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Home My WebLink AboutPSD-024-15 Claringtoll Planning Services Report If this information is required in an alternate accessible format, please contact the Municipal Clerk at 905-623-3379 ext. 2102. Report To: General Purpose and Administration Committee Date of Meeting: April 20, 2015 Report Number: PSD-024-15 Resolution: G pora(os-b File Number: PLN 26.14.1 By-law Number: Report Subject: Proposal for a Rotosonic Monitoring Site at the Hydro One, Clarington Transformer Station Recommendations: 1. That Report PSD-024-15 be received; 2. That Council Resolution # C-172-14 (Attachment 3) granting G360 Group access to Townline Road for the purpose of a deep borehole and providing a grant of$25,000 to the University of Guelph be rescinded; 3. That the Municipality of Clarington provide up to $25,000 to fund the joint proposal of Central Lake Ontario Conservation Authority, University of Guelph and McMaster University (G360 Group) for their proposal "Hydrogeological Assessment of the South Slope of the Oak Ridges Moraine" dated April 2, 2015 (Attachment 1); 4. That the project be funded with a transfer from the 2013 Donations Account to the Consulting Reserve; 5. That Hydro One be requested to provide site access for the additional rotosonic borehole and long term monitoring activities as outlined in the proposal in Attachment 1; and 6. That all interested parties listed in Report PSD-024-15 and any delegations be advised of Council's decision. Municipality of Clarington Report PSD-024-15 Page 2 Report Overview In September, 2014, Council approved the road use agreement with Hydro One for the Clarington Transformer Station contingent on the drilling of a deep monitoring well. The drilling was completed in December 2014 at the expense of Hydro One, with researchers from G360 Group at the University of Guelph working cooperatively on-site to obtain the necessary samples and logging for scientific research. G360 Group is proposing to proceed with the second phase of the project which is the installation of a rotosonic monitoring well at the same location. It is recommended in this report that since Hydro One has completed the deep borehole the funds originally set aside for it be utilized for this additional work. 1 . Background 1.1 Clarington Council and staff have been very involved with the proposed Clarington Hydro Transformer since March of 2012 including public information meetings, the Environmental Study Report review, and numerous discussions. The Minister of Environment approved the project in January of 2014. 1.2 To address ongoing concerns from community members and residents, Hydro One proposed to Clarington to fund a peer review of their Surface and Groundwater monitoring program. Council accepted this offer at their meeting of June 16, 2014 by Resolution C-267-14. The peer review consultant, Mr. Steven Usher of SLR Consulting (Canada) Ltd. was retained in accordance with the Purchasing By-law and has been working with the residents, staff and Hydro One consultants since October. 1.3 Another major development has been the deep monitoring well required by the road use agreement which was drilled to bedrock (beyond the Thorncliffe Aquifer) in December 2014. The hydrogeologists (CLOCA, G360 Group, Stantec, SLR) jointly agreed that the MW-15 site on Hydro One property was the most relevant location for this borehole and monitoring well. The MW5-14 site already has monitors at 4 metres, 7 metres and 40 metres; the deep borehole monitor at 112 metres and another monitor at 52 metres were a result of drilling the deep borehole. This provides multi-level monitoring (or a nested cluster of boreholes and monitors). 2. What has been learned from the Deep Borehole 2.1 The December 2014 drilling program involved drilling and coring a borehole to and into the shale bedrock. A continuous core of the sediment column was obtained from ground surface to approximately 2 m into the bedrock for a total depth of 129.5 m. Borehole gamma logging was conducted at this location to characterize the soils to a depth of approximately 52 m. The field investigative team were on site daily during drilling to log and sample the core and provide drill crew oversight. Hydro One on-site staff provided assistance and logistical support. Municipality of Clarington Report PSD-024-15 Page 3 Figure 1 — Monitoring Wells on Hydro One Clarington Transformer Site l C alai e I�. SC. ,1 \�4 1 Ln 1� \ s i Municipality of Clarington Report PSD-024-15 Page 4 2.2. Drilling of the deep borehole confirmed the absence of a shallow sand lens at location MW5-14 which to the east hosts local wells. It also showed that the dense aquitard soils extended down some 76 m to the Thorncliffe Aquifer where several local wells draw their water. An intermediate layer of sand was however found in the aquitard at 52 m, and is consistent with the depths of a second grouping of local wells. A groundwater monitoring well was placed in this layer. The borehole was extended into bedrock, found (as predicted by CAMC-YPDT) at about 129.5 m depth. Figure 2: Site Conceptual Geologic Model ' ��,YV4I4 i - Z ' s • _ ^ ,�y tog iptNNi A'1ACKINAW(?) EIP HALE NEWMARKET D nu tpCm — TN0DU�ERE ?- SCARBOROUGH AQUIf PR SHALE.LIMESTONE - r _------ Includes deep hole information, Jan. 2015 global environmental solutions SLR"O 2.3 Five 2-inch diameter piezometers have been installed. Hydro One has incorporated four of the five piezometers (A to D) into their site monitoring program (2015-2019) that will include measuring water levels and groundwater quality analyses. The deep piezometer (E) is not part of the currently proposed Hydro One monitoring program. It is the hydrogeologists recommendation that these five piezometers be monitored in conjunction with each other to ensure a consistent and useful dataset. Ideally the deep piezometer (E) should be incorporated into the Hydro One monitoring program or another party identified to monitor this piezometer. Given the positive interactive situation between all parties that was established during the December 2014 field investigations, a suitable arrangement can be established whereby all five piezometers at MW5-14 can be cooperatively monitored. Municipality of Clarington Report PSD-024-15 Page 5 FIGURE 3: Characterization of the site from Deep Borehole HydroOne Clarington: MWS-14 Geology 2" PVC piezometers Formation Estimated Actual A B (s) C (1) D E (DRAFT) Weathered_ ----- -2 -5 ------- _Drm-wsand b ds--- ----__ ----- --------------------------- -2 2 Halton Till (HT) Dm -15 - -42 -62 -25 -- _.. - -82 -102 -35 - - -122 Lower -45 -142 Newmarket Till(LNt) -162 ---- -I -55 177'-Diam ict(Dm)-w beds of fsa&d -182 -202 7 -222 r o � -75 - _ - - _ - - -242 0 -------- ---------------------------------------------------------- ---------------- 250'-Sand(f,m,c)&si cl layers Thorncliffe (0.2'to 2.5'thick) -262 -85 Fm.(TF) 280'-Sand(f,m,c)-layered � -282 -302 -95 �- -322 330'-Sand(f gr)with Silt -105 __ . _ -342 -------------35--1-'-- --- -- ---------------------------------------------Dm ---------------- -------- ---------- ------- --- ----- -------------- ----- - -- -362 -115 -367M, -- - - - - Sunnybrook -382 Drift(Su) j Scarborough -402 -125 Fm.(ScJ 419.2'to 425'-Shale -422 -135 -442 Municipality of Clarington Report PSD-024-15 Page 6 3. Rotosonic Proposal 3.1 G360 Group from the University of Guelph and other participating hydrogeologists are proposing to add a multilevel monitoring well installed in a borehole drilled by rotosonic methods at MW-15. It would have state of art multi-level monitoring equipment. It would be drilled using a different methodology than the deep borehole providing additional scientific data (Attachment 1). 3.2 Hydro One is willing to entertain the proposal for the rotosonic borehole and multilevel installation (Attachment 1). Central Lake Ontario Conservation is willing to sign a Memorandum of Understanding for this well and monitoring of the deep piezometer (E) for the longer term (beyond 2019). The Conservation Authority have indicated that they would be willing to provide for the long term care, maintenance, monitoring and decommissioning of the multilevel rotosonic well providing that funding is made available for these future tasks (Attachment 2). The proposal is to maintain these piezometers for the long term so that as much scientific data as possible is obtained. 