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Dusting Off the Source Water Protection Models:

Adaptation and Application of Existing Models to New Projects

M. Takeda, P.J. Thompson,Dirk Kassenaar, E.J. Wexler

Earthfx Incorporated, Toronto, Ontario, Canada

Presented byMichael Takeda

Earthfx Inc.

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1) Introduction2) Source Protection Plan3) The Role of Numerical Models4) Opportunities for Model Re-Application5) Consideration of Limitations6) Closing Summary

Dusting Off the Source Water Protection Models: Adaptation and Application of Existing Models to New Projects 2

Presentation OutlinePresentation Outline

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Source Water ProtectionSource Water Protection

Walkerton Tragedy► E.coli in municipal drinking water supply.► 7 people died, 1000’s became ill► Traced to runoff from farm discharging to

wetland

► As a result, Clean Water Act was introduced which required Source Water Protection Studies to be undertaken across Ontario► Water Quality Assessment► Water Quantity Assessments

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Source Water Protection StudiesSource Water Protection Studies

Tier 1 Water Budget Studies► Screening level studies to identify “stressed watersheds”

(total use > 25% of available water)

Tier 2 Water Budget Studies► Numerical models to confirm watershed stress analysis

Tier 3 Water Budget Studies► Detailed integrated groundwater and surface water modelling

"The first barrier to the contamination of drinking waterinvolves protecting the sources of drinking water."

Justice Dennis O'Connor (2002)

► Assess “water quantity threats” to municipal water supply using a tiered approach.

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Integrated GW/SW ModelsIntegrated GW/SW Models

Integrated Models:• Represent hydrologic system,

groundwater system, and interactions between them

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The Role of Numerical ModelsThe Role of Numerical Models

Earthfx Detailed Water Budget Studies► Five Tier 3 Source Water Protection Studies:

(Four complete, one starting up)

► Two Lake Simcoe Protection Plan Studies

Multi-watershed Scale► Attempts to explain the transient movement

of water though the surface and subsurface systems on a watershed scale.

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Presentation ObjectivePresentation Objective

What are the potential opportunities for further application of the Drinking Water Source

Protection Models?

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Opportunities for Model Re-ApplicationOpportunities for Model Re-Application

Ecologically Significant Groundwater Recharge

Areas (ESGRA) Analysis

Assessment of Impacts of Large Scale Urban

Development

Climate Change Assessment

Pit and Quarry Applications

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ESGRA AnalysisESGRA Analysis

What is an ESGRA?► ESGRAs are identified as areas of land that sustain sensitive features like cold

water streams and wetlands.► Not related to volume of recharge; rather they are linked by pathways through

which GW recharge reaches a given feature.► ESGRA analysis is an ideal application to understand flow system linkages and

volumetric recharge (in a relative sense).

SGRA vs ESGRA?► SGRAs are “areas where the rate of recharge is greater than a factor 1.15 of

the average recharge across the area”. [1]

► Based on amount of recharge volume, not specific flow systems and linkages.► SGRAs have potential to miss areas of local significance.

[1] Ontario Ministry of Environment, 2009, Technical Rules: Assessment Report, Clean Water Act (original release 2006).

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ESGRA AnalysisESGRA Analysis

► Establish a linkage between a recharge area and environmental feature - Pathway exists through the groundwater system

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ESGRA Analysis: ApproachESGRA Analysis: Approach

► Step 1: Model Construction: Hydrology: Need to simulated wetlands and streams. As

well as best estimate of recharge and runoff. Hydrogeology: Need detailed simulation of the shallow

subsurface. Scale and structure of model should be appropriate for

target(s) of analysis.

Focus of Discussion:► Use Particle Tracking to link eco-features to recharge areas.► Use cluster analysis to identify particle endpoint groupings and

significance.

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ESGRA Analysis: Particle TrackingESGRA Analysis: Particle Tracking

► Particles released in the wetland (green area)

► Particles tracked backwards through the flow system

► Black dots show endpoints where GW recharge occurred

► Select red lines illustrate flow paths from wetland to recharge area

► In this case, the wetland received recharge from three areas

Example of backward particle-tracking from a significant feature (Bluffs Creek West Wetland, Oro Creeks North Subwatershed)

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ESGRA Analysis: Particle TrackingESGRA Analysis: Particle Tracking

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(Examples from CLOCA ESGRA Study 2014)

Bowmanville Creek –Hampton Branch

Harmony-Farewell Iroquois Beach Wetland Complex

Backward Tracking Endpoints

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ESGRA Analysis: Cluster AnalysisESGRA Analysis: Cluster Analysis

► Need for a defensible methodology to delineate Ecologically Significant Groundwater Recharge Areas (ESGRAs).

► Methodology is objective, unbiased, and consistent► Also, transferable for use in other study areas.

