2,4,5-Trichlorophenol # <0.5 <0.5 ug/l TM16/PM30

2,4,6-Trichlorophenol <1 <1 ug/l TM16/PM30

4-Chloro-3-methylphenol # <0.5 <0.5 ug/l TM16/PM30

4-Methylphenol <1 <1 ug/l TM16/PM30

4-Nitrophenol <10 <10 ug/l TM16/PM30

Pentachlorophenol <1 <1 ug/l TM16/PM30

Phenol <1 <1 ug/l TM16/PM30

PAHs

2-Chloronaphthalene # <1 <1 ug/l TM16/PM30

2-Methylnaphthalene # <1 <1 ug/l TM16/PM30

Naphthalene # <1 <1 ug/l TM16/PM30

Acenaphthylene # <0.5 <0.5 ug/l TM16/PM30

Acenaphthene # <1 <1 ug/l TM16/PM30

Fluorene # <0.5 <0.5 ug/l TM16/PM30

Phenanthrene # <0.5 <0.5 ug/l TM16/PM30

Anthracene # <0.5 <0.5 ug/l TM16/PM30

Fluoranthene # <0.5 <0.5 ug/l TM16/PM30

Pyrene # <0.5 <0.5 ug/l TM16/PM30

Benzo(a)anthracene # <0.5 <0.5 ug/l TM16/PM30

Chrysene # <0.5 <0.5 ug/l TM16/PM30

Benzo(bk)fluoranthene # <1 <1 ug/l TM16/PM30

Benzo(a)pyrene <1 <1 ug/l TM16/PM30

Indeno(123cd)pyrene <1 <1 ug/l TM16/PM30

Dibenzo(ah)anthracene # <0.5 <0.5 ug/l TM16/PM30

Benzo(ghi)perylene # <0.5 <0.5 ug/l TM16/PM30

Phthalates

Bis(2-ethylhexyl) phthalate <5 <5 ug/l TM16/PM30

Butylbenzyl phthalate <1 <1 ug/l TM16/PM30

Di-n-butyl phthalate # <1.5 <1.5 ug/l TM16/PM30

Di-n-Octyl phthalate <1 <1 ug/l TM16/PM30

Diethyl phthalate # <1 <1 ug/l TM16/PM30

Dimethyl phthalate <1 <1 ug/l TM16/PM30

Little Island

Fergus O'Regan

Please see attached notes for all

abbreviations and acronyms

LOD/LOR UnitsMethod

No.

Jones Environmental Laboratory

AECOM

454637

QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced

All solid results are expressed on a dry weight basis unless stated otherwise. 5 of 11

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EPA Export 10-04-2017:02:56:42

Client Name: SVOC Report : Liquid

Reference:

Location:

Contact:

JE Job No.: 16/8304

J E Sample No. 39-42

Sample ID DUP01

Depth

COC No / misc

Containers V P G

Sample Date 27/04/2016

Sample Type Ground Water

Batch Number 1

Date of Receipt 29/04/2016

SVOC MS

Other SVOCs

1,2-Dichlorobenzene # <1 <1 ug/l TM16/PM30

1,2,4-Trichlorobenzene # <1 <1 ug/l TM16/PM30

1,3-Dichlorobenzene # <1 <1 ug/l TM16/PM30

1,4-Dichlorobenzene # <1 <1 ug/l TM16/PM30

2-Nitroaniline <1 <1 ug/l TM16/PM30

2,4-Dinitrotoluene # <0.5 <0.5 ug/l TM16/PM30

2,6-Dinitrotoluene <1 <1 ug/l TM16/PM30

3-Nitroaniline <1 <1 ug/l TM16/PM30

4-Bromophenylphenylether # <1 <1 ug/l TM16/PM30

4-Chloroaniline <1 <1 ug/l TM16/PM30

4-Chlorophenylphenylether # <1 <1 ug/l TM16/PM30

4-Nitroaniline <0.5 <0.5 ug/l TM16/PM30

Azobenzene # <0.5 <0.5 ug/l TM16/PM30

Bis(2-chloroethoxy)methane # <0.5 <0.5 ug/l TM16/PM30

Bis(2-chloroethyl)ether # <1 <1 ug/l TM16/PM30

Carbazole # <0.5 <0.5 ug/l TM16/PM30

Dibenzofuran # <0.5 <0.5 ug/l TM16/PM30

Hexachlorobenzene # <1 <1 ug/l TM16/PM30

Hexachlorobutadiene # <1 <1 ug/l TM16/PM30

Hexachlorocyclopentadiene <1 <1 ug/l TM16/PM30

Hexachloroethane # <1 <1 ug/l TM16/PM30

Isophorone # <0.5 <0.5 ug/l TM16/PM30

N-nitrosodi-n-propylamine # <0.5 <0.5 ug/l TM16/PM30

Nitrobenzene # <1 <1 ug/l TM16/PM30

Surrogate Recovery 2-Fluorobiphenyl 93 <0 % TM16/PM30

Surrogate Recovery p-Terphenyl-d14 91 <0 % TM16/PM30

LOD/LOR UnitsMethod

No.

Jones Environmental Laboratory

AECOM

454637

Little Island

Fergus O'Regan

Please see attached notes for all

abbreviations and acronyms

QF-PM 3.1.3 v11Please include all sections of this report if it is reproduced

All solid results are expressed on a dry weight basis unless stated otherwise. 6 of 11

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EPA Export 10-04-2017:02:56:42

Client Name: VOC Report : Liquid

Reference:

Location:

Contact:

JE Job No.: 16/8304

J E Sample No. 1-4 5-8 9-12 13-16 17-19 20-23 24-27 28-31 32-34 35-38

Sample ID 203 206 207 301 302 303 304 305 404 604

Depth

COC No / misc

Containers V P G V P G V P G V P G V G V P G V P G V P G V G V P G

Sample Date 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016 27/04/2016

Sample Type Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water Ground Water

Batch Number 1 1 1 1 1 1 1 1 1 1

Date of Receipt 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016 29/04/2016

VOC MS

Dichlorodifluoromethane <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

Methyl Tertiary Butyl Ether # 48.4 <0.1 0.7 3.7 3.4 0.2 2.0 0.4 1.7 36.3 <0.1 ug/l TM15/PM10

Chloromethane # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

Vinyl Chloride # <0.1 <0.1 <0.1 <0.1 <0.1 <0.1 <0.1 <0.1 <0.1 <0.1 <0.1 ug/l TM15/PM10

Bromomethane <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM15/PM10

Chloroethane # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

Trichlorofluoromethane # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

1,1-Dichloroethene (1,1 DCE) # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

Dichloromethane (DCM) # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

trans-1-2-Dichloroethene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

1,1-Dichloroethane # <3 <3 <3 <3 <3 <3 <3 <3 9 <3 <3 ug/l TM15/PM10

cis-1-2-Dichloroethene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

2,2-Dichloropropane <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM15/PM10

Bromochloromethane # <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

Chloroform # <2 <2 <2 <2 <2 <2 <2 <2 187 <2 <2 ug/l TM15/PM10

1,1,1-Trichloroethane # <2 <2 <2 <2 <2 <2 <2 <2 39 <2 <2 ug/l TM15/PM10

1,1-Dichloropropene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

Carbon tetrachloride # <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

1,2-Dichloroethane # <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

Benzene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM15/PM10

Trichloroethene (TCE) # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

1,2-Dichloropropane # <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

Dibromomethane # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

Bromodichloromethane # <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

cis-1-3-Dichloropropene <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

Toluene # <5 <5 <5 <5 <5 <5 <5 <5 <5 <5 <5 ug/l TM15/PM10

trans-1-3-Dichloropropene <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

1,1,2-Trichloroethane # <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

Tetrachloroethene (PCE) # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

1,3-Dichloropropane # <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

Dibromochloromethane # <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

1,2-Dibromoethane # <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

Chlorobenzene # <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

1,1,1,2-Tetrachloroethane # <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