4. Council Direction 4.1 Council at its meeting of April 28, 2014 passed Resolution #C-172-14 (Attachment 3) which granted the University of Guelph G360 Group permission to access a portion of Townline Road for the purpose of undertaking an independent long term groundwater monitoring assessment in the vicinity of the proposed Clarington Transformer Station in accordance with their proposal dated April 27, 2014. 4.2 The proposal outlined two phases. The first was a deep borehole/monitoring well, drilled to at least the depth of the Thorncliffe Aquifer; the second phase was for a rotosonically installed multi-level monitoring well. The first phase of this proposal has been addressed by Resolution #C-336-14 (Attachment 4) which granted Hydro One permission to exclusively use and improve Townline Road to enter the site providing that they drill a deep monitoring well to at least the Thorncliffe Aquifer. 4.3 Council approved #C-267-14 accepting the offer from Hydro One to fund a peer review consultant to assist Staff and the community in reviewing and understanding the hydrogeological information regarding the site. Council received a presentation from Mr. Usher, the peer review consultant on December 15, 2014; which included an explanation of the conceptual model (Figure 2) of how ground water flows through and below the site. 4.4 Council has requested funding and other in-kind support from the Region of Durham, City of Oshawa, the Trent Conservation Coalition Source Protection Committee and the Credit Valley, Toronto and Region and Central Lake Ontario Source Protection Committee for the development of the monitoring wells and ongoing monitoring and maintenance. To date responses while supportive of the concept have not provided additional funding. Municipality of Clarington Report PSD-024-15 Page 7 5. Monitoring and Maintenance 5.1. Deep Monitoring Well The deep monitoring well cluster (5 boreholes at various depths) is located at MW5-14 on the Hydro One site. The Ground and Surface Water Monitoring Program for the site as approved by the Ministry of Environment and Climate Change in June of 2014, includes the requirement to monitor ground and surface water for the duration of the construction and at least two years after the completion (estimated as five years duration from approval in January of 2014 to 2019). When Hydro One completes the monitoring program as required by the Ministry they typically decommission all of the monitoring wells on site by removing the monitoring equipment, backfilling and sealing the boreholes. In the case of the deep cluster it is the desire of the Oak Ridges Moraine Hydrology Program (YPDT-CAMC) [a coalition of York, Peel, Durham and Toronto Conservation Authorities and Regional Governments] to maintain the cluster for long term scientific research and knowledge. The decommissioning of the deep cluster of boreholes will be the responsibility of Hydro One as the property owner; it is a requirement under Regulation 903 of the Ontario Water Resources Act. Arrangements to address this requirement can be articulated in the Memorandum of Understanding. 5.2. Rotosonic Borehole The proposal (Attachment 1) is to locate the rotosonic borehole at MW5-14 on the Hydro One site. Hydro One will have to review the proposal and ensure that it meets their requirements and can be accommodated within the schedule and construction works that will be occurring in close proximity to MW5-14. The proposal attempts to address the numerous issues that would affect this decision, from how the contractor will be retained and paid to Worker's Compensation for the researchers. 5.3. Ongoing Monitoring and Maintenance A Memorandum of Understanding with regard to the long term monitoring and maintenance will have to be entered into with Hydro One to retain the cluster. Central Lake Ontario Conservation has agreed to enter into the Memorandum of Understanding to maintain and monitor this well cluster. The Conservation Authority supports YPDT- CAMC, who in turn obtain their funding through the regional governments. The researchers from G360 Group and the staff of YPDT-CAMC will have to work with and meet Hydro One's requirements to access the site. The requirements will be outlined in the Memorandum of Understanding. 6. Concurrence Not applicable. Municipality of Clarington Report PSD-02415 Page 8 7. Conclusion Requiring Hydro One to drill the deep hole has provided an opportunity to better understand water resource management for the eastern portion of the Oak Ridges Moraine. This new proposal provides the opportunity to reallocate the funds for Phase 1 to work contemplated in Phase 2 of the original proposal and for longer term hydrogeological research. As stated by Steve Holysh and Dr. Gerber in their letter: "While much water related information exists across the Oak Ridges Moraine, the quality is quite variable. The presence of state-of-the-art, groundwater monitoring infrastructure is largely non-existent. The Hydro One Clarington transformer station site contains a large thickness of glacial till deposits that protect both shallow and deep aquifer systems. The proposed[rotosonic hole and]monitoring will provide valuable information regarding groundwater flow through these till deposits that can be applied across much of south-central Ontario... The proposal to Hydro One...seeks to install high quality groundwater monitoring infrastructure at a location on the Moraine (Clarington). Monitoring at the site would generate research-level hydrogeological information and knowledge ultimately leading to a better understanding of aquifer(water supply) vulnerability. This site will fill a large gap relating to the paucity of information relating to how groundwater flows through till deposits associated with the Moraine..." 8. Strategic Plan Application Not applicable. Submitted by: Reviewed by: �'%` Davi . Crome, MCIP, RPP Franklin Wu, Director of Planning Services Chief Administrative Officer Staff Contact: Faye Langmaid, Manager of Special Projects, 905-623-3379 ext. 2407 or flangmaid(Dclarington.net Attachments: Attachment 1 — Proposal dated April 2, 2015 from Group 360 Attachment 2 - CLOCA letter dated April 7, 2015 Attachment 3 — Council Resolution #C-172-14 Attachment 4 — Council Resolution #C-336-14 The following is a list of the interested parties to be notified of Council's decision: Brad Bowness, Hydro One Clint Cole, Enniskillen Environmental Association Drs. John Cherry and Beth Parker, Group 360, University of Guelph Gayle, Soo-Chan, CLOCA Dr. Rick Gerber, YPDT-CAMC Steven Usher, SLR Consulting (Canada) Ltd DJC/FL/sn Attachment I to Municipality of Clarington Report PSD-024-15 Hydrogeological Assessment of the South Slope of the Oak Ridges Moraine, Clarington, Ontario (Hydro One Clarington Transformer Station - MW5-14) Proposal April 02.. 2015 Study Team University of Guelph, G360 Beth Parker, PhD -Director, G360 Centre for Applied Groundwater Research John Cherry, PhD, P.Eng -Associate Director-, G360 Centre for Applied Groundwater Research; - Directar, University Consortium for Field-Focused Groundwater Contaminabco Research Emnianuelle Arnaud, PhD Jana Lpvison, PhD, EIT Tara Harvey, Graduate Student McMaster University Jarr s Smith, PhD Sidney DLtqqan, Graduate Student K&;'Alhellan, Graduate Student Central Lake Ontario Conservation Authority Richard Gerber.. Phil), P..Geo. (Oak Ridges Moraine CTound.'water Program 'PDT-CAMC) Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario TABLE OF CONTENTS 1. INTRODUCTION ............................................................................ 3 1.1 Background...................................................................................................................3 1.2 Current Status...............................................................................................................5 1.3 Proposed Long-Term Monitoring ..................................................................................8 1.4 Next Steps.....................................................................................................................8 2. TASKS, METHODOLOGY & REPORTING................................. 10 2.1 Infrastructure: Rotosonic and modular multi-level system........................................... 10 2.2 Site Access ................................................................................................................. 