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Home My WebLink AboutEnv Agenda - 2018-03-15Environmental Committee Agenda Thursday, March 15, 2018 Office of the City Clerk 4:00 p.m. - 6:00 p.m. Kitchener City Hall nd 200 King St.W. - 2 Floor Conestoga Room Kitchener ON N2G 4G7 Page 1 Chair - Ms. C. Gaetani Vice-Chair - Ms. T. Driver Delegations Pursuant to Council’s Procedural By-law, delegations are permitted to address the Committee for a maximum of 5 minutes. Item 1 - Louise Silcox, Developing Environmental Advocates and Researchers (DEAR) - Stacey Mitchell, KW Habilitation - Keenan Reimer-Watts, Busking for Change - Joe Mancini, KW Working Centre - Hedi Lee, Trinity Village Item 2 - David Arseneau, GHD Group Discussion Items 1. 2017-2018 Community Environmental Improvement Grant (CEIG) (45 min) Carrie Musselman, Senior Environmental Planner 2. 5-Year Stormwater Management (SWM) Report Card and (40 min) Results of 2017 Stormwater (SWM) Monitoring Program Samantha Brickman, Design & Construction Project Manager 3. Sub-Committee Updates (15 min) Information Items High Speed Rail - Notice of Commencement 2017/2018 Environmental Committee Work Plan Jaclyn Rodrigues Committee Administrator ** Accessible formats and communication supports are available upon request. If you require assistance to take part in a city meeting or event, please call 519-741-2345 or TTY 1-866-969-9994 ** Date:February 28, 2018 To:Environmental Committee Members From:Brandon Sloan, Manager of Long Range and Policy Planning cc:Carrie Mussleman, Senior Environmental Planner Barbara Steiner, Senior Environmental Planner Subject:2018 Community Environmental Improvement Grant (CEIG)Funding Update Staff would like to provide an update on the Community Environmental Improvement Grant (CEIG) budget for the Environmental Committees information in advance considering a recommendation on CEIG and in advance of this matter being ultimately considered at Standing Committee and Council. For the majority of the years that the Grant has been available, funds are not fully utilized in each given year and therefore carried over to the next year. As such, there was $10,000 available for CEIG from previous years (2017 and previous years) and given some reconfiguration of the program to align with the fiscal year and Earth Day this results in the 2018 funds being available, which is an additional $5,000 (plus some advertising money). Over the last number of years, the response to CEIG is fairly consistent and applications are moderately meeting the criteria. For this latest round, the subcommittee is providing a recommendation of which grantees will receive funding and how much. There is also a recommendation to again carry forward unused funds to 2019 ($3,500). Given there are funds available, one option for the Committee to consider is adjusting the amount of funding potential for each grantee. From staffs perspective, if the suggested grantees were to remain as recommended from the subcommittee, when this matter is reported to Standing Committee and Council, we are considering the following approach: - Recommending to award the Grants to the grantees as per the Environmental Committee recommendation - Carry forward the $5,000 (2018) funds to 2019 in order to have $10,000 available for a potential larger pool of grantees again - Close out the $3,500 and return to Capital reserves or to help fund other initiatives The Environmental Committee may wish to consider this in any recommendation on this matter. Staff can further discuss at the Committee meeting if needed. 1 - 1 Date: February 26, 2018 To: Environmental Committee Members From: Community Environmental Improvement Grant Sub-committee Subject: 2018 Community Environmental Improvement Grants (CEIG) The Committee was in receipt of five applications for the 2018 Community Environmental Improvement Grant (CEIG) program from the following: Busking for Change Waterloo-Wellington Science & Engineering Fair – DEAR: Developing Environmental Advocates and Researchers KW Habilitation and Rockway Mennonite Collegiate K-W Working Centre and Hacienda Sarria Market Garden – Sustainable Gardening Workshop Series Trinity Village / Lutheran Homes Kitchener Waterloo – Berm revitalization and naturalization project On February 26, 2018, the 2018 CEIG Subcommittee evaluated of all five applications received based upon the criteria for funding and the merits of the applications. The CEIG sub-committee is recommending that this year’s grants be allocated as follows: three thousand dollars ($3,000) to Busking for Change for a local fundraising campaign piloting ‘text-to-donate” software in Kitchener in the summer of 2018. Funds raised would be for local Kitchener environmental organization(s). It would be conditional upon the proponent applying to the Downtown Marketing & Program Coordinator to be a performer and obtaining a license if necessary. \[The grant is to be used for marketing material, performing arts database, text-to-give software and advertising\]; and two thousand dollars ($2,000) to K-W Working Centre – for a Sustainable Gardening Workshop Series covering such topics as water management, soil building / composting, seeds and seedlings, sustainable food systems, pollinators and insects. \[The grant is to be used for workshop material, curriculum development, and marketing material\]; and one thousand dollars ($1,000) to KW Habilitation and Rockway Mennonite Collegiate for an inclusive agricultural-based in class and hands on learning opportunity. Over 9 weeks students will learn about KWH Our Farm, the Green Thumbs Program, gardening basics, and the benefits of horticultural therapy. \[The grant is to be used for a veggie trug, a veggie trug with potting table, one trug vegetable greenhouse cover, two trug micro insect covering, soil, hand tools and seedling flats, pots, etc\]; and five hundred dollars ($500) to Waterloo-Wellington Science & Engineering Fair – DEAR: Developing Environmental Advocates and Researchers for a CO2 Simulation Group Activity where students will have to wrestle with reducing the community’s CO2 footprint by 80%. A copy of the activity will also be provided to schools to use; and further, three thousand and five hundred dollars ($3,500) be prorated toward the 2019 Community Environmental Improvement Grant program. Reviewed by: Carrie Musselman, Senior Environmental Planner Brandon Sloan, Manager of Long Range and Policy Planning 1 - 2 (Projects/Programs to be completed in 2018) Name of Program / Project: DEAR: Developing Environmental Advocates and Researchers Total cost of Program / Project: $4,000 Amount requested from CEIG (Max. of $3,000.00): $500 APPLICANT INFORMATION Project Coordinator: Louis Silcox Telephone Number: 519-662-9303 Email Address: silcox@cwisp.ca ORGANIZATION INFORMATION Name of Organization: Waterloo-Wellington Science & Engineering Fair Type of Organization: Registered Charity Website: wwsef.ca Mailing Address: c/o 3994 Huron Rd., New Hamburg ON N3A 3E3 Telephone Number: 519-662-9303 Email Address: development@wwsef.ca A) Please provide a brief overview of your organizations mission and mandate: The Waterloo-Wellington Science and Engineering Fair is a community organization that conducts the annual exhibition and adjudication of science research and engineering projects for students in This information is available in accessible formats upon request. Please call 519-741-2345 or TTY 1-866-969-9994 for assistance. 1 - 3 Projects are presented to an expert panel of 150 judges from academia and business. While the judges are completing their deliberations, we present our environmental education program, DEAR: Developing Environmental Advocates and Researchers. Our best projects go on to national and international competitions. Our Council members come from university faculty, area businesses, teachers and retirees. B) Please describe when your organization was formed, any affiliations you have and major accomplishments to date: WWSEF was formed in 1973 and incorporated in 1978. It is one of about 100 regional science fairs affiliated with Youth Science Canada. PROPOSAL INFORMATION C) Please describe briefly (200 word maximum) the program or project, what is the rationale for the project or program, when will it start and finish: Phase 1 (at the Fair April 3) provides information, inspiration and resources to the young science leaders to influence their future research and career choices. It takes place at the Fair site and off- campus. Our theme this year is Sustain Our Community. Our primary activity will be an extensive and challenging simulation activity in which groups will wrestle with reducing the CO2 footprint by 80%. The activity will be led by people from the Waterloo Global Science Initiative. The simulation works through a series of seven 5-year initiatives to reach the goal. Our tour will visit the Waterloo Region Water Treatment Plant to learn how we will sustain our Phase 2 (in the participating schools) expects these young researchers to present some of the their new knowledge to other students in their home schools (spreading the environmental knowledge and developing leadership experience). We will also provide copies of the environmental activity (Energize) for schools to use. D) Please explain briefly (200 word maximum) the benefits and/or importance to the community of the program or project: In order to meet the reduction in GHG, the community needs ideas, research and acceptance next 30 years. Hence, it is crucial to engage them early in their careers in order to invite them to join the movement now. When their careers in science, engineering and politics develop, we For example, one youth we took to the landfill on Erb Street in 2006 came back 2 years later as the first person to find a consortium of soil bacteria This information is available in accessible formats upon request. Please call 519-741-2345 or TTY 1-866-969-9994 for assistance. 1 - 4 E) Please list the short and long-term goals, the environmental benefits, and how the program or project addresses environmental issues and/or problems in Kitchener: The short and long term goals are both to foster understanding in the community and encourage further research and innovation. There is no immediate benefit to the environment or the city. Kitchener, however, does need to work to sustain its water resources, and also needs to be part of the Regions GHG reduction plan. F) Please provide a budget showing anticipated costs; what is the total budget, how much is requested from the City, what are the other contributions (shared funding, volunteer labor, donated materials, fundraising): Expenses: Printing of simulation $1350, Printing souvenir postcard, posters $150, classroom resources (books) $750, busing $1000, facility rental, AV $750. Revenue: LIFE Co-op $500, TD Friends of the Environments$2000, Region of Waterloo CEF, $1000. G) Please provide the timeline, tasks or steps involved in planning and implementing the program and/or project: Planning DEAR as part of the annual science fair begins in the fall with the development of a timely theme. Throughout the fall a search is conducted for people who can present activities relevant to the theme and/or who can host a visit from our 240 junior exhibitors. During the winter, the program comes together, materials to publish are designed and resources for classrooms are sought. Fund raising is initiated in the fall and carries on until summer. Volunteer recruitment takes place in January, as does logistics H) Please provide a list of committee partners or collaborations, anticipated public involvement and, if applicable, letters of permission from landowners or regulatory permits: DEAR is one aspect of the annual Waterloo-Wellington Science and Engineering Fair. This year we are involved with the Region of Waterloo Water Services (Mannheim Water Treatment Plant) and the Waterloo Global Science Initiative for the program. PRESENTATION Applicants will have an opportunity to present their application at the March 15, 2018 Environmental Committee Meeting (Conestoga Room, Kitchener City Hall). Applicants will be advised of the time set aside for presentations when the committee agenda is developed early in March. Presentations should be a maximum of 3 minutes with 2 minutes for questions. *Please be advised that this is not a mandatory requirement for eligibility.* I)Would you like to present?Yes please. This information is available in accessible formats upon request. Please call 519-741-2345 or TTY 1-866-969-9994 for assistance. 1 - 5 DECLARATION In making this application, I/we, the undersigned, declare to the best of our knowledge that the information contained in this application is accurate and complete. Further, that should our proposal be accepted in part or in whole, the funds granted would be used for the stated purposes and that I/we would comply with all terms and conditions as outlined in Council Policy I-590 (Grant Program Community Environmental Improvement). The applicant/project coordinator and if applicable a senior member of the organization (e.g. executive director, president, owner or school principal) must complete the following. !¯¯«¨¢ ³ ΐ Name (please print): Louis Silcox Signature: Position / Title: Development Chair Date: February 20, 2018 !¯¯«¨¢ ³ Α NA Name (please print): Signature: Date: If submitting via email, please certify in the email body that you have the authority to make application on behalf of your organization to the Community Environmental Improvement Grant (CEIG) of the City of Kitchener. Municipal Freedom of Information and Protection of Privacy Act Personal information provided by the applicant on the application form, or as support material with the application is being collected in order to process grant applications and to administer the program and, as such, may be made available to City staff and members of the Environmental Committee. Application forms, supporting documentation and evaluation forms applicants may be made public. Personal information collected on this form, or as support material, may become part of a public document. This information is available in accessible formats upon request. Please call 519-741-2345 or TTY 1-866-969-9994 for assistance. 1 - 6 1 - 7 1 - 8 1 - 9 1 - 10 1 - 11 1 - 12 1 - 13 1 - 14 1 - 15 1 - 16 1 - 17 1 - 18 1 - 19 1 - 20 1 - 21 1 - 22 IĻƌƦźƓŭ ƦĻƚƦƌĻ ƌźǝĻ ƭǒƭƷğźƓğĬƌǤ Feb 16, 2018 Barbara Steiner Senior Environmental Planner City of Kitchener Dear Barbara, Re: Community Environmental Improvement Grant Application from .ǒƭƉźƓŭ ŅƚƩ /ŷğƓŭĻ I am pleased to write this letter of support for Busking for Changes proposal to support the work of environmental organizations by raising money through busking. Reep Green Solutions would be honoured to receive support for our programs from Busking for Change. As an environmental charity that helps people live sustainably, we seek support for our work from grants, service fees, and donations. Busking for Change is a form of donation that we would welcome as a creative and positive way to draw Region residents into environmental action. In particular, I was struck by this statement in the Busking for Change proposal: ŷĻ ƦĻƩŅƚƩƒźƓŭ ğƩƷƭ Ǟƚǒƌķ ƭĻƩǝĻ ğƭ ğ ƦƚƭźƷźǝĻ ƌĻƓƭ ƷŷƩƚǒŭŷ Ǟŷźĭŷ ƦĻƚƦƌĻ ĭğƓ ĬĻĭƚƒĻ ĻķǒĭğƷĻķ ƚƓ ƷŷĻ ĻƓǝźƩƚƓƒĻƓƷͲ ğƓķ ĬĻĭƚƒĻ ĻƓŭğŭĻķ źƓ ƭƚƌǒƷźƚƓƭ Ʒƚ ĻƓǝźƩƚƓƒĻƓƷğƌ źƭƭǒĻƭ͵ This aligns directly with Reep Green Solutions ĻƒƦƚǞĻƩ ƷŷĻ ĭƚƒƒǒƓźƷǤ ǞźƷŷ ƷŷĻ ƦƩğĭƷźĭğƌ ƉƓƚǞƌĻķŭĻͲ Ʒƚƚƌƭ ğƓķ ĭğƦğĭźƷǤ ŅƚƩ ğĭƷźƚƓ Ʒƚ ƒğƉĻ ƭǒƭƷğźƓğĬƌĻ ƌźǝźƓŭ ƷŷĻ ƓƚƩƒ As an example of the kind of work that this funding could support, our Reep House for Sustainable Living in downtown Kitchener is a community resource demonstrating energy and water efficiency and stormwater management to students and the general public with no direct funding support. We offer workshops throughout the year on concrete topics that help residents make informed decisions to improve the environment, such as Your options for dealing with hard water and Making the best window choices for your home. We charge a small fee for some of them that doesnt begin to cover the cost of organizing and staffing these events, and would welcome funding support. We are always looking for fun ways to engage young people in our work as the environmental stewards of the present and future, and this seems like an added benefit of Busking for Change. We urge the City of Kitchener to support this proposal and unleash the talent of buskers for good. Sincerely, Mary Jane Patterson Executive Director tŷƚƓĻ: 519-744-6583 9ƒğźƌ: info@reepgreen.ca ĻĬƭźƷĻʹ reepgreen.ca 1 - 23 ЋЋЋ CƩĻķĻƩźĭƉ {Ʒ͵Ͳ YźƷĭŷĻƓĻƩͲ hb bЋI ЋaБ /ŷğƩźƷǤ ƩĻŭźƭƷƩğƷźƚƓ ϔʹ 81585 2348 RR0001 1 - 24 1 - 25 1 - 26 1 - 27 1 - 28 1 - 29 1 - 30 1 - 31 1 - 32 1 - 33 1 - 34 1 - 35 1 - 36 1 - 37 2- 1 2- 2 Draft for Review This document is in draft form. A final version of this document may differ from this draft. As such, the contents of this draft document shall not be relied upon. GHD disclaims any responsibility or liability arising from decisions made based on this draft document. 