Ethylbenzene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM15/PM10

p/m-Xylene # <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 ug/l TM15/PM10

o-Xylene # <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 <0.5 ug/l TM15/PM10

Styrene <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

Bromoform # <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

Isopropylbenzene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

1,1,2,2-Tetrachloroethane <4 <4 <4 <4 <4 <4 <4 <4 <4 <4 <4 ug/l TM15/PM10

Bromobenzene # <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

1,2,3-Trichloropropane # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

Propylbenzene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

2-Chlorotoluene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

1,3,5-Trimethylbenzene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

4-Chlorotoluene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

tert-Butylbenzene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

1,2,4-Trimethylbenzene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

sec-Butylbenzene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

4-Isopropyltoluene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

1,3-Dichlorobenzene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

1,4-Dichlorobenzene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

n-Butylbenzene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

1,2-Dichlorobenzene # <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

1,2-Dibromo-3-chloropropane <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

1,2,4-Trichlorobenzene <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

Hexachlorobutadiene <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

Naphthalene <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 <2 ug/l TM15/PM10

1,2,3-Trichlorobenzene <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 <3 ug/l TM15/PM10

Surrogate Recovery Toluene D8 104 106 105 105 108 108 106 107 107 117 <0 % TM15/PM10

Surrogate Recovery 4-Bromofluorobenzene 100 101 101 101 105 105 103 104 104 106 <0 % TM15/PM10

Little Island

Fergus O'Regan

Please see attached notes for all

abbreviations and acronyms

LOD/LOR UnitsMethod

No.

Jones Environmental Laboratory

AECOM

454637

QF-PM 3.1.4 v11Please include all sections of this report if it is reproduced

All solid results are expressed on a dry weight basis unless stated otherwise. 7 of 11

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EPA Export 10-04-2017:02:56:42

Client Name: VOC Report : Liquid

Reference:

Location:

Contact:

JE Job No.: 16/8304

J E Sample No. 39-42

Sample ID DUP01

Depth

COC No / misc

Containers V P G

Sample Date 27/04/2016

Sample Type Ground Water

Batch Number 1

Date of Receipt 29/04/2016

VOC MS

Dichlorodifluoromethane <2 <2 ug/l TM15/PM10

Methyl Tertiary Butyl Ether # 47.4 <0.1 ug/l TM15/PM10

Chloromethane # <3 <3 ug/l TM15/PM10

Vinyl Chloride # <0.1 <0.1 ug/l TM15/PM10

Bromomethane <1 <1 ug/l TM15/PM10

Chloroethane # <3 <3 ug/l TM15/PM10

Trichlorofluoromethane # <3 <3 ug/l TM15/PM10

1,1-Dichloroethene (1,1 DCE) # <3 <3 ug/l TM15/PM10

Dichloromethane (DCM) # <3 <3 ug/l TM15/PM10

trans-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10

1,1-Dichloroethane # <3 <3 ug/l TM15/PM10

cis-1-2-Dichloroethene # <3 <3 ug/l TM15/PM10

2,2-Dichloropropane <1 <1 ug/l TM15/PM10

Bromochloromethane # <2 <2 ug/l TM15/PM10

Chloroform # <2 <2 ug/l TM15/PM10

1,1,1-Trichloroethane # <2 <2 ug/l TM15/PM10

1,1-Dichloropropene # <3 <3 ug/l TM15/PM10

Carbon tetrachloride # <2 <2 ug/l TM15/PM10

1,2-Dichloroethane # <2 <2 ug/l TM15/PM10

Benzene # <0.5 <0.5 ug/l TM15/PM10

Trichloroethene (TCE) # <3 <3 ug/l TM15/PM10

1,2-Dichloropropane # <2 <2 ug/l TM15/PM10

Dibromomethane # <3 <3 ug/l TM15/PM10

Bromodichloromethane # <2 <2 ug/l TM15/PM10

cis-1-3-Dichloropropene <2 <2 ug/l TM15/PM10

Toluene # <5 <5 ug/l TM15/PM10

trans-1-3-Dichloropropene <2 <2 ug/l TM15/PM10

1,1,2-Trichloroethane # <2 <2 ug/l TM15/PM10

Tetrachloroethene (PCE) # <3 <3 ug/l TM15/PM10

1,3-Dichloropropane # <2 <2 ug/l TM15/PM10

Dibromochloromethane # <2 <2 ug/l TM15/PM10

1,2-Dibromoethane # <2 <2 ug/l TM15/PM10

Chlorobenzene # <2 <2 ug/l TM15/PM10

1,1,1,2-Tetrachloroethane # <2 <2 ug/l TM15/PM10

Ethylbenzene # <0.5 <0.5 ug/l TM15/PM10

p/m-Xylene # <1 <1 ug/l TM15/PM10

o-Xylene # <0.5 <0.5 ug/l TM15/PM10

Styrene <2 <2 ug/l TM15/PM10

Bromoform # <2 <2 ug/l TM15/PM10

Isopropylbenzene # <3 <3 ug/l TM15/PM10

1,1,2,2-Tetrachloroethane <4 <4 ug/l TM15/PM10

Bromobenzene # <2 <2 ug/l TM15/PM10

1,2,3-Trichloropropane # <3 <3 ug/l TM15/PM10

Propylbenzene # <3 <3 ug/l TM15/PM10

2-Chlorotoluene # <3 <3 ug/l TM15/PM10

1,3,5-Trimethylbenzene # <3 <3 ug/l TM15/PM10

4-Chlorotoluene # <3 <3 ug/l TM15/PM10

tert-Butylbenzene # <3 <3 ug/l TM15/PM10

1,2,4-Trimethylbenzene # <3 <3 ug/l TM15/PM10

sec-Butylbenzene # <3 <3 ug/l TM15/PM10

4-Isopropyltoluene # <3 <3 ug/l TM15/PM10

1,3-Dichlorobenzene # <3 <3 ug/l TM15/PM10

1,4-Dichlorobenzene # <3 <3 ug/l TM15/PM10

n-Butylbenzene # <3 <3 ug/l TM15/PM10

1,2-Dichlorobenzene # <3 <3 ug/l TM15/PM10

1,2-Dibromo-3-chloropropane <2 <2 ug/l TM15/PM10

1,2,4-Trichlorobenzene <3 <3 ug/l TM15/PM10

Hexachlorobutadiene <3 <3 ug/l TM15/PM10

Naphthalene <2 <2 ug/l TM15/PM10

1,2,3-Trichlorobenzene <3 <3 ug/l TM15/PM10

Surrogate Recovery Toluene D8 110 <0 % TM15/PM10

Surrogate Recovery 4-Bromofluorobenzene 101 <0 % TM15/PM10

LOD/LOR UnitsMethod

No.

Jones Environmental Laboratory

AECOM

454637

Little Island

Fergus O'Regan

Please see attached notes for all

abbreviations and acronyms

QF-PM 3.1.4 v11Please include all sections of this report if it is reproduced

All solid results are expressed on a dry weight basis unless stated otherwise. 8 of 11

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JE Job No.:

SOILS

DEVIATING SAMPLES

SURROGATES

DILUTIONS

NOTE

It is assumed that you have taken representative samples on site and require analysis on a representative subsample. Stones will generally be

included unless we are requested to remove them.

ISO17025 (UKAS) accreditation applies to surface water and groundwater and one other matrix which is analysis specific, any other liquids are

outside our scope of accreditation.