11 2.3 Reporting Structure..................................................................................................... 12 3. DELIVERABLES.......................................................................... 12 3.1 Short-Term—Years 1-5 .............................................................................................. 12 3.2 Long-Term Monitoring (after 5 years; >2019) ............................................................. 13 4. FINANCIAL, LEGAL & SCHEDULE............................................ 13 5. SUMMARY................................................................................... 14 6. REFERENCES............................................................................. 16 APPENDIX A: Rotosonic Borehole Quote.................................... 17 APPENDIX B: Reference Letters................................................... 18 LIST OF FIGURES Figure 1: Hydro One Clarington Transformer station location with approximate project area shown as black line (Image: Google Earth).................................................................3 Figure 2: Project site plan (Figure from Stantec, 2014). .........................................................6 Figure 3: Piezometers installed at Hydro One Clarington transformer station Site MW5-14. .7 Figure 4: Proposed interaction and information/data sharing structure. ............................... 12 April 02, 2015 Hydro One monitoring site MW5-14 Page 2 of 18 Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario 1. INTRODUCTION 1.1 Background Hydro One Networks Inc. is constructing a transformer station located in the Municipality of Clarington (Figure 1). This project was approved by the Ontario Ministry of the Environment and Climate Change (MOECC) following a Class Environmental Assessment (EA) on January 2nd, 2014 subject to six conditions. Two conditions relative to this proposal include the preparation and implementation of a Surface Water and Groundwater Monitoring Plan and the establishment of a Community Liaison Committee (CLC) to disseminate and exchange information between Hydro One and members of the public. The CLC first met on June 5, 2014 and is expected to meet through the detailed design and construction phases of the project. In 2014, Clarington, using funds provided by Hydro One, hired a hydrogeological consultant (Steven Usher, SLR Consulting Inc.) to assist with its' review, planning and administrative duties and to provide interpretive support to Council, their constituents and staff in the understanding of technical matters associated with pre and post development conditions at the site. Hydro One's monitoring requirements and CLC duties must extend through 2015 to 2019 as a condition of the EA approval. An opportunity exists for all parties to make use of the detailed information at this site in the Oak Ridges Moraine (ORM) planning area to better understand the flow systems associated with the Moraine. N\ • �\ •� '. tip ' ? 4i 0 0 B 0 1` J3 7 �r. 1 Figure 1: Hydro One Clarington Transformer station location with approximate project area shown as black line (Image: Google Earth). April 02, 2015 Hydro One monitoring site MW5-14 Page 3 of 18 Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario The proposed construction of the Hydro One Clarington Transformer Station has and continues to experience controversy. A group of local home owners known as the Enniskillen Environmental Association (EEA) have historically expressed and still have concerns relating to the project and the safety of the local water resources. Researchers from the University of Guelph (UofG; Beth Parker, Jana Levison and John Cherry) have provided comments (Cherry et al., 2013) on behalf of the EEA during and subsequent to the Environmental Assessment process. The Regional Municipality of Durham and the Central Lake Ontario Conservation Authority have also provided review and comment throughout the Environmental Assessment process. The YPDT-CAMC groundwater initiative commenced in 2001 to provide assistance to four Municipalities and their nine Conservation Authority partners with tools and products to better understand and manage their groundwater resources. Among other things, the team of hydrogeological experts developed a shared populated hydrological database, a geological model, and several numerical models. This work has served the agencies in their business needs and supported major aquifer monitoring decisions. Dr. Rick Gerber is a member of the YPDT-CAMC team. Many gaps exist in the technical coverage of the ORM area and it is important to progressively close these gaps to strengthen the overall understanding. Over the last decade, UofG researchers and the YPDT-CAMC team have had informal discussions regarding groundwater monitoring infrastructure and possible future collaboration to begin filling these gaps, largely facilitated through their shared interest in aquitard hydrogeology. Aquitards are lower permeability deposits such as clay or dense till (deposited by glaciers) soil units but also extending to rock units (e.g. shale, limestone). While monitoring exists for the majority of major aquifers in the Province, there is limited monitoring of these lower permeability aquitards which are considered contaminant barriers to many of the municipally utilized confined aquifer systems. Understanding the efficacy of these barriers is key to adequately assessing vulnerability of deeper municipal drinking water supplies. Collaborative efforts discussed included upgrading the quality of groundwater monitoring infrastructure for regional investigations associated with the Oak Ridges Moraine. Over the last year, Dr. John Cherry has had discussions with the EEA and Municipality of Clarington regarding the need for enhanced site characterization and groundwater monitoring relative to the transformer station and also related to the protection and understanding of the Oak Ridges Moraine in general. Following the EA approval of the Hydro One project by the MOECC (January 2014), UofG approached the YDPT-CAMC team (Rick Gerber)to possibly collaborate on establishing a high-quality monitoring site in the Clarington area. Given the high cost of installing such infrastructure as well as the local concerns, it was decided that if the opportunity to collect high-quality hydrogeological information (long-term) proved to be feasible then this possibility should be explored. Such information is deemed to be useful to both local undertakings and also to the regional analysis of the Oak Ridges Moraine being conducted by the Oak Ridges Moraine Groundwater Program. On October 2, 2014 the Municipality of Clarington provided road allowance access to Hydro One to construct a road into their Clarington Transformer site. Part of the road easement agreement included a condition that Hydro One amend the site groundwater monitoring program to include deep drilling to collect geologic information along with the installation of a deep monitoring well, and that Drs. Rick Gerber and John Cherry be invited to participate. The information generated is also to be shared with the Municipality of Clarington, CLOCA, the EEA and the CLC. This deep drilling program was conducted in December 2014 with further details included in the next section (1.2 Current Status). April 02, 2015 Hydro One monitoring site MW5-14 Page 4 of 18 Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario This proposal relates to leveraging the effort and cost that has already been expended by Hydro One for water resource investigations at the site. The aim of the proposed work is to enhance and maintain long-term (following Hydro One monitoring EA obligations) the existing groundwater monitoring infrastructure that has been installed at site MW5-14. The proposal outlines the components deemed necessary to turn this location into a high-quality, long-term groundwater monitoring location. The two main components relate to: • Drilling a cored borehole by the Rotosonic method for the purposes of the installation of a mutli-level groundwater monitoring device; and • Obtaining legal access to this location (MW5-14) in perpetuity. s 1.2 Current Status Construction of the Clarington Transformer Station is awaiting approval of a Permit To Take Water(PTTW) application submitted to the MOECC. The existing monitoring network, including other