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ESGRA Analysis: Cluster AnalysisESGRA Analysis: Cluster Analysis

► ESGRAs are areas of relatively high particle endpoint density Endpoint density is assumed to represent largest contributors of recharge to

ecological systems of interest.

► Assume each pathline endpoint is representative of a normally distributed recharge feature.

► Kernel density processing converts endpoints (black dots) into a continuous “Cluster frequency distribution”

► Optimal values determined through sensitivity analysis.

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► Particle tracking is a powerful means to link the recharge area to features of interest and therefore assign eco-significance.

► Particle tracking provides visual insights into both the shallow and deep flow system.

► The methodology is automatic, objective, unbiased, consistent, and transferable for use in other study areas and different models. The function is independent of how the particle end points are generated. This makes it an ideal application for existing Source Water Protection

Models. Analysis can be relatively inexpensive.

► Extends insights and understanding of hydrologic/hydrogeologic system from previous modelling work to focus on specific features of interest and/or conservation objectives.

Dusting Off the Source Water Protection Models: Adaptation and Application of Existing Models to New Projects

ESGRA SummaryESGRA Summary

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Opportunities for Model Re-ApplicationOpportunities for Model Re-Application

Ecologically Significant Groundwater Recharge

Areas (ESGRA) Analysis

Assessment of Impacts of Large Scale Urban

Development

Climate Change Assessment

Pit and Quarry Applications

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Climate Change AnalysisClimate Change Analysis

► The Water Budget drought assessment component of the Source Water Protection program has driven the analysis of water supply sustainability in Ontario.

Studywatersheds

► Simulation of recent droughts provides an excellent foundation for climate change analysis. Insights into the complex behaviour at both

the watershed and tributary scale An excellent “stress test” for the model A good understanding of the system, and a

framework for climate change assessment.

► Conducted using the integrated GSFLOW Ramara-Whites-Talbot Model built for the LSPP water budget drought assessment.

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► Many different climate models exist with range in predictions.

In general:► 2 to 4C temp. increase by 2050.

About double the global estimate.

► More extreme warm tempexpected (versus mean annual temp changes) More heat waves and droughts.

► Annual precip will increase up to 10% in S. Ontario, but Summer and fall total rainfall may

decrease by up to 10%, Winter precip may increase up to 10% in south, Less precipitation as snow; more lake effect snow, and Rainfall intensity and frequency of intense events to increase.

Dusting Off the Source Water Protection Models: Adaptation and Application of Existing Models to New Projects

Climate Change in OntarioClimate Change in Ontario

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Climate Change AnalysisClimate Change Analysis

► Applied the recommended approach “Change Field Method” as per MNR guidelines (EBNFLO & Aquaresources, 2010).

► Infilled hourly CC data available through the Aquamapper website (climate.aquamapper.com).

► Hourly simulations spanning 29-years were completed for 10 scenarios.

► Hydrologic/hydrogeologic impacts assessed based on GSFLOW model outputs.

► All results equally valid.

► Step 1: Model Construction: Integrated model needed to capture interactions between GW/SW

system during climate change scenarios.

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Climate Change InputsClimate Change Inputs

► Shift in Monthly Temperature

◄ Shift in Monthly Precipitation

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Climate Change Results – Snow DepthClimate Change Results – Snow Depth

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Climate Change Results - StreamflowClimate Change Results - Streamflow

► Reduced snow depth in winter due to increased rainfall (temps).► Depletes reservoir for spring freshet.

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Climate Change Results - GW RechargeClimate Change Results - GW Recharge

► Reduced snow depth in winter due to increased rainfall (temps).► GW recharge is similarly affected (dampened).

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Climate Change ResultsClimate Change Results

Drought Period

► More flow in winter months ► Spring freshet is earlier► Less sustained groundwater recharge► Reduced drought resilience

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Climate Change ResultsClimate Change Results

Drought Period

► Results were sensitive to underlying geology► Streams fed by aquifers with higher storage are more resilient to

drought under climate change

Drought Period

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Climate Change Analysis: SummaryClimate Change Analysis: Summary

► Linking the climate to the geology is required to understand how storage and the connection to subsurface affects streamflow

► Understanding how the subwatersheds and specific stream reaches respond to drought (which is more extreme) helps inform mitigation and adaptation strategies moving forward

► Integrated models built for drought or low flow analysis are well suited for climate change assessment. Logical extension of the SWP program work.

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Opportunities for Model Re-ApplicationOpportunities for Model Re-Application

Ecologically Significant Groundwater Recharge

Areas (ESGRA) Analysis

Assessment of Impacts of Large Scale Urban

Development

Climate Change Assessment

Pit and Quarry Applications

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Large Scale Urban DevelopmentLarge Scale Urban Development

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Proposed Site Plan► Complex stormwater

management plan► Compare Current and

Post-development conditions

► Analyze changes to groundwater recharge, runoff, and wetland hydroperiod

► Evaluate goal of storm water management system: to restore more “natural” conditions

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Large Scale Urban DevelopmentLarge Scale Urban Development

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► Model was developed to assess impacts of the proposed development on water budget elements.