As surface waters require different sample preparation to groundwaters the laboratory must be informed of the water type when submitting samples.

Where appropriate please make sure that our detection limits are suitable for your needs, if they are not, please notify us immediately.

Surrogate compounds are added during the preparation process to monitor recovery of analytes. However low recovery in soils is often due to peat,

clay or other organic rich matrices. For waters this can be due to oxidants, surfactants, organic rich sediments or remediation fluids. Acceptable

limits for most organic methods are 70 - 130% and for VOCs are 50 - 150%. When surrogate recoveries are outside the performance criteria but

the associated AQC passes this is assumed to be due to matrix effect. Results are not surrogate corrected.

A dilution suffix indicates a dilution has been performed and the reported result takes this into account. No further calculation is required.

If you have not already done so, please send us a purchase order if this is required by your company.

NOTES TO ACCOMPANY ALL SCHEDULES AND REPORTS

Please note we are only MCERTS accredited (UK soils only) for sand, loam and clay and any other matrix is outside our scope of accreditation.

Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.

16/8304

WATERS

Data is only reported if the laboratory is confident that the data is a true reflection of the samples analysed. Data is only reported as accredited when

all the requirements of our Quality System have been met. In certain circumstances where all the requirements of the Quality System have not been

met, for instance if the associated AQC has failed, the reason is fully investigated and documented. The sample data is then evaluated alongside

the other quality control checks performed during analysis to determine its suitability. Following this evaluation, provided the sample results have not

been effected, the data is reported but accreditation is removed. It is a UKAS requirement for data not reported as accredited to be considered

indicative only, but this does not mean the data is not valid.

Where possible, and if requested, samples will be re-extracted and a revised report issued with accredited results. Please do not hesitate to contact

the laboratory if further details are required of the circumstances which have led to the removal of accreditation.

Where an MCERTS report has been requested, you will be notified within 48 hours of any samples that have been identified as being outside our

MCERTS scope. As validation has been performed on clay, sand and loam, only samples that are predominantly these matrices, or combinations

of them will be within our MCERTS scope. If samples are not one of a combination of the above matrices they will not be marked as MCERTS

accredited.

Negative Neutralization Potential (NP) values are obtained when the volume of NaOH (0.1N) titrated (pH 8.3) is greater than the volume of HCl (1N)

to reduce the pH of the sample to 2.0 - 2.5. Any negative NP values are corrected to 0.

Where a CEN 10:1 ZERO Headspace VOC test has been carried out, a 10:1 ratio of water to wet (as received) soil has been used.

All samples will be discarded one month after the date of reporting, unless we are instructed to the contrary.

% Asbestos in Asbestos Containing Materials (ACMs) is determined by reference to HSG 264 The Survey Guide - Appendix 2 : ACMs in buildings

listed in order of ease of fibre release.

All analysis is reported on a dry weight basis unless stated otherwise. Results are not surrogate corrected. Samples are dried at 35°C ±5°C unless

otherwise stated. Moisture content for CEN Leachate tests are dried at 105°C ±5°C.

Where Mineral Oil or Fats, Oils and Grease is quoted, this refers to Total Aliphatics C10-C40.

Please note we are not a UK Drinking Water Inspectorate (DWI) Approved Laboratory .

Samples must be received in a condition appropriate to the requested analyses. All samples should be submitted to the laboratory in suitable

containers with sufficient ice packs to sustain an appropriate temperature for the requested analysis. If this is not the case you will be informed and

any test results that may be compromised highlighted on your deviating samples report.

QF-PM 3.1.9 v32Please include all sections of this report if it is reproduced

All solid results are expressed on a dry weight basis unless stated otherwise. 9 of 11

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JE Job No.:

#

B

DR

M

NA

NAD

ND

NDP

SS

SV

W

+

++

*

AD

CO

LOD/LOR

ME

NFD

BS

LB

N

TB

OC

AA x5 Dilution

Samples are dried at 35°C ±5°C

Dilution required.