site investigation locations, is shown on Figure 2. All on-site investigation boreholes terminated at depths less than 16 m beneath the ground surface (mbgs) with the exception of site MW5-14 (Figure 3) where a borehole was drilled to 40 mbgs. This location already had 2 piezometers installed by Hydro One as part of their site Monitoring Plan. This is the site that was chosen for the deep groundwater exploration program (conducted during December 2014) as directed in the road easement agreement. The December 2014 drilling program involved drilling and coring a borehole to and into the shale bedrock. A continuous core of the sediment column was obtained from ground surface to approximately 2 m into the bedrock for a total depth of 129.5 m. Borehole gamma logging was conducted at this location to characterize the soils to a depth of approximately 52 m. The field investigative team included individuals from Stantec Consulting (Brant Gill, Natalie Spina), SLR Consulting Inc. (Steve Usher), University of Guelph (Emmanuelle Arnaud, Tara Harvey) McMaster University (Sydney Duggan, Kelly Whelan), and the Oak Ridges Moraine Groundwater Program (Rick Gerber). Natalie Spina, Emmanuelle Arnaud, Tara Harvey, Sydney Duggan and Kelly Whelan were on site daily during drilling to log and sample the core and provide drill crew oversight. Hydro One on-site staff, under the direction of Jeff Cridland, provided assistance and logistical support. A summary of the current groundwater monitors installed at MW5-14 is included in Figure 3. Five 2-inch diameter piezometers have been installed labelled here from shallowest to deepest as A to E. Hydro One has incorporated four of the five piezometers (A to D) into their site monitoring program (2015-2019) that will include measuring water levels and groundwater quality analyses. The deep piezometer(E) is not part of the currently proposed Hydro One monitoring program. It is our recommendation that these five piezometers be monitored in conjunction with each other to ensure a consistent and useful dataset. This situation needs to be rectified as the monitor should not be left idle for the next five years. Ideally the deep piezometer (E) should be incorporated into the Hydro One monitoring program or another party identified to monitor this piezometer. Given the positive interactive situation between all parties that was established for the December 2014 field investigations, we are hopeful that a suitable arrangement can be established whereby all five piezometers at MW5-14 can be cooperatively monitored. April 02, 2015 Hydro One monitoring site MW5-14 Page 5 of 18 Stantec Legend BH1212 + Monitoring Well fslo,t—,20131 % N Test Pit(Stantec,20131 ...... H2 I # Surface Water Monitoring(Stantec,20131 ............ Welland BH11-1' 5 TP3'e14 ® Monitoring Well lEXP,2012) M I I I LISH3 Monitoring Well 2012)- BH9 12 Abandoned E. Borehole(Insp�-Sol,20121 _I4FDM14 o Borehole(EXP,20121 MD��2 G SH5 Topographic Cwfour(MAMSt) Project Area Station Site r–BA13-12 8H8 12 BH1 MW7-14 Welland EM 2A 9TP1-14 DdAng Power Feature r BH7 12 New Inf.0-1w. OGH713 eOH7A D"70 It I Ej UH7C % D P 3-14* Ha MLVJ�3 SH11 %% EGH6-2 +MW6 lk –5H8 JF:8H5-I 2 r-BHI-12 Notes BH2�12 IM V.—!I,, &BH4-12 �ed IIt.1A i�.4,1 ..1- r__by (..stud H&!.w -SH3-12 DP� �4y=_Otn.*fAWL13 Cat-gory 3 FITTW BH9 Hyd rogaolugK:Assessn.W.nt Report ringtcn,Ontario 2 Project Site Plan Figure 2:Project site plan(Figure from Stantec,2014). Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario HydroOne Clarington: MW5-14 Geology 2" PVC pezometers Formation Estimated Actual A B (s) C (i) D E (DRAFT) -2 Weathered Dm w sand beds -5 ------------ -------------------------------- -------- ------------------------------ Halton Till Dm -22 (HT) -42 -15 - - _.. - .............. -- _... -62 -25 - - - - - ------ ------ - . ---- -- --- __ ------- --------- 82 -102 -122 Lower -142 -45 Newmarket - - .... .....-.. .- --- -- ----------------------- - ------- -- - Till(LNq �- -162 -------- ------------------------------------- ------- ----- -Sanctjf=mj --'--- 5 177-Diam ict(Drri)-w beds o"sa&cl - -182 -202 ao - ----- - - - - --- -- ------- -- - a - -222 t -242 in -------- - ---------------- -- ----- ----------------------------- -------------- 250'-Sand(f,m,c) si cl layers Fm.(TF) t Thorncliffe (0.2'to 2.5'thick) -262 -85 - - - - - - - - - jL 280'-Sand (f,m -282,c}-layered T -302 -95 - - - -- - - - - -322 330'-Sand(f gr)with Silt -105 - - ...-. - -342 -------- ---------------------------------------------------------- 351'-Dm ---------------- ---- --- - -------------- ------ --------- --- ------ ---- ------ -362 -115 367.4' Sunnybrook -- _ _ - ._.__.- - -382 Drift(SU) -1, Scarborough i- -402 -125 Frn.(SC) LI 419.2'to 425'-Shale - -422 -135 = _._...... _ -- -- -442 ---- - Figure 3:Piezometers installed at Hydro One Clarington transformer station Site MW5-14. April 02, 2015 Hydro One monitoring site MW5-14 Page 7 of 18 Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario 1.3 Proposed Long-Term Monitoring The Oak Ridges Moraine Groundwater Program has been opportunistic in establishing higher-quality groundwater monitoring locations in various hydrogeologic settings within their study area, which encompasses much of south-central Ontario. Most of these locations are situated within the western half of the Oak Ridges Moraine (ORM). The Program's monitoring locations are seen as complimentary to groundwater monitoring being conducted by municipalities (associated with municipal supply well fields) and ambient groundwater conditions monitored by the Provincial Groundwater Monitoring Network (PGMN; conducted by the MOECC and Conservation Authorities). As mentioned previously, this proposal is an attempt to leverage the effort and cost that has already been expended through Hydro One investigations at the site, and establish a high-quality, long-term groundwater monitoring location at MW5-14. A high quality, long-term groundwater monitoring site in the proposed geologic setting generally includes the following, some of which has already been accomplished: a) Continuous core of the sediments above bedrock and confirmation of the bedrock rock type. This is usually cored using mud rotary techniques because PQ-sized core generally provides the best quality soil and rock samples and the highest likelihood of drilling to a greater depth; b) Installations of monitoring wells and multi-level sampling ports at various depths within the geologic profile to establish vertical groundwater flow interaction between the various soil and rock units encountered. This interaction is analysed utilizing water levels, chemistry and physical testing (e.g. pumping tests). Ideally, at least one of the monitoring wells should be 2.5" diameter or greater, and installed at or near the bottom of the deepest borehole, to allow for the largest number of geophysical tools to be sent down the borehole for geophysical logging; and c) Access (physical and legal) to the monitoring site in perpetuity to collect hydrogeological information. At monitoring site MW5-14, Hydro One has already facilitated and completed the most costly items outlined in a) and part of b) above. For a relatively small further outlay of effort (and funds) it is anticipated that a high-quality monitoring facility can be established at MW5-14 that will assist the understanding of the regional groundwater flow system. Information generated from such a facility is also expected to benefit more site specific investigations conducted in similar hydrogeologic settings. The proposed further outlay to transform site MW5-14 (situated on Hydro One property) is described below with any new funding coming from agencies other than Hydro One. 1.4 Next Steps The above work has provided a basic framework for understanding the geologic profile at this site. Five ground water monitors provide spot measurements of conditions at those intervals. The drilling however identified both thick continuous units of similar properties, and also considerable lengths of variable conditions. For example the Newmarket Till below MW5-14-D (Figure 3) is a mixture of diamict, and fine-grained sand lenses, and silt lenses which are characterized by contrasting geologic and hydraulic properties. April 02, 2015 Hydro One monitoring site MW5-14 Page 8 of 18 Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario The next step, proposed here, is to complete