2017 Stormwater Management Monitoring Program City of Kitchener GHD | 651 Colby Drive Waterloo Ontario N2V 1C2 Canada 11139676 | Report No 2 | January 25 2018 2- 3 Executive Summary In 2001, the City of Kitchener completed the Kitchener Stormwater Policy Development program. This program resulted in a report detailing the existing stormwater management (SWM) infrastructure including SWM Ponds (wet ponds, wetlands and dry ponds), Oil-Grit Separators (OGS) and streams.This program assisted the City with outlining new policies to manage, monitor and improve SWM within the City. As a result of the SWM plan, a city wide monitoring plan was developed and initiated in 2002 as part of a process to evaluate the effectiveness of the SWM approach. The overall health of watersheds in Kitchener was recently evaluated in the Integrated Stormwater Management Master Plan (ISWM-MP) Municipal Class Environmental Assessment (EA) completed 2016. This document replaced the 2001 SWM Policy Study (#I-1135) in 2016 as over time, the policy no longer aligned with changing industry practices and changes in federal, provincial, regional, and local policies. The purpose of the ISWM-MP is to address existing urban areas of the City and recommend measures to improve overall environmental performance, increase efficiencies, and reduce costs. A few of the environmental issues identified in the ISWM-MP specific to surface water included: Degradation of surface water quality Increased sediment loads to surface water Thermal enrichment of surface water Loss and degradation of fish and wildlife habitat Increased erosion In the ISWM-MP, watersheds within the City were evaluated and prioritized with Priority 1 watersheds were identified as having the greatest need of environment improvement while Priority 4 watersheds were identified as closest to natural conditions and therefore had the lowest need for environmental improvement. Under the original 2001 SWM Policy and continued under the 2016 ISWM-MP, an annual stormwater monitoring program was mandated to monitor the performance of SWM works within Kitchener. This report includes a review of monitoring activities undertaken in 2017. In addition, a summary of monitoring efforts at the newly constructed permeable paver parking lot at the Huron Natural Area is included. This report once again, includes a summary of the monitoring work completed at the recently restored section of Henry Sturm Greenway within Filsinger Park, as part of habitat banking efforts within the City of Kitchener in coordination with the Department of Fisheries and Oceans (DFO); this is the second of three years of post-construction monitoring in Filsinger Park. The 2017 annual report includes habitat banking efforts also in coordination with the DFO along Idlewood Creek near the mouth of the Grand River; this constitutes the pre-construction characterization of the Creek, against which future years of post-construction monitoring will be compared. Draft Document – For Discussion Only – Final Version May Differ From Draft 2- 4 HD | 2017 Stormwater Management Monitoring Program | 11139676 (2) | Page i Physical and Chemical Analysis Water quality samples were collected by grab sample methodology at the SWM Audit stations: three dry samples were collected at core stations including: Henry Sturm Greenway (HS1), Kolb Drain (KD1), Montgomery Creek (MG1), Strasburg Creek (SB2), Shoemaker Creek (SM1), Sandrock Greenway (SR2), Lower Schneider Creek (SC1), and Upper Schneider Creek (SC9). Five dry grab samples were collected at the DFO stations as part of the Habitat Bank monitoring work: Idlewood Creek (IW1) and Henry Sturm Greenway (HS4). Dry-weather sampling was conducted seasonally, with one event in each season (spring, summer, and fall) at the core stations. Dry-weather sampling consists of grab samples which are analyzed to provide an indication of failing infrastructure or contamination due to spills upstream. ISCO automated sampling devices were installed at Upper Schneider Creek (SC9), Lower Schneider Creek (SC1) and Idlewood Creek (IW1), which included continuous stage and temperature measurements. Also included in the analysis was available information for Blair Creek (BL1 and other stations) sampled by Grand River Conservation Authority (GRCA). Table ES-1 summarizes the results of the 2017 SWM monitoring dry grab sampling program. Similar to previous years, the average concentration of Chloride at all locations exceeds the Long Term Exposure Limit of 120 mg/L, except Strasburg Creek (SB2). Henry Sturm Greenway (HS4) experienced an exceedance only for the maximum Chloride value. Blair Creek did not have any exceedances, however only the Dissolved Chloride was analyzed by GRCA, not Total Chloride. Eight locations' minimum concentrations exceeded the Long Term Exposure Limit (red) for Chloride, identifying a significant negative water quality impact. The average concentration for Total Phosphorus exceeded the PWQO limit of 0.03 mg/L at five locations including Blair Creek at New Dundee Road (2414002), Idlewood Creek (IW1), Kolb Drain (KD1), Shoemaker Creek (SM1) and Sandrock Greenway (SR2) in 2017. During the 2017 monitoring there were no average exceedances for Lead, Copper or Zinc. However, the maximum concentration exceeded guideline limits at Idlewood Creek (IW1) for Lead, Copper and Zinc.Similar to 2016, Nitrate concentrations experienced no exceedances at any of the locations during the 2017 monitoring program. Water Temperature Temperature monitoring from 2017 resulted in the classification of Upper Schneider Creek (SC9) as cool-warmwater, Lower Schneider Creek (SC1) as coolwater and Idlewood Creek (IW1) as coolwater and cold-coolwater. Water temperature and thermal enrichment of the City’s creek systems was identified as a key environmental issue in the 2016 ISWM-MP, and will continue to form a component of the City’s annual SWM Monitoring Program into the future. Flow Measurement Discrete flow measurements and flow depths were recorded at the flow-proportionate automated sampling locations (SC9, SC1 and IW1) on five separate occasions. The continuous level data collected at the automated sampling locations was converted to flow rates using a rating curve which relates flow to depth. Continuous flow monitoring data was normalized using barometric pressure. Draft Document – For Discussion Only – Final Version May Differ From Draft 2- 5 HD | 2017 Stormwater Management Monitoring Program | 11139676 (2) | Page ii During the 2017 monitoring season, additional discrete flow measurements were conducted at Voisin Creek (VS1), Middle Strasburg Creek (SB7) and Strasburg Creek (SB1) to allow for the creation of rating curves in advance of the 2018 automated sampler installation. Trends Water quality trends have been identified by comparing stations monitored in 2017 that had eight or more years of historical water quality data. Stations with eight or more years of data included: Strasburg Creek (SB2), Henry Sturm Greenway (HS1), Kolb Drain (KD1), Montgomery (MG1), Sandrock Greenway (SR2) and Idlewood (IW1). Historical trends were also evaluated for Shoemaker Creek (SM1) because EMC sampling was conducted on this watercourse during the 2016 monitoring. General seasonal trends that remain consistent across all monitoring locations include chloride concentrations being higher during dry-weather grab samples collected throughout the summer period. This is likely caused by the concentrated effect in the waterbody due to low water levels. TSS values reveal wet-weather samples to have higher TSS concentrations than dry-weather sample events. The maximum seasonal concentration in 2017 is generally seen during the summer monitoring period when water levels are at their lowest and intense precipitation events create flashy, turbid conditions. In some monitoring years, the maximum seasonal concentration is seen during the spring melt when debris is flushed through the waterbodies; however this trend is dependent on the annual precipitation regime. Draft Document – For Discussion Only – Final Version May Differ From Draft 2- 6 HD | 2017 Stormwater Management Monitoring Program | 11139676 (2) | Page iii 2- 7 An analysis summary of the historical trends is presented below for each monitoring location: Strasburg Creek (SB2):No long-term trends have been observed at this site for Chloride or TSS concentrations. TSS and Chloride concentrations have generally been below CCME guidelines. Henry Sturm Greenway (HS1):The majority of wet sample results and EMC results fell below the CCME Chloride guidelines. Chloride concentrations were higher during dry sample events, with the maximum Chloride concentration observed in 2010 with a value of 372 mg/L. The maximum TSS value at this location was observed in 2008 with a value of 2100 mg/L. The 2017 TSS dry grab concentrations ranged from 0 mg/L to 3.5 mg/L, similar to the dry-weather grab results collected in 2015 and 2016. Kolb Drain (KD1):Chloride concentrations during wet-weather events initially were below the CCME Long Term Concentration guideline of 120 mg/L at this site; however, the limit has since been exceeded. Dry-weather concentrations have exceeded the long term concentration limit, with the exception of one sample event in 2005. The majority of dry-weather samples continue to fall below 25 mg/L for TSS. The maximum dry-weather grab sample of TSS was observed in 2005 with a concentration of 62.3 mg/L. Wet-weather TSS measurements consistently read higher than dry sample events, with the maximum value observed in 2004 with a value of 251 mg/L. Montgomery Creek (MG1):A general trend at Montgomery Creek reveals Chloride concentrations hovering around 400 mg/L during both wet and dry-weather events. About half of the wet-weather monitoring results fell below the CCME guideline of 120 mg/L for long term concentration; however the majority of dry-weather samples exceeded this guideline.The maximum recorded dry-weather value of 2300 mg/L was measured on January 23, 2012. Historical trends show that dry-weather concentrations of TSS have generally been below 20 mg/L. Historical wet-weather samples at MG1 ranged from concentrations of 0 mg/L to 143 mg/L. Sandrock Greenway (SR2):Wet-weather Chloride samples have for the majority been below the CCME Long Term Concentration guideline of 120 mg/L. The maximum recorded wet-weather Chloride concentration was observed in 2015 with a value of 646 mg/L. Dry-weather Chloride concentrations have generally hovered around the 300-400 mg/L range, with the majority of samples exceeding the long term concentration limit. The maximum recorded dry-weather Chloride concentration at SR2 was collected in January 2012 with a value of 2090 mg/L. Historical data has revealed that dry-weather concentrations of TSS have generally been below 25 mg/L. Historical wet-weather grab samples at SR2 ranged from 0 mg/L to 290 mg/L. Shoemaker Creek (SM1): Wet-weather Chloride samples have for the majority been below the CCME Long Term Concentration guideline of 120 mg/L. The dry-weather sample results all exceeded the CCME Long Term Concentration guideline, except for one sample collected in 2010. The maximum dry-weather Chloride concentration was reached in 2016 with a value of 462 mg/L. Historical data has revealed that dry-weather concentrations of TSS have been below 10 mg/L. Historical wet-weather grab samples ranged from 21.4 mg/L to 519 mg/L. The 2017 TSS dry grab concentrations ranged from 5.2 mg/L to 12.3 mg/L, once again similar to previous years. Idlewood Creek (IW1): Wet-weather Chloride samples have typically been below the CCME Long Term Concentration guideline of 120 mg/L, with the exception of five wet grabs. The majority of Draft Document – For Discussion Only – Final Version May Differ From Draft 2- 8 GHD | 2017 Stormwater Management Monitoring Program | 11139676 (2) | Page ii dry-weather sample results exceeded the CCME Long Term Concentration guideline. The maximum dry-weather Chloride concentration was reached this year, with a value of 200 mg/L. The Chloride EMC values observed this year ranged from 49.7 mg/L to 113 mg/L. The 2017 Chloride dry grab concentrations ranged from 124 mg/L to 200 mg/L. Dry-weather concentrations of TSS have been below 25 mg/L, with the exception of one dry sample collected this year with a value of 392 mg/L. Historical wet-weather grab samples ranged from 0.0 mg/L to 339 mg/L. The TSS EMC values observed in 2017 ranged from 34.7 mg/L to 1090mg/L. The 2017 TSS dry grab concentrations ranged from 2.4 mg/L to 392.0 mg/L. Biological Sampling Fish community and benthic macroinvertebrate sampling was conducted as part of the 2017 SWM Monitoring Program, as well as under the Blair Creek monitoring program implemented by the GRCA. The results of both programs are discussed below, with the Blair Creek results following the core SWM Monitoring Program results. Fish community surveys were conducted at four core stations on Schneider, Sandrock and Strasburg Creeks (SC1, SC9, SB2 and SR2), as well as one station at each of the DFO Habitat Bank stations on Henry Sturm Greenway (HS4) and Idlewood Creek (IW1). Benthic macroinvertebrate sampling was conducted at the fish community survey stations, as well as at HS1 on Henry Sturm Greenway, KD1 on Kolb Drain, MG1 on Montgomery Creek, and SM1 on Shoemaker Greenway. Samples collected were compared between streams and results for MG1 and SB2 were compared against annual data collection dating back to 2013. SB2 was also compared against the First and Second Five Year Report Card values to help identify any changes in the benthic community over time. Overall, benthic macroinvertebrate samples collected during the 2017 Kitchener SWM monitoring program returned similar results as previous monitoring years. Taxa Richness returned similar results both between watercourses and between previous monitoring years. Number of EPT families was low across all sites indicating a moderately impacted systems. Percent Shredder was also very low across all watercourses, falling well below expected values. This may indicate a lack of detritus or leaf litter available for this feeding group. Montgomery Creek (MG1) and upper Schneider Creek (SC9) returned the highest abundance of organisms although they had the lowest Taxa Richness. This indicates that the benthic community is not very diverse and composed mainly of a few species at those sites and is reflected in the dominance of one Family in SC9 and the high percent Chironomidae at MG1. Considering all metrics, Strasburg Creek (SB2) has the highest overall water quality of all locations studied in 2017 with the best score of all sites on the Hilsenhoff’s Biotic Index corresponding to good water quality. It also had the highest percent EPT of any site, and included EPT species with a tolerance value of 0, or highly sensitive to disturbance. The past four years (2013 – 2016 data) of benthic macroinvertebrate results for Montgomery Creek (MG1) and Strasburg Creek (SB2) were compared to the 2017 data. The overall trend for both locations displays an improvement in water quality over the four (4) year monitoring period. The Draft Document – For Discussion Only – Final Version May Differ From Draft 2- 9 GHD | 2017 Stormwater Management Monitoring Program | 11139676 (2) | Page iii 2017 fish community sampling revealed similar results as previous monitoring years. Strasburg Creek (SB2) scored highest in water quality. Once again, Strasburg Creek (SB2) had the highest percent intolerant species, which is a result of the presence of four brook trout (Salvelinus fontinalis), a highly pollutant-sensitive, coldwater species. Brook trout have been well-documented in Strasburg Creek (SB2) since 2011. An abundance of mottled sculpin (Cottus bairdii) were captured once again during the 2017 monitoring, reinforcing that the creek supports coldwater species. Lower Schneider Creek (SC1) had the lowest value in percent tolerant species (0%), however also had a low total catch and low species diversity. Upper Schneider Creek (SC9) had the second highest total number of fish caught as well as the second highest species diversity amongst all stations. Henry Sturm Greenway (HS4) had the highest number of percent tolerant species, indicating a community lacking diversity and dominated almost solely by tolerant species. However, HS4 did not have the lowest species richness between all stations monitored in 2017. Sandrock Greenway (SR2) scored second lowest for total number of fish captured. This watercourse consisted of tolerant and intermediate tolerant species, with a mix of species that prefer coolwater and warmwater thermal regimes. Idlewood Creek (IW1) scored the highest for total fish captured and second highest for percent tolerant species (0.6%). This community assemblage consisted of a mix of coolwater and warmwater species. Annual fish community trends were identified between stations that had a minimum of four consecutive years of data available. Strasburg Creek (SB2) was analyzed for trends from 2013 to 2017. Strasburg Creek (SB2) displayed a general trend of increasing water quality over the five years of monitoring. This year's monitoring saw a decrease in total number of fish captured, however a school of mottled sculpin were captured during the 2016 monitoring thus significantly increasing the total number of fish collected. The percentage of tolerant species increased in 2017, however the general trend also suggests an increase in the percentage of intolerant species.During 2017, there was an increase in percent intolerant species because four brook trout were caught; an increase from the two that have previously been captured during the 2014 and 2015 monitoring. In addition to the biological monitoring work undertaken under the core 2017 SWM Monitoring Program, the GRCA collected fish community and benthic macroinvertebrate data for several sites along Blair Creek, as part of the ongoing monitoring program in that subwatershed to assess impacts of development. The biological results for one of these monitoring locations (Blair Creek at Reichert Drive, noted as BL1) are included in this report. Once again, the total number of benthic organisms collected increased in 2017 compared to 2016 and the overall water quality at this location appears to have improved. Blair Creek (BL1) scored higher in 2017 on all metrics. Notable changes include taxa richness almost double that of 2016 and falls well above the range of expected values for unimpaired creeks; percent Oligochaeta decreased to 7.5, the lowest it’s been since 2014 monitoring; and percent Chironomidae decreased to the lowest measured since 2014, though it still falls outside the expected range within unimpaired creeks of 10-30 percent. The high proportion of Chironomidae was also reflected in the functional feeding groups where collector gatherers are almost dominant with 49 percent and the other feeding groups are poorly represented. Percent EPT and number of EPT families both increased to the highest reported since 2014. While percent EPT is still low for a healthy system, the number of EPT families is consistent with expected values for a slightly impacted creek system and overall indicates an increase in the diversity and abundance of these sensitive species. Draft Document – For Discussion Only – Final Version May Differ From Draft 2- 10 GHD | 2017 Stormwater Management Monitoring Program | 11139676 (2) | Page iv The Shannon Diversity Index for BL1 increased from 2.7 in 2016 to 3.6; a value consistent with an unimpaired system. The HBI decreased quite significantly in 2017 and indicates good water quality with some pollution. Overall the metrics for BL1 from 2017 mark a dramatic improvement from previously reported community structure and composition. Inconsistencies in the reported 2014 and 2015 results are noted in the reporting of the Shannon Diversity Index and HBI values. Irrespective of these inconsistencies, the 2017 BL1 results still indicate a distinct improvement over the period of survey. The fish community data set recorded in 2017 displayed similar results to those of 2016. The total number of fish collected decreased from 2016, however species richness remained comparable. The percentage