► Objectives, scale, methodology has many similarities to Source Water Protection studies: Integrated GW/SW model simulating transient response to seasonal and

year-to-year variation (similar to Tier 3 Assessment). Regional scale to represent hydrologic system. Comparison of post-development and

current conditions to evaluate impacts of development.

► Simulation of small-scale design elements (stormwater management infrastructure) was critical to the assessment.

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Impacts on Wetland StageImpacts on Wetland Stage

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Current SimulatedHydroperiods

Post-Development Simulated Hydroperiods

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Impacts on Wetland StageImpacts on Wetland Stage

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Natural, Current Conditions, and Post-development

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Large Scale Urban DevelopmentLarge Scale Urban Development

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► Transient Model results showing behaviour of system under current conditions.

► Figure shows: Precipitation Groundwater heads Streamflow Lake & Wetland Stage

► Tier 3 models represent regional-scale understanding of hydrologic/hydrogeologic setting Can be used to address

local-scale problems

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Opportunities for Model Re-ApplicationOpportunities for Model Re-Application

Ecologically Significant Groundwater Recharge

Areas (ESGRA) Analysis

Assessment of Impacts of Large Scale Urban

Development

Climate Change Assessment

Pit and Quarry Applications

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► Application for pits and quarries requires evaluation of potential impacts to other stakeholder (as per Aggregate Resources Act, Planning Act, etc.). Groundwater and surface water. Ecological features and

communities.

Quarry geometry and infrastructure can be successfully incorporated into a model – Why not a Tier 2/3 model?

Dusting Off the Source Water Protection Models: Adaptation and Application of Existing Models to New Projects

Pits and Quarry ApplicationsPits and Quarry Applications

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► They can be some of the most prominent features in the watershed!

Dusting Off the Source Water Protection Models: Adaptation and Application of Existing Models to New Projects

Pits and Quarry ApplicationsPits and Quarry Applications

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► Permits can be listed as surface water only, groundwater only, or mixed groundwater-surface water taking.

► But realistically – they are both.► Evaluating potential impacts of quarries should reflect this.

Dusting Off the Source Water Protection Models: Adaptation and Application of Existing Models to New Projects

Pits and Quarry ApplicationsPits and Quarry Applications

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► Also have water management infrastructure.

► Can be highly transient and complex. Let fill during winter? Process Takings? Siltation Ponds? High-flow bypasses?

► What are the impacts of these operations on natural system? Seasonally? In a drought?

Dusting Off the Source Water Protection Models: Adaptation and Application of Existing Models to New Projects

Pits and Quarry ApplicationsPits and Quarry Applications

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► Use a passive system representation.

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Passive System RepresentationPassive System Representation

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► Ditching that drains both groundwater and surface runoff from topographically controlled cascade.

► Sumps that collect ditched water and control groundwater heads.

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Pits and Quarry ApplicationsPits and Quarry Applications

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Simulated and ObservedQuarry Discharge

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► It’s difficult to assess impacts of proposed and existing pit and quarry operations on GW/SW resources and ecological features.

► Represent alteration of both hydrologic and hydrogeologic systems.

► Source Protection Models are developedwith groundwater/surface water interactions in mind –as well as regional perspective on hydrologic system

Dusting Off the Source Water Protection Models: Adaptation and Application of Existing Models to New Projects

Pits and Quarry Applications - SummaryPits and Quarry Applications - Summary

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Water Management

Climate

GW/SW System

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► A model is developed to solve a specific problem.► The ability of the model to solve a new problem depends upon:

the relatedness of that problem to the original purpose of the model; and the versatility of the model itself.

► Limitations of the models and scope of the proposed application must always be taken into consideration, and – when required – addressed. Boundary Conditions Grid/Mesh Refinement Layer geometry and parameterization etc.

► Ultimately, model needs to be capable of solving the question being asked.

Dusting Off the Source Water Protection Models: Adaptation and Application of Existing Models to New Projects

Consideration of LimitationsConsideration of Limitations

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► Numerical models have been a vital tool in meeting the requirements of the Drinking Water Source Protection Program.

► Represent extensive work consolidating knowledge and understanding of various hydrologic and hydrogeologic process in each of the study watersheds.

► Value of these models can extend beyond initial SPP objectives with continued adaptation and re-application to new studies: ESGRA Analysis Climate Change Assessment Assessment of Impacts of Urban Development (and mitigation

alternatives) Pit and Quarry Applications

Dusting Off the Source Water Protection Models: Adaptation and Application of Existing Models to New Projects

Closing SummaryClosing Summary

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Thank you

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