the existing infrastructure with detailed instrumentation capable of long-term groundwater monitoring and designed to examine these hydrogeological nuances. This is detailed in Section 2, below. Specifically, the objectives of the proposed long-term groundwater monitoring program are to: • Fill existing knowledge and data gaps; • Comparison of different field methods including groundwater monitoring construction and exploration methods (e.g. conventional mud rotary coring versus Rotosonic coring); • Understand the continuity and integrity of the till deposits (aquitards) to be applied both locally and regionally; • These aquitards are the protective layers for aquifers utilized by both private and municipal well supplies; • Understand the regional continuity of aquifers for potential future water supply; and • Validation of the current geological and hydrogeological understanding being applied to municipal groundwater infrastructure on a regional basis. April 02, 2015 Hydro One monitoring site MW5-14 Page 9 of 18 Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario 2. TASKS, METHODOLOGY & REPORTING The proposed tasks for future work at site MW5-14 to transform and complete the existing infrastructure to a high-quality, long-term groundwater monitoring facility includes: • Drilling a Rotosonic borehole with associated installation of multiple groundwater sampling ports within that borehole (Infrastructure); and • Provision of access by Hydro One to U of Guelph/YPDT-CAMC staff in perpetuity (Site Access). 2.1 Infrastructure: Rotosonic and modular multi-level system Complex hydrogeologic settings often exhibit large changes in hydraulic properties and three-dimensional groundwater flow patterns over short distances. The problem can be further exacerbated within aquitards (e.g. glacial till) by the presence of fractures and/or sand seams and the fact that conventional piezometers can take months to years to provide useful information. Conventional piezometers also contain casing joints which can leak, further complicating results. The Lower Newmarket till is situated beneath site MW5-14 and is found throughout much of the ORM study area. This unit controls the flow of groundwater between the shallow groundwater flow system and the deep groundwater flow system, thereby acting as the protective layer for the deep aquifers used for private and municipal water supply. The Lower Newmarket till and other geologic units encountered on site are characterized as exhibiting subtle yet important changes in hydraulic properties over short distances. This type of setting requires more detailed monitoring to fully understand the details of groundwater flow paths. The proposal is for a Rotosonic borehole to be drilled at MW5-14. This drilling method vibrates a drill casing to depth while collecting a continuous core sample. The key characteristic of this drilling method is that a drill fluid is not needed for borehole control or as a drill bit coolant. This minimizes the possibility of drill fluid subsurface contamination which can take months to years to remove or naturally dissipate. A modular multi-level system adapted for high resolution monitoring of hydraulic head and ground water quality will be installed within the borehole. The system accommodates up to 15 monitoring intervals within one hole and can be used to monitor overburden and/or bedrock to depths of interest at MW5-14. Detailed vertical monitoring provides important information on hydraulic head and groundwater quality distributions that are missed with fewer monitoring intervals. The monitoring system offers unique advantages where detailed monitoring in heterogeneous settings is needed to assess and understand groundwater flow and possible contaminant migration. Even with the availability of core logs prior to installation of multi-level systems, most of the specific depths at which the highest head differentials occur often cannot be anticipated from detailed visual inspection of the core, indicating the essential and unique role of the high-resolution head monitoring (Parker et al., 2006). Advantages of the proposed Rotosonic drilling method and installation of multi-level monitoring system include: • Unified, holistic understanding of the hydrologic system including both aquitards (e.g. till, silt) and aquifers (e.g. sand). The existing conventional monitors are screened in aquifers with the exception of monitor MW5-14C; April 02, 2015 Hydro One monitoring site MW5-14 Page 10 of 18 Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario • Comprehensive understanding of groundwater hydraulic gradients resulting in an improved appreciation of vertical flow though the stratigraphic profile and of the integrity of the till as a protective barrier for deeper aquifer systems; • Improved understanding of the hydraulic properties of the encountered till units which will be useful to the ORM Groundwater Program. These data are not achievable from conventional borehole monitoring; • Multi-level sample ports are smaller volume than conventional piezometer installations thereby allowing for quicker response times within aquitards; and • The Rotosonic drilling method is reported to be fast with uncontaminated samples (no drill mud) and no downhole sample contamination with the result being that the integrity of soil and groundwater samples is greatly increased. One of the research objectives of selecting this location (MW5-14) is that different drilling methods (PQ mud rotary versus Rotosonic) can be compared including costs, timing of completion, quality of samples obtained and quality of groundwater monitoring installations achieved. Another ancillary benefit is the training of students in advanced hydrogeologic techniques. A drilling contractor will drill the Rotosonic borehole. The multi-level monitoring system will be installed in the borehole by the drilling contractor and UoG technicians supervised by Beth Parker and John Cherry, in collaboration with Rick Gerber. It is understood that the drilling contract would have to be administered by HydroOne because of Ministry of Labour and 3rd party liability issues. The logging of the Rotosonic core would be done by UoG and McMaster University personnel who logged the core from the borehole to bedrock that was drilled in December 2014. All on-site work will follow the safety and logistical procedures that were established during the December 2014 drilling program, led by Hydro One's Jeff Cridland. All potential site visitors from the University of Guelph, McMaster University and CLOCA (Rick Gerber) are covered under Worker's Compensation. 2.2 Site Access The groundwater monitoring infrastructure at MW5-14 consists of 5 conventional 2 inch diameter PVC piezometers. Hydro One plans on monitoring only 4 of these (A-D) as part of their EA required monitoring program for the period 2015-2019. It is assumed that Hydro One plans on decommissioning all 5 piezometers when their monitoring obligations have been satisfied. Given that MW5-14 consists of 5 groundwater monitors, all 5 should be actively monitored including MW5-14E. We (YPDT-CAMC, UofG) require formal permission to access this site through 2019 to ensure that all 5 monitors are actively monitored if Hydro One is unwilling to do so. We request site access permission to install the groundwater monitoring infrastructure detailed in Section 2.1. The installation of this further groundwater monitoring infrastructure will upgrade this site to a high-quality groundwater monitoring facility to be utilized for both regional and local hydrogeologic investigations in the long term. Given the outlay of funds to install the current monitoring infrastructure and the proposed outlay of funds to upgrade the facility, it would be a lost opportunity to decommission this site after Hydro One is finished their monitoring requirements in 2019. We request permission to April 02, 2015 Hydro One monitoring site MW5-14 Page 11 of 18 Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario access site MW5-14 in perpetuity to continue collecting valuable groundwater information as outlined in Section 1.4 above. A legal entity is needed should any of this groundwater monitoring infrastructure cease to be used at some point in the future and to provide for maintenance of the piezometers in the long-term. The legal entity is responsible for decommissioning should this prove to be necessary. Central Lake Ontario Conservation Authority has agreed to be the legal entity for this proposed long-term, high-quality groundwater monitoring facility at MW5-14. Further details are provided below. 