of tolerant species has shown a general declining trend since 2014, and has remained at zero for the last two years. Previous monitoring suggested that the Blair Creek fish community consisted of a mix of tolerant, intermediately tolerant and intolerant species. In 2017, zero tolerant species were captured, shifting the system to support intolerant and intermediately tolerant fish communities. In 2017, 4 brown trout (Salmo trutta) and 7 brook trout (Salvelinus fontinalis) were captured, both being intolerant species. The totals of both of intolerant brook trout and mottled sculpin are consistently down in total numbers since 2014, but represent a consistent proportion of the community. Results from the benthic macroinvertebrate monitoring conducted at Blair Creek (BL1) indicate an improvement in water quality; the 2017 fish community results suggest a consistent fish community within Blair Creek, despite a lower catch in 2017. Huron Natural Area Permeable Paver Parking Lot Monitoring As part of the 2017 Stormwater Management Monitoring Program, GHD conducted monitoring at the Huron Natural Area (HNA) permeable paver parking lot, which was installed in November 2015. The monitoring consisted of infiltration testing of the permeable paver surface, to determine an effective infiltration rate, as well as continuous subsurface water level monitoring. Through six infiltration tests, the average infiltration rate was calculated to be 1,900 mm/h in 2017, compared to an average of 2,700 mm/hr measured in 2016. As part of the continuous water level monitoring study, all rain events in 2017 were infiltrated into the underlying soils with little ponding in the aggregate reservoir under the parking lot. The highest peak water level measured during 2017 was 0.342 m, compared to a peak of 0.757 m in 2016 during a large rain storm event. The continuous leveloggers were left in the monitoring well over the winter of 2016-2017 in order to catch any spring melt events that may occur. In addition, another round of infiltration testing will be completed by GHD in 2018 to identify any capacity decreases that will likely occur due to regular sedimentation and aging of the infrastructure. DFO Habitat Bank Monitoring In 2016, a habitat banking monitoring station was established along Henry Sturm Greenway, in accordance with The Department of Fisheries and Oceans Canada (DFO) policies. The second year of monitoring along Henry Sturm Greenway was completed in conjunction with the 2017 SWM Draft Document – For Discussion Only – Final Version May Differ From Draft 2- 11 GHD | 2017 Stormwater Management Monitoring Program | 11139676 (2) | Page v Audit monitoring. This monitoring program aims to establish a "habitat bank" in the City of Kitchener such that the work completed through Filsinger Park could be applied as compensation for other watercourse work where serious harm to fish may be unavoidable. The 2017 monitoring program addressed water chemistry, benthic macroinvertebrate, fish community, and physical/geomorphic monitoring. The complete habitat bank monitoring report is included under separate cover. Water quality samples were collected along Henry Sturm Greenway (HS4), with a total of five wet samples, five dry samples, and one melt sample collected between March and December2017. Water quality parameters were measured at the sampling site during sample collection and biological sampling using a Horiba U-52 Water Quality Meter. Parameters collected included temperature, pH, conductivity, turbidity, and dissolved oxygen. The benthic macroinvertebrate community was sampled in July at HS4 (downstream of the confluence of Henry Sturm and Sandrock Greenway) using OBBN travelling kick and sweep method, as well as conducting one Surber sample. A single pass backpack electrofishing survey was conducted on three separate dates during discrete seasonal periods. The intent of this survey was to produce a comprehensive fish species inventory within the site, characterize the fish community, and provide a qualitative assessment of species abundance. The seasonal fish community sampling results were: Spring – Total fish caught = 60; consisting of six species Summer – Total fish caught = 53; consisting of five species Fall – Total fish caught = 144; consisting of four species In 2017, GHD also monitored the physical characteristics of three reaches within Filsinger Park to evaluate the condition of existing in-stream geomorphologic conditions and aquatic habitat. The 2016 monitoring evaluated the baseline condition of existing in-stream habitat and can now be used as a benchmark for future studies within these reaches. GHD also conducted a riparian assessment of the vegetation and tree cover within Filsinger Park in 2017. Riparian plantings were assessed in the fall (October 19, 2017). Overall, riparian vegetation cover has established vigorously, and only minimal bare ground (<5%) occurs throughout the restored reaches of Henry Sturm Creek in Filsinger Park. Along the Study Area, overhanging vegetation in the form of shrub and herbaceous cover is providing shade and additional habitat complexity to Henry Sturm Creek. Recommendations for 2018 Monitoring Program Based on the recommendations for an annual stormwater monitoring program as described in the City of Kitchener Integrated SWM-MP – Implementation Plan, the results of the 2016/2017 SWM Monitoring Program, as well as feedback from the Steering Committee members, the following recommendations have been developed for the 2018 SWM Monitoring Program. 1. Establish four (4) flow proportionate monitoring sites each year at the below listed locations, using a combination of City-owned and rented ISCO autosamplers: a. 2018 SWM Monitoring Program: SB7, SB1, VS-1, HS-1 Draft Document – For Discussion Only – Final Version May Differ From Draft 2- 12 GHD | 2017 Stormwater Management Monitoring Program | 11139676 (2) | Page vi 2. At each flow proportionate monitoring location, water quality monitoring will be conducted to produce Event Mean Concentrations (EMCs) for selected constituents to enable calculation of pollutant mass loadings into receiving watercourses. Monitoring activities at the flow proportionate monitoring sites would include the following: a. Installation of an automated sampling device at the selected sites. A flow meter compatible with the selected automated sampling device would be utilized to trigger sampling as flow rates change. Flow meters would record continuous flow data in order to develop the EMC. b. A minimum of eight sampling events per year should be undertaken, with two events per season (i.e., Spring, Summer, Fall, Winter) to ensure the full range of seasonal variation is captured. c. Undertake a minimum of five (5) discrete flow measurements and installation of a staff gauge in order to develop a rating curve (i.e., depth versus flow relationship). Continuously recorded depth values are translated to flow rates per the relationship developed by the rating curve. d. Undertake continuous temperature monitoring at the flow proportionate sampling locations to establish baseline thermal regimes, with data recorded every 15-minutes. e. Undertake a minimum of three (3) dry-weather sampling events at each flow proportionate monitoring location with one (1) event in each of Spring, Summer, and Fall. Dry-weather sampling is undertaken through grab samples to provide an indication of failing infrastructure or contamination due to spills upstream. One dry weather sample is to be timed to coincide with the benthic macroinvertebrate sampling (see f below). Discrete field water quality measurements should be collected coinciding with all grab sampling events. At minimum, the following parameters should be collected: pH, Temperature, Dissolved Oxygen and Conductivity. f. Undertake benthic macroinvertebrate monitoring at all flow proportionate monitoring locations. This will allow for comparison of habitat quality over time. This type of biological data can assist in identifying early stages of habitat change and fluctuations in watershed conditions. One sampling event per year is recommended, to be timed to coincide with previous year's monitoring. g. Undertake fish community surveys at all flow proportionate monitoring locations. This will allow for comparison of habitat quality over time. This type of biological data can assist in identifying early stages of habitat change and fluctuations in watershed conditions. One sampling event per year is recommended, to be timed to coincide with previous year's monitoring. 3. Establish non-flow proportionate monitoring sites at the below listed locations, where EMCs have been established through previous monitoring efforts: a. 2018 SWM Monitoring Program (six sites): MG1, SC1, SR2, SM1, SC-9, SB2 4. At each non-flow proportionate monitoring location, water quality monitoring is recommended to consist of the following: Draft Document – For Discussion Only – Final Version May Differ From Draft 2- 13 GHD | 2017 Stormwater Management Monitoring Program | 11139676 (2) | Page vii a. Undertake a minimum of three dry-weather sampling events at each monitoring location with one event in each of Spring, Summer, and Fall. Dry-weather sampling is undertaken through grab samples to provide an indication of failing infrastructure or contamination due to spills upstream. One dry weather sample is to be timed to coincide with the benthic macroinvertebrate sampling (see b below). b. Undertake benthic macroinvertebrate monitoring at each monitoring location. This will allow for comparison of habitat quality over time. This type of biological data can assist in identifying early stages of habitat change and fluctuations in watershed conditions. One sampling event per year is recommended, to be timed to coincide with previous year's monitoring. 5. All dry-weather sampling events should be conducted on days when no rain has been received during the previous 48 hours (minimum). 6. Discrete field water quality measurements should be collected coinciding with all grab sampling events. At minimum, the following parameters should be collected: pH, Temperature, Dissolved Oxygen and Conductivity. 7. All analytical samples should be sent to an accredited laboratory to maintain consistency between historical analysis and lab detection limits. Sampling parameters should remain the same and consist of: Chloride, Nitrate, Metals (Copper, Lead and Zinc), Total and Dissolved Phosphorus, TSS and hardness. 8. Water quality results should be evaluated on an ordinal scale (days 1-365). Wet vs. dry results may have less impact than seasonal trends; otherwise seasonal trends are not obvious. 9. Locations of autosamplers should be identified at minimum two (2) years prior to installation. This would allow for flow monitoring to be conducted and rating curves to be created one (1) year in advance of installation. Having a completed rating curve equation will simplify the installation process and allow for greater autosampler accuracy across all sampling seasons. Additional maintenance flow measurements could be included during the monitoring program to further ensure rating curve accuracy. Prior to commencement of the 2018 monitoring program, the 2019 EMC stations should be confirmed to permit rating curve development during the 2018 season. 10. Standardized biological sampling protocols (Ontario Benthos Biomonitoring Network Protocol and Ontario Stream Assessment Protocol) should continue to be used to assess benthic macroinvertebrates as well as fish community surveys. Consideration for the adoption of the BioMAP Water Quality Index for benthic macroinvertebrate analysis is recommended, which would involve the collection of quantitative serber samples in place of two of the qualitative kick- and-sweep samples currently collected (i.e., two serber samples and one kick-and-sweep sample for BioMAP, versus three kick-and-sweep samples collected currently). BioMAP would allow the objective characterization of watercourse health using a metric developed specifically for Ontario watercourses. a. Fish samples should continue to be analyzed by watercourse to produce a comprehensive fish species inventory within the site, characterize the fish community and provide a Draft Document – For Discussion Only – Final Version May Differ From Draft 2- 14 GHD | 2017 Stormwater Management Monitoring Program | 11139676 (2) | Page viii qualitative assessment of species abundance to compare to historical monitoring efforts. The following indices should be analyzed: # Fish Collected Species Richness % Tolerant Species % Intolerant Species 2 # Fish Collected / 100 m b. Benthic samples should continue to be analyzed by watercourse using a multimetric approach including the following indices: % Collector-Filterer Taxa Richness % Collector-Gatherer % EPT Number of EPT Families % Scraper % Oligochaeta % Shredder % Clinger % Diptera Shannon's Diversity Index % Chironomidae % Dominants Hilsenhoff's Biotic Index (HBI) % Predators Draft Document – For Discussion Only – Final Version May Differ From Draft 2- 15 GHD | 2017 Stormwater Management Monitoring Program | 11139676 (2) | Page ix - 2- 16 - - - - 2- 17 - - - - 2- 18 - - - 2- 19 - 2- 20 - - - - 2- 21 - - --- -- -- 2- 22 Five-Year Stormwater Report Card (2011 to 2015) 2015 Technical Report City of Kitchener GHD| 651 Colby Drive Waterloo Ontario N2V 1C2Canada 11148139|100 | Report No 1 |February26 2018 2- 23 Executive Summary Introduction In 2001, the City of Kitchener completed the Kitchener Stormwater Management Policy Development Study to develop a Stormwater Management MasterPlan.The intent of the master plan was to guide the location, design, and implementation of future stormwater management measures. As a result, the Kitchener Stormwater Management Policy (#I-1135) was developed, including a report detailing the existing stormwater management (SWM) infrastructure.As a result of the SWMplan, a city wide monitoring plan was developed and initiated in 2002 as part of a process to evaluate the effectiveness of the SWM approach. Since 2002, theSWM Monitoring Program has been used to establish baseline data to allow for water quality characterizationof the City’s watercourses, as well as assist in the identification of SWM issuesthat may occur, such as erosion, sedimentation, SWM pond failures, etc.The program includes the collection of comparable data from a set of core stations through grab sampling and/or auto-sampling for chemical analysis, benthic and fish sampling, continuous depth and temperature monitoring, and flow monitoring. Starting in 2006, watershed report cards covering a five-year period have been developed to provide the City with an idea of overall stream health based on the results of the annual SWM Monitoring Program. The report cards also provide the City a means for public awareness and education of SWM. The overall health of watersheds in Kitchener was recently evaluated in the Integrated Stormwater Management Master Plan (ISWM-MP) Municipal Class Environmental Assessment(EA) completed in 2016. This document replaced the 2001 SWM Policy Study (#I-1135) as over time, the policy no longer aligned with changing industry practices and changes in federal, provincial, regional, and local policies. The purpose of the ISWM-MP is to address existing urban areas of the City and recommend measures to improve overall environmental performance, increase efficiencies, and reduce costs. The annual SWM Monitoring Program will continue under the 2016 ISWM-MP, centered around the priority watersheds identified in the Master Plan. Description of Parameters Consistent with previous report card assessments, four parameters were evaluated to quantify and identify the effectiveness of the City’s current SWM strategy. These parameters include the evaluation of physical, chemical andbiological conditions of the streams within the City’s boundary including the effectiveness of SWM treatment provided by existing infrastructure. Physical In previous report card assessments, physical indicators of water quality included riparian cover (i.e.,vegetation on streambanks) and erosion in streams and along streambanks. For the 2015 2- 24 assessment, erosion was not included in the physical assessment as field verified data was not available for evaluation. Riparian Cover Riparian cover has various benefits to ecosystem health within streams, especially in urban environments. Specifically, vegetation along streambanks increases bank stability, filters out excess nutrients, reduces suspended solids, provides shading from the sun which decreases in-stream water temperatures, and provides fish habitat and cover for aquatic species. The same ratings for riparian cover used in the 2010 report card were utilized for the 2015 assessment; however, a more systematic approach utilizing remote sensing was taken to determine riparian cover.This new approach was selectedto: remove subjectivity from a user’s interpretation of riparian areas based on air photos(instead relying on sensors), create a repeatable workflow for riparian analyses conducted in subsequent years allowing for easier temporal comparison, and increase the overall efficiency of the entire riparian analysis. Chemical To assess the water quality of the streams within Kitchener, the chemical analysis results of water samples collected as part of the annual SWM Monitoring Programwere evaluated. The Water Quality Indexdeveloped by the Canadian Council of Ministers of the Environmentwas used as a comprehensive indicator of water quality. Eight parameters were selected to best represent the impacts on receiving stream systems while the standard values selected are intended to protect human and ecosystem health and identify the effectiveness of SWM practices. Consistent with previous assessments, only stations where three or more years of data collected during the five-year reporting period were analyzed. Biological As part of the SWM monitoring program, both fish and benthic macroinvertebrate sampling were conducted to characterize the biological conditions of streams as both are good indicators of water quality over time. Although three metrics are available for biological evaluation (number of fish species, indicator fish species, and Hilsenhoff Biotic Index \[HBI\]), the HBI values are given the greatest weight as this metric is a direct quantitative calculation based on aquatic invertebrate data. Benthic macroinvertebrates are more sensitive to changes in water quality than fish, and are therefore more useful in characterizing the quality of a certain section of watercourse. The number of fish species and the presence of indicator fish species are an indirect qualitative indicator. For the 2015 assessment, the biological rating for each station is based onthe average HBI rating over the five-year period. Stormwater Treatment To characterize the effect of stormwater treatment on stream water quality, the following two measures have been evaluated: drainage area treated by City-owned SWM ponds and type of stream channel (i.e.,natural or naturalized versus straightened and/or hardened). 