ABBREVIATIONS and ACRONYMS USED

Outside Calibration Range

No Fibres Detected

Result outside calibration range, results should be considered as indicative only and are not accredited.

Results expressed on as received basis.

Surrogate recovery outside performance criteria. This may be due to a matrix effect.

MCERTS accredited.

ISO17025 (UKAS) accredited - UK.

16/8304

AQC failure, accreditation has been removed from this result, if appropriate, see 'Note' on previous page.

Calibrated against a single substance

Not applicable

No Asbestos Detected.

No Determination Possible

Indicates analyte found in associated method blank.

None Detected (usually refers to VOC and/SVOC TICs).

Analysis subcontracted to a Jones Environmental approved laboratory.

Matrix Effect

Blank Sample

Client Sample

Trip Blank Sample

AQC Sample

Suspected carry over

Limit of Detection (Limit of Reporting) in line with ISO 17025 and MCERTS

QF-PM 3.1.9 v32Please include all sections of this report if it is reproduced

All solid results are expressed on a dry weight basis unless stated otherwise. 10 of 11

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EPA Export 10-04-2017:02:56:42

JE Job No: 16/8304

Test Method No. Description

Prep Method

No. (if

appropriate)

Description

ISO

17025

(UKAS)

MCERTS

(UK soils

only)

Analysis done

on As Received

(AR) or Dried

(AD)

Reported on

dry weight

basis

TM15Modified USEPA 8260. Quantitative Determination of Volatile Organic Compounds

(VOCs) by Headspace GC-MS.PM10

Modified US EPA method 5021. Preparation of solid and liquid samples for GC

headspace analysis.

TM15Modified USEPA 8260. Quantitative Determination of Volatile Organic Compounds

(VOCs) by Headspace GC-MS.PM10

Modified US EPA method 5021. Preparation of solid and liquid samples for GC

headspace analysis. Yes

TM16Modified USEPA 8270. Quantitative determination of Semi-Volatile Organic compounds

(SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex.

TM16Modified USEPA 8270. Quantitative determination of Semi-Volatile Organic compounds

(SVOCs) by GC-MS. PM30 Water samples are extracted with solvent using a magnetic stirrer to create a vortex. Yes

TM30Determination of Trace Metal elements by ICP-OES (Inductively Coupled Plasma -

Optical Emission Spectrometry). Modified US EPA Method 200.7PM14

Analysis of waters and leachates for metals by ICP OES. Samples are filtered for

dissolved metals and acidified if required.Yes

TM38Soluble Ion analysis using the Thermo Aquakem Photometric Automatic Analyser.

Modified US EPA methods 325.2, 375.4, 365.2, 353.1, 354.1PM0 No preparation is required. Yes

TM75Modified US EPA method 310.1. Determination of Alkalinity by Metrohm automated

titration analyser.PM0 No preparation is required. Yes

Jones Environmental Laboratory Method Code Appendix

QF-PM 3.1.10 v14 Please include all sections of this report if it is reproduced 11 of 11

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EPA Export 10-04-2017:02:56:42

Pfizer Ireland Pharmaceuticals Limited - Pfizer Little Island IEL Groundwater Monitoring April 2016

60488151/CKRP0001/ISSUE NO. 3/FINAL REV 1

18 JULY 2016

ABOUT AECOM In a complex and unpredictable world, where growing demands have to be met with finite resources, AECOM brings experience gained from improving quality of life in hundreds of places. We bring together economists, planners, engineers, designers and project managers to work on projects at every scale. We engineer energy efficient buildings and we build new links between cities. We design new communities and regenerate existing ones. We are the first whole environments business, going beyond buildings and infrastructure. Our Europe teams form an important part of our worldwide network of nearly 100,000 staff in 150 countries. Through 360 ingenuity, we develop pioneering solutions that help our clients to see further and go further. www.aecom.com Follow us on Twitter: @aecom

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