2.3 Reporting Structure The proposed reporting structure is summarized in Figure 4. It is anticipated that a streamlined interaction and reporting protocol will be optimal given the different entities that are involved including the proposal team, local government and Hydro One. Proposed Interaction Structure Long-term groundwater monitoring site MW544 Hydro One (Owner) C I a ri ngton Tra nsform er Station -; G ite MIN5-14 i r r r r r r Designated tiaisIn r RickGefbel - _-- w r Centra I Lake Ontario Conservation Authority(CLOCA,Legal Entity) hol u n i ci pa limy of C I arington >, UniversityofGuelphG36D En n1 skiIlenEnvironmentaIAssoc. B.Parker,J.Cherry,E.Arnaud McMaster Unrwersity lamesSmith Rick Gerber 1Fayeiungmaid Figure 4: Proposed interaction and information/data sharing structure. 3. DELIVERABLES 3.1 Short-Term —Years 1-5 Hydro One is conducting an on-site monitoring program for the approximate period 2015- 2019 to satisfy MOECC requirements. It is preferred that the Hydro One monitoring program April 02, 2015 Hydro One monitoring site MW5-14 Page 12 of 18 Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario includes all 5 piezometers at MW5-14. Until this issue is resolved it is unclear what, if anything, other parties will be asking to complete. It would be prudent for all 5 piezometers to be monitored for the period 2015-2019. We look forward to further discussion towards resolving this issue. 3.2 Long-Term Monitoring (after 5 years; >2019) The long-term monitoring goals at MW5-14 will be to continue the monitoring program conducted by Hydro One for the period 2015-2019. It is assumed that the ultimate groundwater monitoring infrastructure at MW5-14 will include the current 5 groundwater monitors plus multi-level monitoring probes installed within a Rotosonic borehole. It is anticipated that transducers with dataloggers will be installed in select piezometers collecting data at regular intervals (hourly), and that manual measurements (monthly) will also be conducted. Groundwater sampling and analysis will be conducted (annually) along with physical aquifer/aquitard testing. These data will be shared with the various interested stakeholders regarding water resources associated with the Oak Ridges Moraine. Information will be disseminated through publication in University theses, scientific journals, public lectures and talks at conferences, as well as through the YPDT-CAMC web site (www.oa kridgeswater.ca). 4. FINANCIAL, LEGAL & SCHEDULE The following lays the groundwork for the suggested logistics and details. Letters of Reference outlining pertinent details are included in Appendix B. Subsequent discussions with all parties, particularly Hydro One, will refine these details. 1) Legal Entity- CLOCA has agreed to be legally responsible for the groundwater monitoring infrastructure at site MW5-14 subsequent to 2019 for the boreholes that Hydro One must monitor as a condition of the EA. They will do this as well for the proposed detailed multi-level monitoring installation in the Rotosonic borehole immediately upon completion. This also means the arrangement and completion of the decommissioning of all boreholes at some point in the future (> 2019) should this become necessary; a. It is requested that Hydro One transfer decommissioning funds to CLOCA for the existing borehole cluster(5 piezometers A through E) at site MW5-14. The anticipated cost is expected to be on the order of$10,000 assuming $2000.00 per piezometer; b. CLOCA will also be responsible for the decommissioning of the additional Rotosonic borehole at some time in the future (this borehole is not under the EA approval conditions and the construction costs are not being funded by Hydro One); c. A Memorandum of Understanding (MOU) will be prepared between CLOCA and Hydro One. 2) RotoSonic Drilling— Rotosonic drilling and multi-level piezometer installation will be supervised by the University of Guelph. Funding sources and logistics for this includes: a. Municipality of Clarington $25,000 -To be transferred to Hydro One to pay for the preferred Rotosonic driller. A quote from Choice Sonic Drilling is included as Appendix A; April 02, 2015 Hydro One monitoring site MW5-14 Page 13 of 18 Proposal: betailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario b. EEA $5,000 to John Cherry—This will be used by UofG to purchase a Waterloo System multi-level installation to be installed within the Rotosonic borehole; c. John Cherry NSERC— Should Rotosonic drilling (2a) cost more than $25,000 then an invoice will be sent by Hydro One to John Cherry to cover the remainder; d. John Cherry NSERC—Should the purchase of multi-level piezometers cost more than $5,000 then John Cherry will pay for the remainder; e. This task can be completed at any time subject to driller availability. Time is not expected to lower drilling costs so ideally the sooner the better. Also given that groundwater trends can take long periods of time to develop (e.g. decades), a longer monitoring data set is preferable; and f. University of Guelph and McMaster University researchers will make regular visits to site to measure water levels, or take groundwater samples, or conduct hydrogeological testing (under the supervision of YPDT-CAMC staff). 3) Long-term Monitoring(> 2019)—The key components of this task will be site access from Hydro One which will be outlined in the MOU with the legal entity (CLOCA) and the existence of a decommissioning fund as outlined in 1 above. Other items include: a. YPDT-CAMC staff(employees of CLOCA) will make regular(monthly) visits to the site to measure water levels, or take groundwater samples, or conduct hydrogeological testing subject to Hydro One schedules and health and safety requirements; b. University of Guelph and McMaster University researchers will make regular visits to site to measure water levels, or take groundwater samples, or conduct hydrogeological testing (under the supervision of YPDT-CAMC staff); c. Annual maintenance costs are estimated at $1000/year. CLOCA will prepare a capital budget submission for FY 2016 and ongoing to cover these costs. Alternatively, the Oak Ridges Moraine Groundwater Program (YPDT-CAMC) program could cover these costs should the partners agree; and d. Laboratory analysis (e.g. chemistry, isotopes)will be conducted opportunistically as funding is available. 5. SUMMARY The following provides a summary of the relative events and requests contained within this proposal for Hydro One's consideration: 1) Hydro One has established a monitoring network for the Clarington Transformer station location in response to MOECC project approval requirements. It is anticipated that this monitoring program will extend through the period 2015 to 2019; 2) Hydro One conducted deep groundwater exploration tasks at site MW5-14 during December 2014 in response to conditions attached to their road easement agreement with the Municipality of Clarington. This exploration was conducted in concert with CLOCA, YPDT-CAMC, University of Guelph, McMaster University, Municipality of Clarington, and CLC (SLR Consulting) representatives; 3) Monitoring site MW5-14 now contains 5 groundwater monitors (piezometers) installed at various depths. It is unclear if Hydro One will monitor all 5 of these monitors for their monitoring period 2015 to 2019; April 02, 2015 Hydro One monitoring site MW5-14 Page 14 of 18 Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario 4) Given Hydro One's current groundwater related site expenditures at MW5-14 if would seem prudent to monitor all 5 piezometers at MW5-14 for the 2015-2019 monitoring period; 5) Permission is requested to augment monitoring capabilities at site MW5-14 by drilling a Rotosonic borehole and installing the associated multi-level groundwater monitoring system; 6) We hope to work out a mutually agreeable solution to enable monitoring to occur at all 5 monitors at MW5-14 plus the installed multi-level monitoring system through the period 2015 to 2019; 7) From a technical perspective (and to better capitalize on the Hydro One expenditure to date) it would be preferred that Hydro One permit the continuation of groundwater monitoring at site MW5-14 