2- 25 Treated Area (Quality) The historical goal of the City’s SWM strategy was to increase the areas within Kitchener that are treated for water quality by end-of-pipe measures (i.e.,SWM facilities). Although this policy has been updated in the City’s 2016 Integrated Stormwater Management Master Plan to focus on treatment of stormwater at the source, reflecting current best practices, for the purpose of the 2011 to 2015 SWM Report Card, an assessment of treated areas is still conducted. The purpose of these end-of-pipe measures are to provide treatment for collected run-off at the end of a conveyance system prior to discharge to a receiving watercourse. The following measures have been identified to ensure the effectiveness of existing SWM infrastructure for the improvement of surface water quality: proper maintenance of OGS units and catch basins, sediment removal from existing SWM facilities, increase the number of planned SWM retrofits (i.e.,improve or enhance water quality, quantity and erosion control performance), and identify areas where new SWM facilities can be implemented to increase the areas receiving stormwater treatment. For this assessment, a review of the SWM facilities (including both ponds and OGS units) owned by the City was completed. The same rating system used in the 2010 report card was used for the 2015 assessment which allows for a rating comparison. Channel Type Another goal of the City’s SWM strategy is to enhance and restore natural features and functions through promoting channel naturalization and reduce the length of channelized and concrete-lined streams in Kitchener through rehabilitation. When streams are altered from their natural form (i.e.,straightened or hardened with concrete), the potential for erosion downstream increases, and the quality of aquatic habitat in the stream degrades. Stream restoration using natural channel design and riparian zone naturalization improves surface water quality, improves aquatic health and habitat conditions, and moderates in-stream temperatures. The channel type ratings used in the 2010 report card assessment were also used for the 2015 assessment where watersheds with predominantly natural/mixed or rehabilitated channels scored higher while watersheds with predominantly channelized and concrete channels scored lower. Conclusions The results of the 2015 report card assessment generally align with the 2010 results. The overall chemical water quality rating of creeks currently being monitored under the Annual SWM Monitoring Program is Poor. This level of water quality is evident especially in wet weather events and is most likely attributed to little to no stormwater quality treatment in the subwatersheds assessed. Ofthe ten subwatersheds assessed, only five monitored during the Annual SWM Monitoring Program had results for more than three years: Montgomery Creek, Strasburg Creek, Idlewood Creek, Sandrock Creek, and Kolb Creek. During dry weather monitoring events, only Strasburg Creek and Sandrock Creek had ratings that remained unchanged from 2010 while decreases were observed for Montgomery Creek(restoration activities planned for 2020), Idlewood Creek (restoration activities planned for 2018-2019), and Kolb Creek.Noimprovements for dry events were observed from 2010 to 2015. For wet weather monitoring events, the rating for all five creeks remained unchanged from 2010 to 2015. 2- 26 The biological water quality ratings are almost evenly split between Fair and Marginal,which indicates a better overall water quality rating when compared to the chemical rating. All ten subwatersheds assessed included biological monitoring from 2011 to 2015. The ratings remained unchanged from 2010 to 2015 for Schneider Creek (Fair), HenrySturm Greenway (Fair/Marginal), Montgomery Creek (Marginal), Strasburg Creek (SB13 Marginal), and Sandrock Creek (Marginal). The biological rating decreased from 2010 to 2015 for Strasburg Creek (SB2 Fair to Marginal) and Idlewood Creek (IW1 Fair to Marginal). One biological rating improvement was observed for Kolb Creek at KD1 from Marginal to Fair. Over the five-year period of 2011 to 2015, most stations monitored had an average of six or fewer fish species present, with the majority of fish communities being dominated by tolerant species. Although Kolb Creek had a chemical water quality rating of Poor and biological water quality rating of Fair, it had the most diverse fish community with over tenspecies identified in 2012 and over seven species identified in 2011 and 2015. Shoemaker Creek was the least diverse fishcommunity with zero species observed in 2014 and 2015; however, the biological water quality rating for Shoemaker Creek is Fair. All creeks, with the exception of Strasburg Creek, Idlewood Creek, Sandrock Creek, and Kolb Creek had a riparian cover rating of Marginal, with Strasburg Creek, Idlewood Creek, and Kolb Creek exhibiting Fair riparian cover ratings and Sandrock a Poor rating. The ratings within the subwatersheds indicates an opportunity for improvement, especially during future creek rehabilitation projects. Increased riparian cover can improve both water quality and ecological habitat for both benthic macroinvertebrates and fish. The ratings for areas treatedby SWM facilities within the subwatersheds indicates two different types of opportunities: opportunities to target SWM retrofit projects in those subwatersheds with low amounts of treated areas; and opportunities to focus maintenance and facility upgrades in those subwatersheds with high amounts of treated areas, to ensure no deterioration of existing SWM facilities occurs. The subwatershed with the highest percentage of quality treated area was School Creek; however this subwatershed was not included in the 2015 assessment. Of thesubwatersheds assessed in 2015, the combined Strasburg Creek (specifically North Strasburg Creek) had the highest percentage of quality treated area at 17% while Balzer Creek, Shoemaker Creek, and Montgomery Creek had the lowest at 0% for all three subwatersheds.Note that the treated areas for the City’s oil-grit separators were not available at the time of this Report Card, but would contribute to the overall water quality treatment areas. The rating for channel typewas the most varied parameter throughout the watershed, varying from Excellent in Kolb Creek, Idlewood Creek, and Strasburg Creek to Poor in Shoemaker Creek. The subwatersheds with an Excellent/Good rating for channel type exhibited Fair/Marginal ratings for riparian cover, which indicates an opportunity to improve riparian cover in “natural/mixed” and “rehabilitated” creek segments. 2- 27 Tableof Contents 1.Introduction...................................................................................................................................1 1.1Program Background.........................................................................................................1 1.1.1Kitchener Stormwater Policy Development......................................................1 1.1.2Kitchener Stormwater Report Card..................................................................2 1.2Existing Data......................................................................................................................2 1.3Parameter Descriptions.....................................................................................................5 1.3.1Physical............................................................................................................5 1.3.2Chemical...........................................................................................................8 1.3.3Biological........................................................................................................11 1.3.4Stormwater Treatment....................................................................................13 2.Summary of Parameter Ratings................................................................................................. 16 2.1Schneider Creek..............................................................................................................16 2.2Balzer Creek....................................................................................................................17 2.3Shoemaker Creek............................................................................................................18 2.4Henry Sturm Greenway...................................................................................................21 2.5Montgomery Creek..........................................................................................................23 2.6Strasburg Creek...............................................................................................................25 2.7Idlewood Creek................................................................................................................28 2.8Sandrock Greenway........................................................................................................30 2.9Kolb Creek.......................................................................................................................32 2.10East Creek (Hidden Valley)..............................................................................................34 3.Conclusions and Recommendations..........................................................................................36 3.1Conclusions.....................................................................................................................36 3.1.1Physical..........................................................................................................36 3.1.2Chemical.........................................................................................................36 3.1.3Biological........................................................................................................36 3.1.4Stormwater Treatment....................................................................................37 3.2Recommendations...........................................................................................................37 4.References................................................................................................................................. 38 FigureIndex Figure1.12011 – 2015 Monitoring Locations.................................................................................... 3 Figure1.2Existing Stormwater Facility Locations.............................................................................. 4 Figure1.3Physical Properties............................................................................................................ 7 Figure1.4Chemical Properties........................................................................................................10 2- 28 FigureIndex Figure1.5Biological Properties........................................................................................................12 Figure1.6Stormwater Management Drainage Areas......................................................................15 Figure2.1Schneider Creek, Balzer Creek & Shoemaker Creek.....................................................20 Figure2.2Henry Sturm Creek.......................................................................................................... 22 Figure2.3Montgomery Creek..........................................................................................................24 Figure2.4Strasburg Creek..............................................................................................................27 Figure2.5 Idlewood Creek................................................................................................................29 Figure2.6Sandrock Greenway........................................................................................................31 Figure2.7Kolb Creek.......................................................................................................................33 Figure2.8East Creek (Hidden Valley).............................................................................................35 TableIndex Table1.1 Riparian Cover Ratings..................................................................................................... 5 Table1.2 Water Quality Index Ratings.............................................................................................. 8 Table1.3 WaterQuality Standards................................................................................................... 8 Table1.4 Biological Ratings............................................................................................................11 Table1.5 Summary of Active SWM Facilities..................................................................................13 Table1.6 Stormwater Treatment Ratings........................................................................................14 Table1.7 Channel Type Ratings.....................................................................................................14 Table2.1Subwatershed Overview..................................................................................................16 Table2.2 Schneider Creek Overall Ratings....................................................................................17 Table2.3 Balzer Creek Overall Ratings..........................................................................................18 Table2.4 Shoemaker Creek Overall Ratings..................................................................................19 Table2.5 Henry Sturm Greenway Overall Ratings.........................................................................21 Table2.6 Montgomery Creek Overall Ratings................................................................................23 Table2.7 Strasburg Creek Overall Ratings.....................................................................................25 Table2.8 Idlewood Creek Overall Ratings......................................................................................28 Table2.9 Sandrock Greenway Overall Ratings..............................................................................30 Table2.10Kolb Creek Overall Ratings.............................................................................................32 Table2.11East Side - Hidden Valley Creek Overall Ratings...........................................................34 2- 29 TableIndex(following text) Table 1 Summary of Monitoring Stations (2011 to 2015) 2- 30 1.Introduction 1.1Program Background 1.1.1Kitchener Stormwater Policy Development In 2001, the City of Kitchener completed the Kitchener Stormwater Management Policy Development Study to develop a Stormwater Management MasterPlan.The intent of the master plan was to guide the location, design, and implementationof future stormwater management measures. As a result of the study, the Kitchener Stormwater Management Policy (#I-1135) was developed. This studyalso resulted in a report detailing the existing stormwater management (SWM) infrastructure including SWM ponds (wet ponds, wetlands and dry ponds), Oil-Grit Separators (OGS) and streams.Theprogram assisted the City to manage, monitor and improve SWM within the City. As a result of the SWMplan, a city wide monitoring plan was developed and initiated in 2002 as part of aprocess to evaluate the effectiveness of the SWM approach. This monitoring program focused on surface water quality, as well as invertebrateand fish community sampling (biological), to assess the state ofthe city’s stream water quality. The monitoring program also included continuous temperature and flow monitoring components to provide greater context for the chemical and biological monitoring data. The intent of this program is to establish comparable baseline data to allow for water quality characterization, as well as assist in the identification of SWM issuesthat may occur, such as erosion, sedimentation, SWM pond failures, etc. The overall health of watersheds in Kitchener was recently evaluated in the Integrated Stormwater Management Master Plan (ISWM-MP) Municipal Class Environmental Assessment(EA) completed 2016.This document replaced the 2001 SWM Policy Study (#I-1135) in 2016 asover time, the policy no longer aligned with changing industry practices and changes in federal, provincial, regional, and local policies. The purpose of the ISWM-MP is to address existing urban areas of the City and recommend measures to improve overall environmental performance, increase efficiencies, and reduce costs. A few of the environmental issues identified in the ISWM-MP specific to surface water included: Degradation of surface water quality Increased sediment loads to surface water Thermal enrichment of surface water Loss and degradation of fish and wildlife habitat Increased erosion In the ISWM-MP, watersheds within the City were evaluated and prioritized with Priority1 watersheds were identified as having the greatest need of environment improvement while Priority4 watersheds were identified as closest to natural conditions and therefore had the lowest needfor environmental improvement. 2- 31 1.1.2Kitchener Stormwater Report Card These Report Cards provide the City with an idea of overall stream health based on theresults of the annual SWM Monitoring Program, identify potential improvements to SWM and infrastructure, and provide the City a means for public awareness and education of SWM.Although the annual SWM Monitoring Program evaluates the physical, chemical and biological condition of targeted City creeks, the Report Cards provide an opportunity to look at trends over a longer period of time, incorporating the data from each annual monitoring report. As well, the Report Cards provide an opportunity to distill the large amount of monitoring data down into a format that is clear and accessible for the public. 