post-2019. The alternative would be to decommission this location in 2019 when Hydro One has fulfilled their MOECC monitoring requirements. No additional costs would incur to Hydro One as a result of longer term monitoring; 8) Post-2019 we request permission to access the groundwater monitoring facilities at site MW5-14 in perpetuity with CLOCA acting as the legal entity; and finally 9) No direct cost or funding is requested from Hydro One except for transfer of funds that would have been spent decommissioning the five MW5-14 piezometers A-E to CLOCK These funds will be held by CLOCA for decommissioning at a later date should this be deemed necessary at some point in the future (>2019). We thank you for your consideration of this proposal and we look forward to a successful collaboration in establishing a high-quality, long-term groundwater monitoring facility at site MW5-14. The water resource information generated at this site is anticipated to benefit both regional and local investigations across south-central Ontario. Sincerely, � \ 'e- Dr. Beth Parker Dr. John Cherry University of Guelph, G360 Group University of Guelph, G360 Group Dr. James Smith McMaster University /Ink Dr. Richard Gerber Oak Ridges Moraine Groundwater Program (YPDT-CAMC) 416-737-1550 April 02, 2015 Hydro One monitoring site MW5-14 Page 15 of 18 Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine,Clarington, Ontario 6. REFERENCES Cherry, J.A., B. Parker and J. Levison. 2013. Independent Review, Hydrogeological Concerns for the Clarington Transformer Station Class Environmental Assessment Draft Environmental Study Report. Prepared for the Enniskillen Environmental Association. July 31. Hydro One. 2012. Clarington transformer station class environmental assessment draft environmental study report. Report Number: 590-CLEA-12-11. Environmental Services and Approvals, Hydro One Networks Inc. Toronto, Ontario. Parker, B.L., J.A. Cherry and B.J. Swanson. A multi-level system for high-resolution monitoring in rotasonic boreholes. Ground Water Monitoring and Remediation, 26(4), 57- 73. Stantec Consulting Ltd. 2013. Hydrogeologic & hydrologic assessment report Clarington transformer station, 1609-60745. Prepared for Hydro One Networks Inc., Stantec Consulting Ltd., Kitchener, Ontario, 102 pp. Stantec Consulting Ltd. 2014. Pre-Station Construction Groundwater and Surface Water Baseline Conditions Report, Hydro One— Clarington Transformer Station. November 18, 82pp. April 02, 2015 Hydro One monitoring site MW5-14 Page 16 of 18 Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine,Clarington, Ontario APPENDIX A: Rotosonic Borehole Quote April 02, 2015 Hydro One monitoring site MW5-14 Page 17 of 18 i � HOtCE THE ONLY IN SONIC DRILLING Project SONICGRILLINGLTD Proposal, Choice Sonic Drilling Ltd. Quote No: 171 72 Main st, Mount Albert Customer Name: John Cheery Ont, LOG 1 MO Client Contact: Tel:647-527-3745 Project No 0: Concession 7&8 choicesonicdrilling.com Contract Name: Scope of work Drilling one BH's to approximately 200 feet, it will be turned into a multi level piezometer upon BH's final depth. All BH's will be drilled using Sonic technology and will produce a continuous core sample of 4.5"to depth of hole. All wells will be to MOE specifications. Materials would be supplied by client. Start date from: 01-Sep-14 Finish date to: 01-Oct-14 DESCRIPTION UOM QUANTITY RATE EXTENDED RATE Mob/Demob to site I I Perdiem for crew I Hourly rate for Sonic Rig, Box truck I Tooling Charge 4"x 6"Drilling1 8"override tooling charge if needed I Water delivery to site with rental of water cubes I Decommission of BH"s routed to surface I Flush well protector or stick up well protectors I Total 1 18,140.00 Hourly drill rate includes loading, moving,drilling, installing, testing , development and clean up. All utilities will be cleared by client prior to drill's arrival Discreet sampling materials,testing equipment and all water samples will be the responsibility of the client. Water used for drilling can either be supplied on site or can delivered for an extra cost Drill cuttings and waste water caused by drill will be handled by client. I I Page 1 of 1 Proposal: Detailed Hydrogeological Assessment, Oak Ridges Moraine, Clarington, Ontario APPENDIX B: Reference Letters Reference letters from: 1. Central Lake Ontario Conservation Authority; 2. Oak Ridges Moraine Groundwater Program (YPDT-CAMC); 3. University of Guelph; and 4. McMaster University. April 02, 2015 Hydro One monitoring site MW5-14 Page 18 of 18 MITORONTO Caasc,vabaa Rutha has York Region _ fdara;na Caatftfaa Oak Ridges Moraine Groundwater Program (YPDT-CAMC) March 30, 2015 Faye Langmaid Manager of Special Projects, Municipality of Clarington Planning Services Department 40 Temperance Street Bowmanville, ON L1C 3A6 905-623-3379, ext. 2407 Re: Hydrogeological Assessment of the South Slope of the Oak Ridges Moraine, Clarington, Ontario— proposal to Hydro One. Dear Ms. Langmaid; The Oak Ridges Moraine Groundwater Program was established in 2001 by four municipalities (Peel, York and Durham Regions, City of Toronto) and nine conservation authority partners situated within south-central Ontario across the extent of the Oak Ridges Moraine. Program staff also work closely with the Ontario Geological Survey, the Ontario Ministry of the Environment, the Ontario Ministry of Natural Resources, and the Geological Survey of Canada. Projects with researchers at Canadian Universities are also on-going (e.g. University of Waterloo, Trent University). The goal of this collaborative effort is to establish science-based, responsible water resource management. The premise of the Program is that sound technical understanding leads to more effective water resource planning and policy. This is seen as vital in regards to the Oak Ridges Moraine given its importance in influencing water supply and ecosystem health within much of south-central Ontario. One of the key components of any hydrogeologic analysis is the availability of long-term, high quality monitoring information. While much water related information exists across the Oak Ridges Moraine, the quality is quite variable. The presence of state-of-the-art, groundwater monitoring infrastructure is largely non-existent. The Hydro One Clarington transformer station site contains a large thickness of glacial till deposits that protect both shallow and deep aquifer systems. The proposed monitoring will provide valuable information regarding groundwater flow through these till deposits that can be applied across much of south-central Ontario. The locations of higher quality monitoring locations are shown on the attached Figure 1. Higher quality sites include the presence of a carefully logged soil core extending from ground surface to bedrock and the installation of 3 or more monitoring wells at various depths. To date, the higher quality monitoring stations shown have been largely installed over narrow geologic structures (e.g. tunnel channels) where the till deposits have been partially or completely eroded. The proposal to Hydro One referenced above seeks to install high quality groundwater monitoring infrastructure at a location on the Moraine (Clarington). Monitoring at the site would generate research-level hydrogeological information and knowledge ultimately leading to a better understanding of aquifer (water supply) vulnerability. This site will fill a large gap 101 Exchange Avenue, Vaughan, ON, Canada, L4K 5R6 www.oakridgeswater.ca Hydrogeological Assessment of the South Slope of the Oak Ridges Moraine, Clarington, Ontario (Hydro One Transformer Station MW5-14) - proposal relating to the paucity of information relating to how groundwater flows through till deposits associated with the Moraine. We fully support the proposed project as its intent is viewed as significantly enhancing our Program objectives. We have developed significant hydrogeologic expertise related to the flow systems associated with the Oak Ridges Moraine. We expect that we will work closely with the study team to convey our knowledge, particularly in placing the local findings into the regional context that we have developed. Other in-kind contributions are possible, for example one opportunity may include collecting samples from the monitoring infrastructure and having them analysed as part of our on-going isotope study being conducted with researchers from the University