1.2Existing Data A summary of the stations monitored for this reporting period (2011 to 2015) including the type of sampling completed is presented on Table 1 (located at the end of this report). The locations of the monitoring stations are presented on Figure1.1.Monitoring efforts for the annual SWM Monitoring Programwere completed by Aquafor Beech Ltd. in 2011, 2012, and 2013 and by AECOM in 2014 and 2015.One station (SC1) is part of the Provincial Water Quality Monitoring Network (PWQMN) as station ID16018411702. Data for this station was downloaded from the PWQMN and included in the data set for this report card. Five wet and five dry monitoring events (i.e.,grab samples)were completed each year from 2011 to 2015. Ideally, wet weather samples are collected within 24-hours of a precipitation event of at least 10millimeters in order to capture the first flush of pollutants on the rising limb of the hydrograph. Dry weather sampling is conducted with a minimum of three days without precipitation and ideally with at least one event per season. As part of the SWM Monitoring Program, various Geographic Information Systems (GIS) datafiles have been created and maintained by the City. The following datafiles were provided for use in this report card: SWM facility locations (City and private owned, including quality and/or quality treatment and wet/dry pond) Oil/grit Separator (OGS) locations (City and private owned) SWM facility and stream subwatersheds (i.e.,drainage areas) Location of streams and tributaries and channel type Only City-owned SWM facilities were included in this assessment. City-owned SWM facilities and OGS locations are presented on Figure1.2. No field studies were completed as part of this assessment therefore physical characteristics such as riparian cover and stream channel type are limited to desktop review of existing GIS datafiles. It should also be noted that erosion was not included as part of this assessment as it has been in previous report cards, since annual assessment of erosion sites in City creeks was discontinued; instead, erosion assessments will be completed every three to four years moving forward. Aerial photographs were used to identify riparian cover provided to stream corridors. 2- 32 KD1 ! . HS1 IW1 ! . !. HS3 !. SM1 ! . SR2 !. MG1 ! . BZ1 HV1 ! . !. SC4 !. SB13 ! . SC1 ! . SB2 ! . SC2 !. StationSubwatershed BZ1Balzer Creek HS1Henry Sturm HS3Henry Sturm HV1Hidden Valley Creek IW1Idlewood Creek KD1Kolb Creek MG1Montgomery Creek SB13Strasburg Creek SB2Strasburg Creek Legend SC1Schneider Creek Monitoring Station !. SC2Schneider Creek Watercourse SC4Schneider Creek SM1Shoemaker Creek Kitchener Roads SR2Sandrock Greenway City of Kitchener Boundary Source: City of Kitchener, 2017. CITY OF KITCHENER 11148139-100 06001,2001,800 5 YEAR STORMWATER REPORT CARD Sep 28, 2017 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N 2011 - 2015 MONITORING LOCATIONS FIGURE 1.1 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES001\\11148139-100(PRES001)GIS-WA001.mxd 2- 33 MELTZER CREEK 87 86 !( !( !( UNNAMED 17 !( CATCHMENT 1 !( 29 105 143 !( 126 106 !( !( !( !( !( !( !(!( !( !( !( !( !(181 LAUREL CREEK !( 43 6 45 44 !( 119 !( !( KOLB CREEK !( !( !( 85 !( 84 !( !( !( !( !( 10180 WESTMOUNT !(!(112 118 !( CREEK 7 LAUREL IDLEWOOD !(11!( !(!( !( 144 8 CREEK !(CREEK !(!( !( !(!(67 41 125 !( 113 19 46 !( 42 !( 37 HENRY !( !(36 !( !( STURM !( 127 102 CREEK 12 !(2123 MONTGOMERY !( UPPER 30 CREEK!( 22 !(SCHNEIDER 1 68 CREEK !( !( 70!( SHOEMAKER !( 124!( 138 CREEK 20 !( DETWEILER 24 120 93 CREEK !( 60 !(!(!( 32!( 49 33 7634 !( !( !( VOISIN CREEK 71 77 !( !( !(!( !( !( !( !(!( MIDDLE !( !(!(!( !( !( !( SCHNEIDER !( !( !( !( CREEK !( 108 !( !( !( 121 116!( !( !( SANDROCK !(!( 175 CREEK !( 26 133 21 !(EAST SIDE !(88 !( !( 182 !( !( LOWER 136!( 3 39 13 SCHNEIDER 4!( !( BALZER CREEK!( !( 176 131 !( !( CREEK 40 25 179 51 50 94 UNNAMED 5 47 !( !( CATCHMENT 2 48 BORDEN CREEK!( !(!( 54 !( !( 9675 95!( 97 157!(!( !( !( !( 147 28 !( 159 !(!( !( 107 !(!( !(NORTH !( !( 115 !( 6553 STRASBURG !( !( !( 62 111 CREEK 74 !( !( 55 !( UNNAMED !(!( 63 169 153 61 !(!( MIDDLE 56 CATCHMENT 3 174 !( 66 STRASBURG 100 64 23 !( 109!( !( !( 57!( CREEK 58 168 152 134 14 117 101 !( !( 178 !( 78 15177!( 59 16 80 99 151 18 STRASBURG 135 SCHOOL 15679 69 161 81!( 114 CREEK CREEK 154 148 145 82 172 158150 73 DOON 122 167 72 166 52!( 83 SOUTH CREEK 146 ALDER CREEK 139 !( 160 155 !(!( 149 !( !( 163 170 165 BLAIR CREEK 173 164 162 171 CEDAR CREEK UNNAMED CATCHMENT 4 Legend !(OGS Watercourse Kitchener Roads 139 SWM Facility (ID labeled) Subwatersheds (GRCA) City of Kitchener Boundary Source: City of Kitchener, GRCA, 2017. CITY OF KITCHENER 11148139-100 06001,2001,800 5 YEAR STORMWATER REPORT CARD Oct 12, 2017 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N EXISTING STORMWATER FACILITY LOCATIONS FIGURE 1.2 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES001\\11148139-100(PRES001)GIS-WA002.mxd 2- 34 1.3Parameter Descriptions Consistent with previous report card assessments, four parameters were evaluated to quantify and identify the effectiveness of the City’s current SWM strategy. These parameters include the evaluation of physical, chemical, andbiological conditions of the streams within the City’s boundary including the effectiveness of SWM treatment provided by existing infrastructure. 1.3.1Physical In previous report card assessments, physical indicators of water quality included riparian cover (i.e.,vegetation on streambanks) and erosion in streams and along streambanks. For this assessment, erosion was not included in the physical assessment as field verified data was not available for evaluation. Ripariancover has various benefits to ecosystem health within streams, especially in urban environments, as it provides the following: Vegetation along streambanks increases bank stability and therefore can reduce erosion Vegetation can filter out excess nutrients and reduce suspended solids Shading from the sun provided by vegetation decreases in-stream water temperatures, especially during summer months In-stream roots and over-hanging canopy can provide fish habitat and cover for fish and other organisms Organic debris can provide energy inputs Impacts of SWM on receiving streams includes increased water temperature and increased potential for erosion. Increasing riparian cover can be implemented to address these concerns and improve ecosystem health, especiallyalong smaller systems (i.e.,less than third-order streams) (Environment Canada, 2013). The ratings for riparian cover are summarized in Table1.1. In the 2010 report card, AECOM identified that in Environment Canada’s publication of How Much Habitat is Enough?that stream degradation occurs when riparian cover falls below 75% along streams. The most recent publication of this document also states that a riparian and watershed habitat guideline of 75% of stream length should be naturally vegetated (Environment Canada, 2013). This rationale was used for the ratings selected in Table1.5 which were agreed upon through discussions between the City and AECOM. Table 1.1 Riparian Cover Ratings Percent CoverageRating 75–100%Excellent 55–74%Good 40–54%Fair 20–39%Marginal 0–19%Poor 2- 35 For the 2015 report card, a more systematic approach utilizing remote sensing was taken to determine riparian cover.This new approach was chosen to: Remove subjectivity from a user’s interpretation of riparian areas based on air photos(instead relying on sensors) Create a repeatable workflow for riparian analyses conducted in subsequent years allowing for easier temporal comparison Increase the overall efficiency of the entire riparian analysis Sentinel-2 multispectral imagery, part of the European Space Agency’s Copernicus Programme, was utilized for the riparian cover analysis due to its easy accessibility, frequent revisit time, high resolution open data product (10m pixel resolution – compare with Landsat imagery at 30 m (metre) pixel resolution), and multispectral bands (specifically the presence of blue, green, red, and near-infrared bands).An August 8, 2016 image was chosen for the riparian cover analysis for two reasons: the Sentinel-2 Programme launched in late 2015 and no late-2015 image available was suitable, and secondly this was the first mid-summer image in 2016 that was cloud free across the study area (mid-summer desirable due to the presenceof mature healthy foliage, important for image classification).The imagery was then subjected to a maximum likelihood classifier algorithm that utilized the blue, green, red, and near-infrared bands, as well as training points chosen from the imagery to create three classes of pixels: dense/treed vegetation, grass/fields, and asphalt/buildings/bare earth/open water.Visual inspections were made throughout the City’s urban and rural landscapes to verify the quality of the imageclassification.Scores were assigned to each class based on their relative impact on riparian health: dense/treed vegetation = 1.0 and grass/fields/asphalt/buildings/bare earth/open water = 0.Next, 30m lines were created perpendicular to the City’s linear stream reach data (bothsides of the stream) at 5 m intervals along the length of the stream network. The perpendicular lines were then cut into pieces matching the aforementioned class boundaries they intersected.The length of these class pieces, multiplied by the class score anddivided by the original line length resulted in an overall score ranging between 0.0 and 1.0. Example: A 30m perpendicular line (60m total length on both sides of the stream) crossing through nothing but 100% dense/treed vegetation would receive a scoreof 1.0 \[60m * 1.0/60m = 1.0\], whereas a perpendicular line crossing through 50% dense/treed vegetation and 50% grass/field/asphalt/building/bare earth/water would receive a score of 0.5 (\[30m * 1.0 / 60\] + \[30m * 0 / 60\] = 0.5). These perpendicular linescores were generated for every 5 m segment along the City’s stream reach network and were subjected to the same Riparian ratings utilized in the 2010 report card. The physical ratings for each stream in Kitchener are presented and discussed further in Section2.0 and are summarized on Figure1.3. 2- 36 MELTZER CREEK LAUREL CREEK KOLB CREEK WESTMOUNT DRAIN HENRY STURM GREENWAYIDLEWOOD MONTGOMERY CREEK CREEK VOISIN GREENWAY DETWEILER GREENWAY SANDROCK GREENWAY BORDEN GREENWAY BALZER GREENWAY N. STRASBURG CREEK SCHNEIDER CREEK MIDDLE STRASBURG CREEK DOON STRASBURG SOUTH CREEK CREEK BLAIR CREEK Legend Kitchener Roads Riparian Cover Rating (% Cover) Excellent (75-100) Good (55-75) Fair (40-55) Marginal (20-40) Poor (0-20) Source: City of Kitchener, GRCA, 2017. CITY OF KITCHENER 11148139-100 06001,2001,800 5 YEAR STORMWATER REPORT CARD Feb 26, 2018 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N PHYSICAL PROPERTIES FIGURE 1.3 2- 37 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES003\\11148139-100(PRES003)GIS-WA003.mxd 1.3.2Chemical To assess the water quality of the streams within Kitchener, the chemical analysis (including E. Coli) results of water samples collectedas part of the annual SWM Monitoring Programwere evaluated. Similar to the report card assessment completed in 2010, the Water Quality Index (WQI) developed by the Canadian Council of Ministers of the Environment (CCME) was used as a comprehensive indicator of water quality. The WQI is based on a formula that incorporates scope (number of variables not meeting water quality objectives), frequency (number of times objectives are not met), and amplitude (amount by which objectives are not met) to evaluate water quality. A ratingis produced between 0 (worst water quality) and 100 (best water quality). The WQI can be used to track changes at a specific site over time and also allows for comparison to other sites, as long as the sites havethe same variables and objectives used. A minimum monitoring period of one year is recommendedwith a minimum of four variables (i.e.,parameters) sampled at least four times per year(no maximum is specified). Data from multiple years can be combined, however, the WQI indicates that some degree of variability can be lost. The WQI ratings identified in the CCME Water Quality Index 1.0 User’s Manual (CCME, 2001) are summarized in Table1.2. Table 1.2 Water Quality Index Ratings WRI ScoreRating 95–100Excellent 80–94Good 65–79Fair 45–64Marginal 0–44Poor Which and how many variables to include in a WQI calculation is at the discretion of the user. Therefore, in 2006 the City, AECOM, and Grand River Conservation Authority (GRCA) selected the parameters outlined in Table1.3to include in WQI calculations. Theparameters were selected to best represent the impacts of SWM on receiving stream systems while the standard values selected are intended to protect human and ecosystem health and identify the effectiveness of SWM practices.It should be noted that since the 2010 report card, some Provincial Water Quality Objectives (PWQO) have been updated. Table 1.3 Water Quality Standards ParameterStandardUnitsStandard Choice Parameter Choice Chloride -Dissolved250mg/LImpact of road CWQG for drinking salt applicationwater E. coli 1200CFU/100mLImpact of human Half the sewer use th and animal bylaw limit and 75 wastepercentile of dry weather flow values Copper -Total0.005mg/LPWQO Metal indicating industrial impacts 2- 38 Table 1.3 Water Quality Standards ParameterStandardUnitsStandard Choice Parameter Choice Lead -Total0.005mg/LPWQO Metal indicating industrial impacts Zinc –Total0.02mg/LMetal indicating PWQO industrial impacts 25mg/L Total Suspended Standard SWM CCME –2002 Solidsefficacy Guideline for the parameter Protection of Aquatic (MOE, 2003)Life 0.03mg/L Phosphorus –Total Nutrient PWQO –For Dissolvedindicating impact excessive plant on ecosystemgrowth Nitrate2.9mg/LNutrient CESI –2008 Initiative indicating impact on ecosystem Notes: CCME – Canadian Council of Ministers of the Environment CESI – Canadian Environmental Sustainability Indicators CWQG – Canadian Water Quality Guidelines PWQO –Provincial Water Quality Objectives As noted in the 2010 report card assessment, the standard selected for E.coliis not based on a guideline or objective; however, two standards currently exist in Ontario: 0CFU/100mL for drinking water and 100CFU/100mL for recreation activities. The streams in Kitchener do not meet either of these criteria therefore neither of the Ontario standards are applicable. The standard value of 1200CFU/100mL was determined by AECOMbased on the Cityof Kitchener’s Sewer Use Bylaw (Article6) which limits coliform counts in storm sewage released to 2400CFU/100mL. AECOM rationalized that a system should be expected to yield wet weather water quality values (caused by stormwater entering a stream) that are comparable to dry weather water quality values. The value nd of 1200CFU/100mL matched the 82percentile of dry weather flow values measured from 2002 nd percentile of dry weather flows to 2006. Although a value of 1700CFU/100mL matched the 82 th measured from 2011 to 2015 (1200CFU/100mL matched the 75percentile), the standard value of 1200CFU/100 mL was retained for this assessment to allow for comparison to previous report card assessments. As per the 2010 report card, only stations where three or more years of data collected during the five-year reporting period were analyzed. The chemicalratings for wet and dry sampling events for each stream in Kitchener are presented and discussed further in Section2.0and are summarized on Figure1.4. 2- 39 MELTZER CREEK LAUREL CREEK KD1 KOLB CREEK NO WESTMOUNT DRAIN IW1 IDLEWOOD O N CREEK HENRY STURM GREENWAY MONTGOMERY CREEK SR2 MG1 DETWEILER O N GREENWAY VOISIN GREENWAY O N SANDROCK GREENWAY BALZER GREENWAY BORDEN GREENWAY SCHNEIDER SB13 CREEK N. STRASBURG CREEK O N SC1 MIDDLE SB2 NO STRASBURG CREEK O N STRASBURG CREEK DOON SOUTH CREEK BLAIR CREEK Legend Kitchener Roads Dry Wet Chemical Properties Excellent !( Good !( Fair !( Marginal !( Poor !( Source: City of Kitchener, GRCA, 2017. CITY OF KITCHENER 11148139-100 06001,2001,800 5 YEAR STORMWATER REPORT CARD Feb 26, 2018 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N CHEMICAL PROPERTIES FIGURE 1.4 2- 40 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES003\\11148139-100(PRES003)GIS-WA001.mxd 1.3.3Biological As part of the SWM Monitoring Program, both fish and benthic macroinvertebrate sampling were conducted to characterize the biological conditions of streams as both are good indicators of water quality over time. Although three metrics are available for biological evaluation (number of fish species, indicator fish species, and Hilsenhoff Biotic Index \[HBI\]), the HBI values are given the greatest weight as this metric is a direct quantitative calculationbased on aquatic invertebrate data. Benthic macroinvertebrates are lower on the food chain and are more sensitive to changes in water quality than fish. The number of fish species and the presence of indicator fish species are an indirect qualitative indicator. For this assessment, the biological rating for each station is based on the average HBI rating over the five-year period. The biological ratings are summarized in Table1.4. Table 1.4 Biological Ratings Mean HBIRating 0.00 –3.50Excellent 3.51 –5.50Good 5.51 –6.50Fair 6.51 –7.50Marginal 7.51 –8.50Poor The biological ratings for each stream in Kitchener are presented and discussed further in Section2.0and are summarized on Figure1.5. It should be noted that six of the thirteen stations monitored from 2011 to 2015 had only one year of benthic macroinvertebrate data. 2- 41 MELTZER CREEK LAUREL CREEK KOLB CREEK 4 !( WESTMOUNT DRAIN 2 1 IDLEWOOD !( !( CREEK 1 MONTGOMERY !( CREEK HENRY STURM GREENWAY 2 !( 5 DETWEILER !( 5 !( GREENWAY VOISIN GREENWAY SANDROCK GREENWAY BORDEN 1 1 GREENWAY!( !( BALZER GREENWAY 1 !( SCHNEIDER N. STRASBURG CREEK 5 CREEK !( MIDDLE 0 3 !( STRASBURG 5 !( CREEK 1 !( STRASBURG CREEK DOON SOUTH CREEK BLAIR CREEK Legend Kitchener Roads Biological Properties Excellent !( Good !( Fair !( Marginal !( Poor !( 3 Years of Monitoring !( Source: City of Kitchener, GRCA, 2017. CITY OF KITCHENER 11148139-100 06001,2001,800 5 YEAR STORMWATER REPORT CARD Feb 26, 2018 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N BIOLOGICAL PROPERTIES FIGURE 1.5 2- 42 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES003\\11148139-100(PRES003)GIS-WA002.mxd 1.3.4Stormwater Treatment The overall goal of the City’s2001SWM strategy was to increase the area within Kitchener that are treated for water qualityby end-of-pipe measures (i.e.,SWM facilities).The purpose of these end-of-pipe measures are to provide treatment for collected run-off at the end of a conveyance system prior to discharge to a receiving watercourse. The 2001 SWM strategy has been replaced by the2016ISWM-MPImplementation Plan, whichidentifiedthe following approaches to ensure the effectivenessof existing SWM infrastructurefor the improvement of surface water quality: Proper maintenance such ascleanouts of OGS units and catch basins andsediment removal from existing SWM facilities Increase the number of plannedSWM retrofits to improve or enhance water quality, quantity and erosion control performance. Identify areas where new SWM facilities can be implemented in combination with park rehabilitations to increase the areas of stormwater treatment To characterize the effect of stormwater treatment on stream water quality, the following two measures have been historically evaluated: Drainage area treated by City-owned SWM ponds Type of stream channel (i.e.,natural/naturalized versus straightened and/or hardened) For this assessment, a review of the SWM facilities (including both ponds and OGS units) owned by the City was completed. The SWM ponds and associated drainage areas were provided in the GIS datafiles along with the locations of OGS units within the City; however, the associated drainage areas for the OGS units was not provided. Based on the information provided, the total number of active SWM facilities in Kitchener as of March 2017 are summarized inTable1.5. Table 1.5 Summary of Active SWM Facilities Type of SWM FacilityTotalOwnership (1) SWM Pond144120City 22Developer 2Other OGS16572City 85Private 8Region Notes: (1) Of the 120 SWM ponds owned by the City, 111 are engineered ponds and 9 are natural ponds functioning as SWM facilities (2) There are currently 17 SWM facilities planned but have not yet been constructed The same rating system used in the 2010 report card was used for this assessment which allows for a rating comparison to the 2010 report card. The rating system for stormwater treatment is presented in Table 1.6. 2- 43 Table 1.6 Stormwater Treatment Ratings Rating Percent AreaTreated by City Owned Stormwater Ponds (Quality) 75–100%Excellent 55–74%Good 40–54%Fair 20–39%Marginal 0–19%Poor Another goalof the City’s SWM strategyis toenhance and restore natural features and functions throughpromotingchannel naturalizationand reduce the length of channelized and concrete lined streams in Kitchener through rehabilitation. When streams are altered from their natural form (i.e.,straightened or hardened with concrete), the potential for erosion downstream increases as energy does not dissipate in straightened and hardened channels to the extent that it does in natural channels. Stream restoration using natural channel design and riparian zone naturalization also improves surface water quality, improves aquatic health and habitat conditions, and moderates in-stream temperatures. Channel types were provided in the City supplied GIS datafiles; however, GHD was unable to field verify the classifications as a field study was not part of this assessment. GHD attempted to verify classifications where possible with aerial imagery from 2015. The channel type ratings used in the 2010 report card assessment were also used for this assessment and are presented in Table1.7. Watersheds with predominantly natural/mixed or rehabilitated channels scored higher while watersheds with predominantly channelized and concrete channels scored lower. Table 1.7 Channel Type Ratings Percent Stream Length ImpactedRating 0–19%Excellent 20–39%Good 40–54%Fair 55–74%Marginal 75–100%Poor The stormwater treatment ratings for each stream in Kitchener are presented and discussed further in Section2.0.The existing SWM drainage areas and stream classifications (i.e.,natural/mixed, rehabilitated, channelized, concrete) are summarized on Figure1.6. 2- 44 MELTZER CREEK LAUREL CREEK KOLB CREEK WESTMOUNT DRAIN IDLEWOOD CREEK MONTGOMERY HENRY STURM CREEK GREENWAY DETWEILER GREENWAY VOISIN GREENWAY SANDROCK GREENWAY BORDEN GREENWAY BALZER GREENWAY SCHNEIDER N. STRASBURG CREEK CREEK MIDDLE STRASBURG CREEK STRASBURG CREEK DOON SOUTH CREEK BLAIR CREEK Legend Kitchener Roads Creek Classification Natural / Mixed Rehabilitated Channelized Concrete Unknown Existing SWM Area Quality Quantity Quality and Quantity Unknown Source: City of Kitchener, GRCA, 2017. CITY OF KITCHENER 11148139-100 06001,2001,800 5 YEAR STORMWATER REPORT CARD Feb 26, 2018 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N STORMWATER MANAGEMENT DRAINAGE AREAS FIGURE 1.6 2- 45 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES003\\11148139-100(PRES003)GIS-WA004.mxd 2.Summary of Parameter Ratings The overall ratings for each creek are further described in the following sections. It should be noted that only creeks with three or more years of chemical water quality monitoring data for at least one station within the subwatershed are described. A table of overall ratings and a summary figure are provided for each creek.An overview summarizing each watershed discussed is presented in Table2.1. Table 2.1 Subwatershed Overview Watershed NameDrainage Stream No. SWM No. OGS Aquatic Average Area (ha)Length FacilitiesUnitsClassificationNo. Fish (km)Species TotalCityTotalCity Balzer Creek253.62.33220Warm Water4 East Side –Hidden Valley756.26.56422Warm Water6 Henry Sturm Greenway557.05.56442Warm Water2 Idlewood Creek950.611.323875Cold Water3 Kolb Creek1327.28.484203Cold Water7 Montgomery Creek846.34.200134Warm Water5 Sandrock Creek401.02.53100Warm Water4 Upper Schneider Creek725.94.2101510Warm Water- Middle Schneider Creek281.02.210164Warm Water- Lower Schneider Creek809.49.7312111Warm Water5 Shoemaker Creek233.63.61010Warm Water0 Strasburg Creek461.36.813222Cold Water5 North Strasburg Creek416.35.6154113Cold Water- Middle Strasburg Creek673.96.09322Cold Water- 2.1Schneider Creek The most prominent creek in Kitchener is Schneider Creek, a warmwater creek that is fed by several other creeks including Henry Sturm, Westmount Creek, Sandrock, Detweiler, Voisin Creek, Borden Creek, Shoemaker Creek, Balzer Creek, Montgomery Creek, Strasburg Creek, Doon Creek, and School Creek. SchneiderCreek flows through much of Kitchener’s urban center, including the downtown area and Victoria Park, before discharging to the Grand River.The creek has been divided into three subwatersheds: Upper Schneider Creek, Middle Schneider Creek, and Lower SchneiderCreek. Middle Schneider Creek has been identified as a localized groundwater discharge area, specifically portions of the middle reaches. Both the Middle and Lower Schneider Creek subwatersheds have been identified as Priority2 Subwatersheds in the ISWM-MP EA completed in 2016 while the Upper Schneider Creek Subwatershed was identified as Priority1.Portions of the creek have also been identified with having a high to moderate risk for stream erosion and therefore have been identified as potential mitigation opportunities.Lower Schneider Creek has been classified as “natural/mixed” while the majority of Middle Schneider Creek has been classified as “channelized”. Upper Schneider Creek is classified with both “channelized” and“concrete” segments of the creek. 2- 46 Although the primary land use for the three subwatersheds is a mixture of residential and industrial, the majority of the catchmentareas are not controlled for stormwater treatment. Atotal of fiveSWM facilities (one City-owned) and 52OGS units (25City-owned)are located within the Schneider Creek subwatersheds. For the purpose of this assessment, the three subwatershedshave been grouped together as one subwatershed for Schneider Creek; however, it should be noted that the majority of the monitoring from 2011 to 2015 was for the Lower Schneider Creek subwatershed.Overall ratings for Schneider Creek from the 2006, 2010, and 2015 five-year Report Cards are summarized in Table2.2. Table 2.2 Schneider Creek Overall Ratings Parameter2006 Rating2010 Rating2015 Rating Chemical StationSC2SC2SC1SC2SC4 DryMarginalFairMarginaln/an/a WetPoorPoorPoorn/an/a Biological StationSC2SC2SC1SC2SC4 ValueMarginalMarginaln/aFairFair Physical Riparian Covern/aMarginalMarginal Erosionn/aPoorn/a Stormwater Treated Area (Quality)n/aPoorMarginal Channel Typen/aGoodGood For water quality, the chemical rating of Marginal for dry events and Poor for wet events was based on monitoring data collected from 2011 to 2014 at SC1 which is currently monitored as part of the Provincial Water Quality Network (ID16018411702). Compared to previous assessments, the Wet events remained consistent with a chemical rating of Poor while the Dry event rating decreased from Fair to Marginal. It should be noted that monitoring location SC1 is located downstream of SC2 just upstream of the confluence of Schneider Creek with the Grand River. The biological rating for Schneider Creek was based on monitoring data collected from 2011 to 2015 at SC2 andSC4, both of which are located in Lower Schneider Creek in “natural/mixed” segments of the creek. Both monitoring locations had a biological rating of Fair, which for SC2 is an improvement from a rating of Marginal in 2010. The rating for riparian cover was consistent with the2010 Marginal rating. For stormwater, the treated area improved from Poor to Marginal with 38% of the combined subwatersheds receiving quality treatment of stormwater.The channel type rating remained unchanged from 2010 as Good with 32% of the total channel length impacted with a mixtureof channelized and concrete segments. 2.2Balzer Creek Balzer Creek is a warm water creek that runs through the centreportion of the city and is a tributary of Lower Schneider Creek. The watershed has been identified as a localized groundwater discharge 2- 47 area and a Priority2 Subwatershed in the ISWM-MP EA completed in 2016. It has also been identified with having a high to moderate risk for stream erosion and therefore has been identified as a potential mitigation opportunity. The majority of the creek has been classified as “natural/mixed” with a small portionof channelized reaches. A total of threeSWM facilities (two City-owned) and twoOGSunits(zeroCity-owned)are located within the watershed, therefore much of the catchment is not controlled for stormwater quality and/or quantity treatment. Ratings for Balzer Creek were not developed in the 2010 five-year Report Card therefore Table2.3 summarizes only the ratings for 2015. Table 2.3 Balzer Creek Overall Ratings Parameter2015 Rating Chemical StationBZ1 Dryn/a Wetn/a Biological BZ1 Station ValueMarginal Physical Riparian CoverMarginal Erosionn/a Stormwater TreatedArea (Quality)Marginal Channel TypeGood For water quality, only a biological rating for BalzerCreek was determined as no chemical monitoring was conducted from 2011 to 2015 at BZ1, located towards the downstream end of the subwatershed in a “natural/mixed” segment of the creek. Both thebiological and riparian cover ratings for 2015 wereMarginal. For storwmater, the treated area rating was Marginal with 29% of the subwatershed receiving quality treatment of stormwater.The channel type rating for 2015 was Good with 26% of the total channel length impacted with channelized segments. It should be noted that a segment of creek in the Balzer Creek subwatershed was classified as “unknown” and therefore was not included in the rating calculation. 2.3Shoemaker Creek Shoemaker Creek is a warm water creek that runs through the central-western portion of the city and is a tributary to Upper Schneider Creek. The subwatershed has been identified as a Priority1 Subwatershed in the ISWM-MP EA completed in 2016 and has mixed land uses, predominantly residential. The majority of the creek has been classified as “channelized” with small segments classified as “concrete” and “natural/mixed”. Although the subwatershed is predominantly urban with a total of oneSWM facility(zero City-owned) and one OGSunits (zero City-owned), the majority of the catchment does not receive stormwater treatment. 2- 48 Ratings for Shoemaker Creek were not developed in the 2010 five-year Report Card therefore Table2.4 summarizes only the ratings for 2015. Table 2.4 Shoemaker Creek Overall Ratings Parameter2015 Rating Chemical SM1 Station Dryn/a Wetn/a Biological SM1 Station ValueFair Physical Riparian CoverMarginal Erosionn/a Stormwater TreatedArea (Quality)Poor Channel TypePoor For water quality, only a biological rating for Shoemaker Creek was determined as no chemical monitoring was conducted from 2011 to 2015 at SM1, located towards the downstream end of the subwatershed where the concrete segmentof the creek begins. The biological rating for 2015 was Fair while the rating for riparian cover was Marginal. For stormwater, the treated area rating was Poor with 0% of the subwatershed receiving quality treatment of stormwater from SWM facilities. The channel type rating for2015 was Poor with 84% of the total channel length impacted with a mix of channelized and concrete sections.It should be noted that a small segment of creek in the Shoemaker Creek subwatershed was classified as “unknown” and therefore was not included inthe rating calculation. 2- 49 CHEMICAL & PHYSICALBIOLOGICAL & SWM 119 W W T T S S R R KE T KE T IB I N B N E G R E GR 1 W S W S T T W W L C C A A 1 H IG H LA NDH RIG D HL WA ND R D W 144 FR E DE RRF ICR K ED STE RR IC K ST T SS T TN SS SO TN T NS N O E T QEN E BAN UUE QE EE QA UB EU E N Q SE N B S L V B N DL V N D UPPER UPPER SCHNEIDER SCHNEIDER CREEK CREEK 138 SHOEMAKER SHOEMAKER O T O T A 2 T W T A A W CREEK S A T 116 CREEK S N T N O O T T T AT WA W A A S S T T S S 13 MIDDLE MIDDLE B SCHNEIDER B L SCHNEIDER OL O C C K K CREEK MG1 L CREEK L I N I N E E R R D D 5 N O 28 BALZER CREEK BALZER CREEK 121 107 S S R 111 R B 88 S 133 182 B S 1 LB EL 62 E A MA M S S 136 R S R D D 55 W 63 W A YA Y 56 R 65 R S S O SB13 64 66 5 N O 61 175 134 109 117 1 H H O LOWER O LOWER 100 D SCHNEIDER D SCHNEIDER 176 CREEK 57 CREEK 78 131 SB2 23 7958 101 152 5 N O 151 154 14 25 16 15 174 114 53 18 A 177 178 N V 166 153 SC1 13580 145 122 81 N O 1 150148 59 72 69 163 73 82 139 155 83 170 164 162 146 171 85 £ ¤ Chemical & PhysicalBase FeaturesBiological & SWM Dry Riparian CoverBiological PropertiesCreek Classification Kitchener Roads UPPER Wet SCHNEIDER Rating (% Cover) Natural / Mixed Excellent Watercourse !( CREEK Excellent (75-100) Rehabilitated Chemical Properties Rivers / Ponds / Lakes Good ! (MIDDLE Good (55-75) ExcellentChannelized !( SCHNEIDER Subwatersheds (GRCA) Fair CREEK Fair (40-55) !( Concrete City of Kitchener Boundary Good SHOEMAKER ! ( 8 Marginal (20-40) £ ¤ MarginalUnknown CREEK LOWER ! ( Fair SCHNEIDER !( Poor (0-20) Existing SWM Area CREEK Poor ! ( 7 £ ¤ Quality BALZER Marginal ! ( CREEK 3 Years of Monitoring !( Quantity Poor !( CITY OF 139 SWM Facility Quality and Quantity KITCHENER ID labeled Unknown 401 £ ¤ Source: City of Kitchener, GRCA, 2017. CITY OF KITCHENER 11148139-100 04008001,200 5 YEAR STORMWATER REPORT CARD Oct 17, 2017 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N SCHNEIDER CREEK, BALZER CREEK, & SHOEMAKER CREEK FIGURE 2.1 2- 50 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES001\\11148139-100(PRES001)GIS-WA007.mxd 2.4Henry Sturm Greenway Henry Sturm Creek, located in the Henry Sturm Greenway subwatershed, is a warm water creek that runs through the northwestern portion of the city and is a tributary of Schneider Creek. The creek runs from the upstreamend of VictoriaParkLake to the northwest corner of the city boundary and is highly urbanized (Aquafor Beech, 2016). The subwatershedhas been identified as a Priority2 Subwatershed in the ISWM-MP EA completed in 2016. Over half of the creek has been classified as “concrete” or “channelized”; however, a good portion has been rehabilitated or remains “natural/mixed”. A total of six SWM facilities(four City-owned)and fourOGSunits (two City-owned) are located within the subwatershed; however, the majority of the catchment does not receive stormwater treatment. Overall ratings for Henry Sturm Greenway from the 2006, 2010, and 2015 five-year Report Cards are summarized in Table2.5. Table 2.5 Henry Sturm Greenway Overall Ratings Parameter2006 Rating2010 Rating2015 Rating Chemical StationHS1HS1HS1 DryMarginalMarginaln/a WetPoorPoorn/a Biological HS3HS1HS3HS1HS3HS1 Station ValueFairPoorFairMarginalFairMarginal Physical Riparian Covern/aMarginalMarginal Erosionn/aExcellentn/a Stormwater TreatedArea (Quality)n/aPoorPoor Channel Typen/aFairFair For water quality, onlybiological ratings for Henry Sturm Creek were determined as no chemical monitoring was conducted from 2011 to 2015 at HS1 or HS3. The biological rating for HS3, located at the most upstream end of the concrete portion of the creek, has remained unchanged from 2006 to 2015 with a rating of Fair. The biological rating for HS1, located at the most downstream end of the concrete portion of the creek and subwatershed, has remained unchanged from 2010 to 2015 with a rating of Marginal. Riparian cover remained consistent from 2010 with a Marginal rating. For stormwater, the treated area rating remained constant from 2010 as Poor with 5% of the subwatershed receiving quality treatment of stormwater.The channel type rating remained unchanged from 2010 as Fair with 44% of the total channel length impacted with a mix of channelized and concrete sections. 2- 51 CHEMICAL & PHYSICAL SR2 BIOLOGICAL & SWM 144 1 !( 12 1 !( 30 22 68 70 138 124 20 24 93 5 !( 120 60 49 33 76 34 32 71 77 85 £ Chemical & PhysicalBase FeaturesBiological & SWM ¤ Dry Riparian CoverBiological PropertiesCreek Classification Kitchener Roads Wet Rating (% Cover) Natural / Mixed Excellent Watercourse !( HENRY Excellent (75-100) Chemical Properties Rehabilitated Rivers / Ponds / Lakes STURM Good !( Good (55-75) Excellent GREENWAY Channelized !( Subwatersheds (GRCA) Fair Fair (40-55) !( Concrete City of Kitchener Boundary Good !( Marginal (20-40) Marginal Unknown !( 8 £ Fair ¤ !( Poor (0-20) Existing SWM Area Poor !( 7 CITY OF £ Quality¤ Marginal !( KITCHENER 3 Years of Monitoring !( Quantity Poor !