of Waterloo. We look forward to developing a successful collaboration with Hydro One as outlined in the proposal. We also look forward to working with world-class researchers in enhancing our understanding of the hydrogeology of the Oak Ridges Moraine. Finally, we fully welcome the long-needed establishment of state-of-the-art-monitoring facilities along the Oak Ridges Moraine. Sincerely, Steve Holysh, P.Geo. Hydrogeologist and Co-Manager Oak Ridges Moraine Hydrogeology Program (YPDT-CAMC) sholysh @trca.on.ca; 416-661-6600 x5588 AJJU Richard Gerber, Ph.D., P.Geo. Hydrogeologist and Co-Manager Oak Ridges Moraine Hydrogeology Program (YPDT-CAMC) rgerber @trca.on.ca; 416-661-6600 x5589 March 30, 2015 ORM Groundwater Program (YPDT-CAMC) Page 2 of 3 Hydrogeological Assessment of the South Slope of the Oak Ridges Moraine, Clarington, Ontario (Hydro One Transformer Station MW5-14) - proposal e E _ GEORG— _ aAY KE SiMCOE s Nti — 5 "� :-. � r Z Jr r HydroOne MW5-14 r At j j a S wcc ontnRio 607000 650000 700000 750000 EasL•ng Legend Ground Surface(V1.5;100m v4 grid)-masl - ORM Planning boundary Map Scale In metres(1:1026616) ssu'0 - Edge of Niagara Fscarpment - -- --- Tunnel Channel Zones(v3;Oct2OO7) - Municipal&CA boundary 0 20000 40000 60000 -- - --- - � Projection:UTM NAD83 Zone17 Interpreted tunnel channel Date(d/m/y): 1 1103/2 01 5 YPDT-CAMC-core+3 or more piezomete Figure 1: Higher quality monitoring locations in the Oak Ridges Moraine study area. Higher quality locations include the presence of a carefully logged core to bedrock along with the installation of 3 or more monitoring wells at variable depths. March 30, 2015 ORM Groundwater Program (YPDT-CAMC) Page 3 of 3 Attachment 2 to Municipality of Clarington Report PSD-024-15 100'fling Avertie Ohlf.1 H-M Cettt.t'ct! Os.°av e, On ario Like Otit'ario r'Kr®(9M)57$-014 1 CC7T1.St'!'L'CIu 1;)1l Fax 19051 57MM ';Wo. 'J m Fa cbc3 con -Eilnjil. rnali(icicca com 7th ,April, 2015 CLOCA WS gale: JP557`8 Attention Faye Langmaid Manager of Special Projects Municipaiity of Clarington Planning Services Department 40 Temperance Street Bowmanville, ON L1 C 3A6 SUBJECT. Memorandum of Agreement. CLOCA — klydroUine for Ongoing monitoring and maintenance of Pw W5-]4 cluster of monitortng borchules This is to advise that CLOCA agrees to enter Into an agreement wth Hydro One (the property owner) to take on the ongoing monitoring of both the: • MW5-14 cluster of monitoring boraholes located on the Hydro One Clarington transformer station site after the 2019 EA stipulated period; and + the detailed multilevel proposed rot+osonic borehole immediately upon completion. CLOCA staff engaged in the planned monitoring work on the site will be covered under CLOCA's WSIB coverage, The arrangement will also corner the decommissioning of alJ boreholes at some point in the future(> 2019)should this become necessary. This agreement will be conditional upon: a) Hydro One agrees to transfer decommissioning funds to CLOCA for the existing borehole cluster (5 piezometers A through E)at site MW5-14. The anticipated cost is expected to be on the order of$10,000 assuming $2000.00 per piezometer; b) CLOCA socyures funding for the maintenance of the existing cluster post 2019; and funding for any maintenance and future decommissioning casts associated with the rotosonic borehole immediately upon completion. Nate that the rotosonic borehole is not under the EA approval oonditions and the construction costs are not being funded by Hydro (one; c) A Memorandum of Agreement (MOA) wiJI be prepared between CLOCA and Hydro One to outline the details regarding roles and responsibilities, site acoess and funding arrangements associated with the complete cluster; d) As it porlains to the multi-ievel rotosonic borehole, support and approval is provided by the Municipality of Claringtor and University of Guelph; and e) The agreement is endnrsed by the CLOCA Board of Direeturs. 5anccr Chris Darling ief Ad.r1I inistra'tivc Of iccr 5'CIU&S•.lAI+3¢�y'_rtrc"�+:•��U:S;�}.:L[� Attachment 3 to Municipality of Clarington Report PSD-024-15 Council Resolution #C-172-14 Moved by Councillor Novak, seconded by Councillor Hooper WHEREAS on March 3, 2014 Council resolved to write to Hydro One and request that the Enniskillen Environmental Association and their consultant, Group 360, be allowed access to the proposed Clarington Transformer Site to perform an independent hydrological study and authorized payment of up to $25,000 for the study; and WHEREAS in its delegation to Council on March 24, 2014, Hydro One stated that it would not allow Group 360 access to its property for such purpose; and WHEREAS the Enniskillen Environmental Association has now requested that Council grant Group 360 permission to use a portion of the unopened Townline Road road allowance in order to undertake an independent analysis of the potential hydrogeologic impacts of the proposed Clarington Transformer Station; WHEREAS Council supports the Association's desire to undertake further research and is prepared to fund such research to a maximum of$25,000, provided the work is undertaken outside of the area required for the station access road in order to avoid the significant additional social, environmental and financial impacts that would be associated with the relocation of the access road to a location running west off of Langmaid Road; and WHEREAS the University of Guelph professors Dr. Beth Parker, Dr. Jana Levison and Dr. John Cherry submitted a proposal dated April 27, 2014 outlining the scope of work for a research project valued at approximately $250,000 NOW THEREFORE BE IT RESOLVED: 1. THAT the University of Guelph Group 360 be granted permission to access that portion of the Townline Road road allowance north of Part 3 on Plan 40R-28285 for the purpose of undertaking an independent long term groundwater monitoring assessment in the vicinity of the proposed Clarington Transformer Station generally in accordance with the terms of reference provided by Dr. Beth Parker dated April 27, 2014; 2. THAT Council provide the University of Guelph a maximum of$25,000 to fund the research undertaken by Group 360 within the road allowance; and 3. THAT such research be funded with a transfer from the 2013 Donations Account to the Consulting Reserve. CARRIED AS AMENDED LATER IN THE MEETING (See following motions) Council Resolution #C-173-14 Moved by Councillor Neal, seconded by Councillor Traill THAT Part 1 the foregoing Resolution #C-172-14 be amended by replacing the words "north of Part 3 on Plan 40R-28285" with the words "which is within the Oak Ridges Moraine"; and THAT a Part 4 be added as follows: `THAT Hydro One's use of the Townline Road allowance shall not interfere with this assessment.' CARRIED LATER IN THE MEETING Attachment 4 to Municipality of Clarington Report PSD-024-15 Council Resolution #C-336-14 Moved by Councillor Neal, seconded by Councillor Novak That Report EGD-020-14 be received; That the easement be granted on the condition that Hydro One Networks at its cost, amend the groundwater monitoring program to include multi-level monitoring wells, one to be drilled down to the Thorncliffe formation as soon as possible; That Dr. Rick Gerber and Dr. John Cherry be invited to participate; and THAT the information from the monitoring be shared with the Municipality, the Enniskillen Environmental Association and the Community Liaison Committee. CARRIED AS AMENDED LATER IN THE MEETING (See following motions Council Resolution #C-341-14 Moved by Councillor Neal, seconded by Councillor Novak THAT the foregoing Resolution #C-336-14 be amended to add the words "at least" prior to the words "the Thorncliffe formation" and to add the words "or deeper if recommended by the expert consultants involved" following the word "formation." "CARRIED LATER IN THE MEETING The foregoing Resolution #C-341-14 was then put to a vote and CARRIED ON THE FOLLOWING RECORDED VOTE: Council Member Yes No Declaration of Absent Pecuniary Interest Councillor Novak Councillor Partner Councillor Traill -\[ Councillor Woo ,\[ Councillor Hooper Councillor Neal Mayor Foster,\[ The foregoing Resolution #C-336-14 was then put to a vote and CARRIED AS AMENDED ON THE FOLLOWING RECORDED VOTE: Council Member Yes No Declaration of Absent Pecuniary Interest Councillor Traill Councillor Woo Councillor Hooper Councillor Neal Nf Councillor Novak Councillor Partner,,,[ Mayor Foster