( 139 SWM Facility Quality and Quantity ID labeled Unknown 401 £ ¤ Source: City of Kitchener, GRCA, 2017. CITY OF KITCHENER 11148139-100 0200400600 5 YEAR STORMWATER REPORT CARD Feb 26, 2018 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N HENRY STURM CREEK FIGURE 2.2 2- 52 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES001\\11148139-100(PRES001)GIS-WA008.mxd 2.5Montgomery Creek Montgomery Creek is a warm water creek that runs through the northernportion of the city near Fairway Road and is a tributary to Lower Schneider Creek.The creek crosses two highways (Highway7 and Highway85) and therefore has been identified as highly impacted by chlorides due to highway runoff. The subwatershed has been identified as a Priority1 Subwatershed in the ISWM-MP EA completed in 2016and has been identified as a localized groundwater discharge area, specifically at the headwaters. It has also been identified as an erosion site opportunity. The majority of the creek has been classified as “channelized” with a small portion as “natural/mixed”. There are noSWM facilities and 13OGS units(four City-owned)located within the subwatershed which has predominantly residential land use,therefore it receives little to no stormwater treatment. Overall ratings for Montgomery Creek from the 2006, 2010, and 2015 five-year Report Cards are summarized in Table2.6. Table 2.6 Montgomery Creek Overall Ratings Parameter2006 Rating2010 Rating2015 Rating Chemical StationMG1MG1MG1 DryPoorMarginalPoor WetPoorPoorPoor Biological MG1MG1MG1 Station ValueMarginalMarginalMarginal Physical Riparian Covern/aPoorMarginal Erosionn/aExcellentn/a Stormwater TreatedArea (Quality)n/aPoorPoor Channel Typen/aPoorMarginal Compared to the previous ratings from 2006 and 2010, the chemical parameter ratings for both dry and wet weather events have generally remained unchanged with a rating of Poor at monitoring location MG1, which is located towards the downstream end of the subwatershed in a channelized portion of the creek. The biological rating has also remained unchanged at Marginal. Riparian cover improved from 2010 from a rating of Poor to Marginal. For stormwater, the treated area rating remained unchanged from 2010 as Poor with 0.01% of the subwatershed receiving quality treatment of stormwater from SWM facilities.The channel type rating improved from Poor in 2010 to Marginal in 2015 with 57% of the total channel length impacted with channelized segments. 2- 53 CHEMICAL & PHYSICAL 85 10 112 7 11 144 8 41 113 19 46 42 37 36 127 102 123 2 MONTGOMERY CREEK 1 138 MG1 N O 116 121 175 BIOLOGICAL & SWM 85 10 112 7 11 144 8 41 1 !( 113 19 46 42 37 36 127 102 123 2 MONTGOMERY CREEK 1 2 ! ( 138 5 ! ( 116 121 175 85 £ Chemical & PhysicalBase FeaturesBiological & SWM¤ Dry Riparian CoverBiological PropertiesCreek Classification Kitchener Roads Wet Rating (% Cover) Natural / Mixed Excellent Watercourse !( Excellent (75-100) Rehabilitated Chemical Properties Rivers / Ponds / Lakes Good !( MONTGOMERY Good (55-75) Excellent Channelized !( Subwatersheds (GRCA) CREEK Fair Fair (40-55) ! ( Concrete City of Kitchener Boundary Good ! ( Marginal (20-40) Marginal Unknown ! ( 8 £ Fair¤ ! ( Poor (0-20) Existing SWM Area Poor !( 7 CITY OF £ ¤ Quality Marginal ! ( KITCHENER 3 Years of Monitoring !( Quantity Poor !( 139 SWM Facility Quality and Quantity ID labeled Unknown 401 £ ¤ Source: City of Kitchener, GRCA, 2017. CITY OF KITCHENER 11148139-100 0300600900 5 YEAR STORMWATER REPORT CARD Oct 12, 2017 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N MONTGOMERY CREEK FIGURE 2.3 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES001\\11148139-100(PRES001)GIS-WA009.mxd 2- 54 2.6Strasburg Creek The Strasburg Creek is a large creeksystem that is comprised of three branches/subwatersheds: South/Main branch, Middle branch, and North branch. Thewatercourse is classified as a cold water creek with portions identifiedas localized groundwater discharge areaswith known resident brook trout. Both the South/Main and Middle branchsubwatersheds have been identified as Priority 4 Subwatersheds in the ISWM-MP EA completed in 2016 while the North branch subwatershed was identified as Priority 2. Both the South and Middle branchesare classified as completely “natural/mixed” while the North branchis predominantly “natural/mixed” with a small portion classified as “concrete”.One erosion site opportunity was identified which is currently being addressedat Old Huron Road. A total of37SWM facilities(nine City-owned)and 15OGSunits (seven City-owned)are located within the three subwatersheds which provide over half of the total catchment area with stormwater quality and/or quantity treatment. For the purpose of this assessment, the threesubwatersheds have been grouped together as one subwatershed for Strasburg Creek; however, it should be noted that the majority of the monitoring from 2011 to 2015 was for the South/Main and North branchsubwatersheds. Overall ratings for Strasburg Creek from the 2006, 2010, and 2015 five-year Report Cards are summarized in Table2.7. Table 2.7 Strasburg Creek Overall Ratings Parameter2006 Rating2010 Rating2015 Rating Chemical SB1SB2SB1SB13SB2SB13 Station DryGoodFairFairMarginalFairPoor WetMarginalPoorPoorPoorMarginalPoor Biological StationSB1SB2SB13SB1SB2SB13SB2SB13 ValueFairFairMarginalGoodFairMarginalMarginalMarginal Physical Riparian Covern/aFairFair Erosionn/aExcellentn/a Stormwater TreatedArea (Quality)n/aPoorPoor Channel Typen/aExcellentExcellent Compared to the previous ratings from 2006 and 2010, the chemical parameter rating, specifically for dry weather events, decreased from Marginal to Poor at monitoring location SB13 (North branch) and remained unchanged with a rating of Fair at SB2 (downstream of SB13 in South/Main branch). For the wet events, the rating at SB13 has remained unchanged with a rating of Poor while SB2 has shown improvement from 2006 to 2015 from Poor to Marginal. The biological ratings over the years have remained consistent at SB13 with a rating of Marginal and have decreased from Fair to Marginal at SB2. Riparian cover remainedconsistent from 2010 with a Fairrating. For stormwater, the treated area rating remained unchanged from 2010 as Poor with 17% of the subwatershed receiving quality treatment of stormwater from City-owned SWM facilities.The 2- 55 channel type rating remained unchanged from 2010 as Excellent with 3% of the total channel length impacted with a mix of channelized and concrete sections. Itshould be noted that a portion of creek in the North branchsubwatershed was classified as “unknown” and therefore was not included in the rating calculation. 2- 56 CHEMICAL & PHYSICAL NORTH SB13 STRASBURG CREEK N O MIDDLE STRASBURG SB2 CREEK N O STRASBURG CREEK ! ( 182 136 BIOLOGICAL & SWM 39 13 176 131 40 50 94 47 51 48 1 ! 96( 75 95 97 157 28 159 107 115 65 NORTH 62 111 STRASBURG 74 CREEK 55 5 ! ( 63 169 61 56 66 174 64 23 100 109 57 MIDDLE 58 STRASBURG 168 CREEK 152 5 ! 134( 14 117 101 178 78 177 15 STRASBURG 16 99 80 CREEK 15118 156 135 79 161 81 114 154 148 145 82 172 158 73 150 72 167 122 166 83 139 155 163 170 165 85 £ Chemical & PhysicalBase FeaturesBiological & SWM¤ Dry Riparian CoverBiological PropertiesCreek Classification Kitchener Roads Wet Rating (% Cover) Natural / Mixed Excellent Watercourse !( Excellent (75-100) Rehabilitated Chemical Properties Rivers / Ponds / Lakes Good !( Good (55-75) Excellent Channelized !( Subwatersheds (GRCA) Fair Fair (40-55) ! ( Concrete City of Kitchener Boundary Good !( Marginal (20-40) Marginal Unknown ! ( 8 Fair£ ¤ ! ( Poor (0-20) Existing SWM Area Poor !( 7 CITY OF £ ¤ Quality Marginal !( KITCHENER 3 Years of Monitoring !( Quantity Poor ! ( 139 SWM Facility Quality and Quantity STRASBURG ID labeled Unknown 401 £ ¤ CREEK Source: City of Kitchener, GRCA, 2017. CITY OF KITCHENER 11148139-100 0300600900 5 YEAR STORMWATER REPORT CARD Oct 12, 2017 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N STRASBURG CREEK FIGURE 2.4 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES001\\11148139-100(PRES001)GIS-WA010.mxd 2- 57 2.7Idlewood Creek Idlewood Creek isa significant watercourse that runs through the northeastportion of the city before discharging into the Grand River near the end of Zeller Drive. Segments of the creek have been characterized as both warm water and cold water with groundwater discharges observed at two natural reaches during the SWM Policy Development Study (TSH, 2001). The subwatershed has been identified as a Priority2 Subwatershed in the ISWM-MP EA completed in 2016. The majority of the creek has been classified as “natural/mixed” with a small portion “unknown”. A total of 23 SWM facilities (eight City-owned) and sevenOGS units (five City-owned) arelocated within the subwatershed; however, the majority of the catchment does not receive stormwater treatment. Overall ratings for Idlewood Creek from the 2006, 2010, and 2015 five-year Report Cards are summarized in Table2.8. Table 2.8 Idlewood Creek Overall Ratings Parameter2006 Rating2010 Rating2015 Rating Chemical IW1IW1IW3IW1 Station DryGoodn/aFair WetPoorn/aPoor Biological StationIW1IW1IW3IW1 ValueGoodFairFairMarginal Physical Riparian Covern/aExcellentFair Erosionn/aExcellentn/a Stormwater TreatedArea (Quality)n/aPoorPoor Channel Typen/aExcellentExcellent Compared to the previous ratings from 2006 and 2010, the chemical parameter rating, specifically for dry weather events, decreased from Good to Fair while wet events remained the same as Poor. The biological rating over the years has shown a steady decrease from Good in 2006 to Fair in 2010 and Marginal in 2015 at monitoring location IW1, located at the most downstream end of the subwatershed. Riparian cover decreasedfrom Excellent in 2010 to a rating of Fair in 2015. For stormwater, the treated area rating remained unchanged from 2010 as Poor with 15% of the subwatershed receiving quality treatment of stormwater.The channel type rating remained unchanged from 2010 as Excellent with 0% of the total channel length impacted; however, it should be noted that a number of creek segments in the subwatershed are classified as “unknown” and therefore were not included in the rating calculation.The majority of the creek has been classified as “natural/mixed” therefore the steady decrease in the biological rating could be attributed to increased urbanization of the surrounding upstream areasand decreased riparian cover. 2- 58 CHEMICAL & PHYSICAL IW1 IDLEWOOD CREEK N O MG1 N O BIOLOGICAL & SWM 85 84 180 10 118 112 7 11 IDLEWOOD CREEK 8 67 41 125 2 ! ( 113 19 46 42 37 36 127 102 123 2 1 5 ! ( 121 85 £ Chemical & PhysicalBase FeaturesBiological & SWM¤ Dry Riparian CoverBiological PropertiesCreek Classification Kitchener Roads Wet Rating (% Cover) Natural / Mixed Excellent Watercourse !( Excellent (75-100) Rehabilitated Chemical Properties Rivers / Ponds / Lakes Good !( Good (55-75) Excellent Channelized !( Subwatersheds (GRCA) Fair Fair (40-55) ! ( IDLEWOOD CREEK Concrete City of Kitchener Boundary Good !( Marginal (20-40) Marginal Unknown ! ( 8 Fair£ ¤ !( Poor (0-20) Existing SWM Area Poor ! ( 7 CITY OF £ ¤ MarginalQuality !( KITCHENER 3 Years of Monitoring !( Quantity Poor ! ( 139 SWM Facility Quality and Quantity ID labeled Unknown 401 £ ¤ Source: City of Kitchener, GRCA, 2017. CITY OF KITCHENER 11148139-100 0300600900 5 YEAR STORMWATER REPORT CARD Oct 12, 2017 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N IDLEWOOD CREEK FIGURE 2.5 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES001\\11148139-100(PRES001)GIS-WA011.mxd 2- 59 2.8Sandrock Greenway Sandrock Creek is a warm water creek that runs through the northwestern portion of the city and is a tributary to Henry Sturm Creek,south of Victoria Street. It is located in the Sandrock Greenway subwatershed which has been identified as a Priority1 Subwatershed in the ISWM-MP EA completed in 2016 and has also been identified ashaving an erosion site opportunity (i.e.,an opportunity for restoration/stabilization of an active erosion site)at WestheightsDrive. The majority of the creek has been classified as “rehabilitated” with downstream portionsclassified as “concrete” and“channelized” with little riparian cover. Thesubwatershed is predominantly urban with a total of three SWM facilities (one City-owned) and noOGSunits;thereforethe majority of the catchment does not receive stormwater treatment. Overall ratings for Sandrock Greenway from the 2010and 2015 five-year Report Cards are summarized in Table2.9. Table 2.9 Sandrock Greenway Overall Ratings Parameter2006 Rating2010 Rating2015 Rating Chemical Stationn/aSR2SR2 Dryn/aPoorPoor Wetn/aPoorPoor Biological n/aSR2SR2 Station Valuen/aMarginalMarginal Physical Riparian Covern/aPoorPoor Erosionn/aExcellentn/a Stormwater TreatedArea (Quality)n/aPoorPoor Channel Typen/aGoodGood Compared to the previous ratings fromthe 2010 Report Card, the chemical parameter rating for both dry and wet weather events and the biological ratings remained the same as Poorand Marginal, respectively. Riparian cover remained consistent from 2010 with arating of Poor. For stormwater, the treated area rating remained unchanged from 2010 as Poor with 0.64% of the subwatershed receiving quality treatment of stormwaterfrom SWM facilities. The channel type rating remained unchanged from 2010 as Good with 32% of the total channel length impacted with a mix of channelized and concrete sections. 2- 60 CHEMICAL & PHYSICAL SR2 N O SANDROCK CREEK 30 BIOLOGICAL & SWM 22 68 70 124 20 24 93 5 ! ( 120 60 49 33 76 34 32 71 77 108 116 SANDROCK CREEK 26 21 3 39 13 4 40 50 94 5 47 51 48 85 £ Chemical & PhysicalBase FeaturesBiological & SWM¤ Dry Riparian CoverBiological PropertiesCreek Classification Kitchener Roads Wet Rating (% Cover) Natural / Mixed Excellent Watercourse !( Excellent (75-100) Rehabilitated Chemical Properties Rivers / Ponds / Lakes Good !( Good (55-75) ExcellentChannelized ! ( Subwatersheds (GRCA) SANDROCK CREEK Fair Fair (40-55) ! ( Concrete City of Kitchener Boundary Good ! ( Marginal (20-40) Marginal Unknown ! ( 8 £ ¤ Fair !( Poor (0-20) Existing SWM Area Poor !( 7 CITY OF £ ¤ Quality Marginal ! ( KITCHENER 3 Years of Monitoring !( Quantity Poor ! ( 139 SWM Facility Quality and Quantity ID labeled Unknown 401 £ ¤ Source: City of Kitchener, GRCA, 2017. CITY OF KITCHENER 11148139-100 0200400600 5 YEAR STORMWATER REPORT CARD Oct 12, 2017 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N SANDROCK CREEK FIGURE 2.6 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES001\\11148139-100(PRES001)GIS-WA012.mxd 2- 61 2.9KolbCreek Kolb Creek is a significant watercourse that runs through the northern portion of the city before discharging to the Grand Rivernear the end of Ottawa Street. Segments of the creek have been classified as both cold and warm waterby the Ministry of Natural Resources. The subwatershed has been identified as a Priority2 Subwatershed in the ISWM-MP EA completed in 2016 and has been identified as a localized groundwater discharge area. It has also been identified with having a high to moderate risk for stream erosion however much of the identified areais located within private property. The majority of the creek has been classified as “natural/mixed” with small portions within the middle reach classified as “rehabilitated” and “channelized”. Riparian cover along the majority of the watercourse is good due to the “natural/mixed” classification of the creek.Although the subwatershed is predominantly urban with atotal of eightSWM facilities(four City-owned) and 20OGSunits(three City-owned);the majority of the catchment does not receive stormwater treatment. Overall ratings for Kolb Creek from the 2006, 2010, and 2015 five-year Report Cards are summarized in Table2.10. Table 2.10Kolb Creek Overall Ratings Parameter2006 Rating2010 Rating2015 Rating Chemical StationKD1KD1KD1 DryMarginalMarginalPoor WetPoorPoorPoor Biological KD1KD2KD1KD2KD1 Station ValueFairPoorMarginalPoorFair Physical Riparian Covern/aGoodFair Erosionn/aExcellentn/a Stormwater TreatedArea (Quality)n/aPoorPoor Channel Typen/aGoodExcellent Compared to the previous ratings from 2006 and 2010, the chemical parameter rating, specifically for dry weather events, decreased from Marginal to Poor. The biological rating changed from Marginal to Fair at monitoring location KD1, located downstream of the previous monitoring location KD2. The riparian cover rating decreased from Good in 2010 to Fair in 2015. For stormwater, the treated area rating remained unchanged from 2010 as Poor with 5.5% of the subwatershed receiving quality treatment of stormwater from SWM facilities. The channel type rating improved from Good in 2010 to Excellent in 2015 with 17% of the total channel length impacted with channelized sections.It should be noted that “unknown” channel classifications were identified in portions of the subwatershed which discharge directly into the Grand River and therefore were not included in the rating calculation. 2- 62 CHEMICAL & PHYSICAL KD1 KOLB CREEK N O N O BIOLOGICAL & SWM 17 29 105 143 106 126 181 43 6 45 44 KOLB CREEK 4 ! ( 119 85 10 112 118 7 11 144 8 41 125 ! ( 85 £ Chemical & PhysicalBase FeaturesBiological & SWM¤ Dry Riparian CoverBiological PropertiesCreek Classification Kitchener Roads Wet Rating (% Cover) Natural / Mixed Excellent Watercourse !( Excellent (75-100) Rehabilitated Chemical Properties Rivers / Ponds / Lakes Good !( Good (55-75) Excellent Channelized !( Subwatersheds (GRCA) Fair Fair (40-55) ! ( Concrete KOLB CREEK City of Kitchener Boundary Good !( Marginal (20-40) Marginal Unknown ! ( 8 Fair£ ¤ ! ( Poor (0-20) Existing SWM Area Poor !( 7 CITY OF £ ¤ Quality Marginal !( KITCHENER 3 Years of Monitoring !( Quantity Poor ! ( 139 SWM Facility Quality and Quantity ID labeled Unknown 401 £ ¤ Source: City of Kitchener, GRCA, 2017. CITY OF KITCHENER 11148139-100 0300600900 5 YEAR STORMWATER REPORT CARD Oct 12, 2017 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N KOLB CREEK FIGURE 2.7 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES001\\11148139-100(PRES001)GIS-WA013.mxd 2- 63 2.10East Creek (Hidden Valley) The East Creek (Hidden Valley)subwatershed is a warm water creek that runs through the eastern portion of the city before discharging to the Grand River. The subwatershed has been identified as a Priority2 Subwatershed in the ISWM-MP EA completed in 2016. It has also been identified with having a high to moderate risk for stream erosion; however, much of the watercourse is located within private property. The majority of the creek has been classified as “unknown” in the GIS datafiles provided by the City; however, the ISWM-MP EA Existing Conditions Reportprepared by Aquafor Beech in 2016 identified all watercourses in the subwatershed as “vegetated”. Although the majority of land use in the subwatershed is rural/agricultural, a total of six SWM facilities (four City-owned) and two OGSunits (both City-owned) are located within the subwatershed. Previous studies have indicated the subwatershed is dominated by permeable soils which suggest high volumes infiltration, low surface water runoff volumes and rates, and significant contributions to the local groundwater table and base flows (Aquafor Beech, 2016). Ratings for East Creek (Hidden Valley)were not developed in the 2010 five-year Report Card therefore Table2.11 summarizes only the ratings for 2015. Table 2.11East Side - Hidden Valley Creek Overall Ratings Parameter2015 Rating Chemical StationHV1 Dryn/a Wetn/a Biological HV1 Station ValueFair Physical Riparian CoverMarginal Erosionn/a Stormwater TreatedArea (Quality)Poor Channel Typen/a For water quality, only a biological rating for East Creek (Hidden Valley)was determined as no chemical monitoring was conducted from 2011 to 2015 at HV1, located upstream of the confluence of the creek with the Grand River. The rating for riparian cover was Marginal. For stormwater, the treated area rating for 2015 was Poor with 9.5% of the subwatershed receiving quality treatment of stormwaterfrom theSWM facilities. The channeltype rating for East Side – Hidden Valley Creek could not be determined as all streams in the subwatershed were classified as “To Input” in the GIS datafilesprovided by the City. 2- 64 CHEMICAL & PHYSICAL MG1 N O EAST SIDE BIOLOGICAL & SWM 5 ! ( 175 133 EAST SIDE 88 1 ! ( !( 136 176 131 179 25 1 !54 ( 147 53 153 174 23 100 57 85 £ Chemical & PhysicalBase FeaturesBiological & SWM¤ Dry Riparian CoverBiological PropertiesCreek Classification Kitchener Roads Wet Rating (% Cover) Natural / Mixed Excellent Watercourse !( Excellent (75-100) Rehabilitated Chemical Properties Rivers / Ponds / Lakes Good !( Good (55-75) Excellent Channelized !( Subwatersheds (GRCA) Fair Fair (40-55) ! ( Concrete City of Kitchener Boundary Good !( Marginal (20-40) Marginal Unknown !( Fair EAST SIDE !( Poor (0-20) Existing SWM Area 8 Poor £ ¤ !( 7 CITY OF £ ¤ MarginalQuality !( KITCHENER 3 Years of Monitoring !( Quantity Poor ! ( 139 SWM Facility Quality and Quantity ID labeled Unknown 401 £ ¤ Source: City of Kitchener, GRCA, 2017. CITY OF KITCHENER 11148139-100 0300600900 5 YEAR STORMWATER REPORT CARD Oct 12, 2017 2016 TECHNICAL REPORT Meters Coordinate System: NAD 1983 UTM Zone 17N EAST SIDE (HIDDEN VALLEY CREEK) FIGURE 2.8 GIS File: Q:\\GIS\\PROJECTS\\11148000s\\11148139\\Layouts\\PRES001\\11148139-100(PRES001)GIS-WA014.mxd 2- 65 3.Conclusions and Recommendations 3.1Conclusions The results of the 2015 report card assessment generally align with the 2010 results. It should be noted that the monitoring locations for most subwatersheds are located at the most downstream end of the creek, typically near the confluence of the creek with a major watercourse and in densely urbanized/industrialize areas. 3.1.1Physical All creeks with the exception of Strasburg Creek, IdlewoodCreek, Sandrock Creek, and Kolb Creek had a riparian cover rating of Marginal, with Strasburg Creek, Idlewood Creek, and Kolb Creek exhibiting Fair riparian cover ratings and Sandrock a Poor rating. The ratings within the subwatersheds indicates an opportunity for improvement, especially during future creek rehabilitation projects. Increased riparian cover can improve both water quality and ecological habitat for both benthic macroinvertebrates and fish. 3.1.2Chemical The overall chemical water quality rating of creeks currently being monitored under the Annual SWM Monitoring Program is Poor. This reduced water quality is evident especially in wet weather events and is most likely attributed to little to no stormwater quality treatmentin the subwatersheds assessed. Of the ten subwatersheds assessed, only five monitored during the Annual SWM Monitoring Program had results for more than three years: Montgomery Creek, Strasburg Creek, Idlewood Creek, Sandrock Creek, and Kolb Creek. During dry weather monitoring events, only Strasburg Creek and Sandrock Creek had ratings that remained unchanged from 2010 while decreases were observed for Montgomery Creek, Idlewood Creek, and Kolb Creek. Noimprovements for dry events were observed from 2010 to 2015. For wet weather monitoring events, the rating for all five creeks remained unchanged from 2010 to 2015. 3.1.3Biological The biological water quality ratings of creeks currently being monitored under the Annual SWM Monitoring Program are almost evenly splitbetween Fair and Marginal, which indicates a better overall water quality rating when compared to the chemical rating. All ten subwatersheds assessed included biological monitoring form 2011 to 2015, with five having only biological monitoring conducted (i.e.,no chemical monitoring). These subwatersheds included: Schneider Creek, Balzer Creek, Shoemaker Creek, HenrySturm Greenway, and East Creek (Hidden Valley), of which Balzer Creek, Shoemaker Creek, and East Creek (Hidden Valley) were not included in the 2010 report card assessment. The ratings remained unchanged from 2010 to 2015 for Schneider Creek (Fair), Henry Sturm Greenway (Fair/Marginal), Montgomery Creek (Marginal), Strasburg Creek (SB13 Marginal), and Sandrock Creek (Marginal). The biological rating decreased from 2010 to 2015 for Strasburg Creek (SB2 Fair to Marginal) and Idlewood Creek (IW1 2- 66 Fair to Marginal). One biological rating improvement was observed for Kolb Creek at KD1 from Marginal to Fair. Over the five-year period of 2011 to 2015, most stations monitored had an average of six or fewer fish species present, with the majority of fish communities being dominated by tolerant species. Although Kolb Creek had a chemical water quality rating of Poor and biological water quality rating of Fair, it had the most diverseaquatic community with over 10species identified in 2012 and over seven species identified in 2011 and 2015. Shoemaker Creek wasthe least diverse aquatic community with zero species observed in 2014 and 2015; however, the biological water quality rating for Shoemaker Creek is Fair. 3.1.4Stormwater Treatment The ratings for treated areas by SWM facilities within the subwatersheds indicates an opportunity for the improvement of quality controls via continued maintenance and facility upgrades to ensure no further deterioration of existing SWM facilities occurs. The subwatershed with the highest percentage of quality treated area was School Creek; however this subwatershed was not included in the 2015 assessment. Of the subwatersheds assessed in 2015, the combined Strasburg Creek (specifically North Strasburg Creek) had the highest percentage of quality treated area at 17% while Balzer Creek, Shoemaker Creek, and Montgomery Creek had the lowest at 0% for all three subwatersheds. The rating for channel typewas the most varied parameter throughout the watershed, varying from Excellent in Kolb Creek, Idlewood Creek, and Strasburg Creek to Poor in Shoemaker Creek.The subwatersheds with an Excellent/Good rating for channel type exhibited Fair/Marginal ratings for riparian cover, which indicates an opportunity to improve riparian cover in “natural/mixed” and “rehabilitated” creek segments. 3.2Recommendations The following recommendations have been identified for the assessment covering the monitoring period of 2016 to 2020: Conduct a field investigation to verify creek channel classifications and fill in data gaps (i.e., “unknown” or “to input”) Conduct a field investigation to assess and identify erosion sites as per the 2006 and 2010 assessments Repeat the methodology for calculatingriparian cover utilized in this 2015 assessment as this new method: removes thesubjectivity from a user’s interpretation of riparian areas based on air photos(instead relying on sensors), creates a repeatable workflow for riparian analyses conducted in subsequent years allowing for easier temporal comparison, and increases the overall efficiency of the entire riparian analysis Continue to promote the city-wide SWM strategy via increased public awareness and involvement to improving water quality, physical stability and aquatic ecosystems which 2- 67 improves the overall health the watershed and the City’s residents. These programs and strategies include the following: Redirection of roof runoff to lawns, infiltration galleriesand rain gardens (i.e.,Region of Waterloo’srain barrel program) Maintenance of infiltration galleries Reduction/elimination of fertilizers and pesticides on lawns Reduction/elimination of salt on driveways and sidewalks during winter months Proper disposal of oils/paints/chemicals/batteries instead of disposal in street catchbasins 4.References Aquafor Beech Limited. 2016. Integrated Stormwater Management Master Plan (ISWM-MP) Municipal Class Environmental AssessmentPrepared for the City of Kitchener.Aquafor Beech Limited, Guelph, Ontario. Aquafor Beech Limited. 2016. Integrated Stormwater Management Master Plan (ISWM-MP) Municipal Class Environmental Assessment: Existing Conditions ReportPrepared for the City of Kitchener. Aquafor Beech Limited, Guelph, Ontario. Aquafor Beech Limited. 2016. Integrated Stormwater Management Master Plan Implementation Plan Prepared for the City of Kitchener. Aquafor Beech Limited, Guelph, Ontario. Aquafor Beech Limited. 2016. Integrated Stormwater Management Master Plan Implementation Plan Prepared for the City of Kitchener. Aquafor Beech Limited, Guelph, Ontario. Canadian Council of Ministers of the Environment. 2001. Canadian Water Quality Guidelines for the Protection of Aquatic Life: CCME Water Quality Index 1.0,User’s Manual. In: Canadian Environmental Quality Guidelines, 1999. Canadian Council of Ministers of the Environment, Winnipeg. Environment Canada. 2013. How Much Habitat is Enough? Third Edition. Environment Canada, Toronto, Ontario. Ministry of the Environment. 2003. Stormwater Management Planning and Design Manual.Queen’s Printer for Ontario, 2003 TSH & Don G. WeatherbyAssociatesLtd. 2001. City of Kitchener Stormwater ManagementPolicy Development,December 10 2001. 2- 68 Page 1 of 1 2011-2015 Years Sampled 2006-2011 Years Sampled 2002-2006 553311000011 BCBCBC Years Sampled 2015 5 Dry 5 Wet BC555511 2014 5 Dry 5 Wet BCC000012BCC000012BCBC003322 2013 5 Dry 5 Wet BCCBC331123 2012 5 Dry 5 Wet BC111111 CCCC000004 2011 5 Dry 5 Wet 786756810810 BCBCBCBC555544BCBCBCBCBC554455BCBCBCBCBC443355BCBCBCBCBC103355BCBCBCBCBCBCBC113355 Table 1 Kitchener, Ontario 2015 Technical Report Five-Year Stormwater Report Card Summary of Monitoring Stations (2011 to 2015) Location Along Fallowfield Dr.Victoria ParkEnd of Lynnhaven CourtAlong Hidden Valley Rd. and the Grand River Near the end of Zeller Dr.Misty St. and OtterbeinWilson Ave. and Wilson ParkBiehn Dr. - Central BranchStrasburg Rd. and Trillium Dr.Bridge located along Old Mill Rd near Willow Lake ParkHomer Watson and Doon South Dr.Near the intersection of Wabanaki Dr. and Manitou Dr.Borden Pkwy. and Mill St.Queens Blvd. and West Heights Dr. / Highland and Fischer Hallman BZ1IW1 SB2 HS1HS3HV1KD1SC2SC4SR2 SM1 MG1 SB13 SC1 * Station Subwatershed Total Number of Stations Sampled: Balzer CreekEast Side (Hidden Valley Creek) Henry SturmIdlewood CreekKolb CreekMontgomery CreekStrasburg CreekSchneider CreekShoemaker CreekSandrock GreenwayNotes:C - Chemical SamplingB - Biological Sampling* - Station part of Provincial Water Quality Network (ID 16018411702)1) 2011 - 2013 sampling results provided by Aquafor Beech Ltd.2) 2014 - 2015 sampling results provided by Aecom GHD 11148139 (1) 2- 69 Holly Dyson From:Jaclyn Rodrigues Sent:28 February, 2018 4:41 PM To:Environmental Agenda Subject:FW: High Speed Rail Notice of Commencement - Environmental Assessment Terms of Reference Attachments:HSR Notice of Commencement - EA ToR - English.pdf From: Ashdown, Robin (MTO) \[mailto:Robin.Ashdown@ontario.ca\] Sent: February 27, 2018 11:47 AM To: Cc: Slobodzian, John (MTO); Zdero, Nicole (MTO) Subject: High Speed Rail Notice of Commencement - Environmental Assessment Terms of Reference Ministry of Transportation Ministère des Transports Policy and Planning Division Division des politiques et de la planification High Speed Rail Branch Bureau du train à grande vitesse 900 Bay Street, 1st Floor, 900 rue Bay, 1er étage, Macdonald Block, Room M1-21 édifice Macdonald, pièce M1-21 Toronto, Ontario Toronto, Ontario M7A 2A2M7A 2A2 Tel: 416-212-3444 Tél: 416-212-3444 Fax: 416-212-1936 Téléc: 416-212-1936 February 27, 2018 Subject: High Speed Rail Environmental Assessment Terms of Reference – Notice of Commencement The Ontario Ministry of Transportation (MTO) has initiated an environmental assessment (EA) Terms of Reference for High Speed Rail (HSR) between Kitchener-Waterloo and London. The attached Ontario Government Notice announces the commencement of the study. The planning and design of HSR is being undertaken in accordance with the Ontario Environmental Assessment Act. Prior to preparing an EA study, the Act requires that a proponent prepare a Terms of Reference and submit the document to the Minister of the Environment and Climate Change for approval. Once approved the Terms of Reference will set out a framework that will guide the subsequent planning, design and EA study. Topics that are addressed within a Terms of Reference include: project study area; purpose and description of the project; alternatives that will be examined; a description of the existing environment and the potential effects of the project on the environment; approach to assessment and evaluation of alternatives; mitigation commitments and; a consultation plan. Consultation is an integral component of the EA process as the input and feedback provided will inform assessment and evaluation, and influence decision-making. The Terms of Reference will be developed through engagement with Indigenous communities and consultation with municipalities, government agencies and members of the public. Please confirm your interest in receiving additional 1 IF1 - 1 project notices by contacting Ms. Nicole Zdero, MTO Policy Analyst at 905-704-2213 or Nicole.Zdero@ontario.ca. Should you require further information regarding this study, please contact Mr. John Slobodzian, MTO Project Coordinator at 905-704-22204 or John.Slobodzian@ontario.ca. Sincerely, Original signed by Jennifer Graham Harkness, P.Eng. Executive Director Attachment c. John Slobodzian, MTO Nicole Zdero, MTO 2 IF1 - 2 IF1 - 3 Responsibility Councillor Yvonne FernandesErin KellyJohn Jackson, Erin Kelly, Cynthia Gaetani, Tia DriverCouncillor Yvonne Fernandes, Edward Saxon, Jordan Gray, John JacksonCommittee Staff Contact Other Josh Shea, Natural Area CoordinatorJosh Shea, Natural Area Coordinator1.Nick Gollan, Manager ofStormwater Utility 2. LindaCooper, Manager ofDevelopment Engineering3.Barbara Steiner, Senior Environmental Planner (initially) Timeframe Ad hoc, on-going throughout yearAd hoc, on-going throughout yearTo Be DeterminedTo Be DeterminedEstimated for 2018 Recurs Annually Discrete Type Project Ћ ƚŅ Њ tğŭĻ ) ) ) Description of Tasks ) Strategic Plan for the Environment Strategic Plan for the Environment plans for natural areas and stewardship activities for / in Kitchener's natural areas. Attend KNAP meetings and events. Act as liaison to seek input from and report back to Environmental Committee.and report back to , and seek advice as necessary from, Environmental Committee.opportunities to help promote Low Impact Developmentretrofits and the stormwater credit policy inneighbourhoods. 2. Consider how erosion andsedimentation control (ESC) on construction sites mightbe improved. 3. Etc.Brainstorm ideas: "green driving" tips; former Region-wide campaigns (Regional Public Health, WPIRG, area municipalities); exisitng City of Kitchener initiatives (e.g. fleet policies and practices; signage in school zones) for strengthening message to public.Update to be considered by the whole committee during a regular meeting as an agenda item. Strategic Plan for the Environment Strategic Plan for the Environment Project Kitchener Natural Areas ProgramAssist with research, the development of management Bee City Kitchener Working GroupLiaison to sit on Kitchener's Bee City Working Group Water Management Stewardship1.Canvas Stormwater Utility staff to assessAnti-Idling EducationKitchener Growth Management Strategy Ѝ͵Њ No. 1.11.22.13.1 ENVIRONMENTAL COMMITTEE WORK PLAN 2017 - 2018 Kitchener Natural Heritage System (Theme 1 of the Water Resources (Theme 2 of the Air Quality (Theme 3 of the Land Resource and Growth Management (Theme 4 of the IF2 - 1 ƷŷĻ ŅƚƩ tƌğƓ Stacey Danckert, Edward Saxon, Laine Bourassa, Tia DriverJordan Gray, Katarina Milicic, Tia Driver, Erin Kelly Stacey Danckert, Tina Belanger, Edward SaxonDefer {ƷƩğƷĻŭźĭ Ћ͵ ƦğĭƉğŭźƓŭ͵ ƒźƓźƒğƌ ŅƚƩ Sarah Brown, Senior Sustainability PlannerMike Seiling, Director of BuildingJosh Shea, Natural Area Coordinator(dependent on type of event)Carrie Musselman, Senior Environmental PlannerJeff YoungManager, Special Events ƩĻƨǒźƩĻƒĻƓƷƭ źƓĭƌǒķźƓŭ ƭƷğƓķğƩķƭ Green Development Guidelines being considered as part of the new Urban Design Manual project in 2017-18. Consider incorporating the diversion of construction waste into these or other guidelines (i.e. 2017-18).September - January each yearAd-hoc, throughout year.To Be Determined October - November each yearDefer start pending committee interest and capacity ŭƩĻĻƓĻƩ Ʒƚ ĭƚƒƒźƷƷĻĻ͵ ǞŷƚƌĻ Ћ ĭŷğƓŭĻ ) ƚŅ ) Ћ ƷŷĻ ĬǤ ƦƚƌźĭǤ tğŭĻ ŅƚƩ ķźƭĭǒƭƭźƚƓ ƦƚƷĻƓƷźğƌ ŅƚƩ ğƓķ ŅƚƩǞğƩķ Ʒŷźƭ ƭźƷǒğƷźƚƓ ) ĬƩźƓŭ ĭǒƩƩĻƓƷ Ʒƚ Strategic Pan for the Environment Strategic Plan for the Environment {ƷğŅŅ ķĻƭĭƩźĬĻ ĭğƩķ͵ Ʒƚ ƭƷğŅŅ ƩĻƦƚƩƷ 1.Consult with Planning and Building staff to determineif current policies and practices are supportive; 2.Determine feasibility, next steps and how theEnvironmental Committee can be involved; 3. Withrespect to diverting construction waste, meet withBuilding staff to determine current situation, andpotential future actions.Plan Environmental Committee event for Earth Day.Members organize or participate in an event related to the mandate of the committee. Consider partnering with another citizen advisory committee such as KYAC and/or piggy-backing on another event such as BikeFest. Research suitable events as a 1st step.Detailed application review and recommendation of successful grantees. One (tele-conference) meeting with subcommittee.Meet with the Managers of Special Events and Downtown Community Development to determine current situation, and potential future actions. ğƓƓǒğƌ tǒƩĭŷğƭźƓŭ ŅƚƩ wĻƨǒĻƭƷ Strategic Plan for the Environment ƒĻƷŷƚķƚƌƚŭǤ tƚƌźĭǤ Strategic Plan for the Environment wĻǝźĻǞ tǒƩĭŷğƭźƓŭ DƩĻĻƓ Support the application of a rating system such as LEED for existing and new private sector projects or in site/building redevelopments.Encourage the diversion of construction waste from landfills, and waste reduction tools for new development and redevelopment projectEnvironmental EventsCommunity Environmental Improvement Grants (CEIG)Work with City staff to develop and/or implement a Green Festival Strategy for City-managed events and examine the possibility of applying it to third party events.Provide advice or information on environmental matters referred to the committee by Council and staff as per: the Terms of Reference (Council Policy I-100) Њ͵9ƓǝźƩƚƓƒĻƓƷ Lb9w9{ hC А͵ЊА͵Ћ А͵Ќ 5.18.1 6.2) 3.2 and (formerly Energy Systems (Theme 5 of the Resource Consumption and Waste Management (Theme 6 of the Environmental Education and Public Awareness (Theme 7 of the Multiple Themes of the L9a{ IF2 - 2