Difference between revisions of "Managing Costs and Containing Risks using the One Water Approach"

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=== Provincial Policy Statement ===
 
=== Provincial Policy Statement ===
 
The Provincial Policy Statement states “the watershed is the ecologically meaningful scale for integrated and long-term planning.” This guide puts forward the watershed and/or subwatershed as an incredibly useful boundary to consider for water sustainability planning. The Provincial Policy Statement also emphasizes that planning authorities should consider the potential increased natural hazard risk associated with climate change.
 
The Provincial Policy Statement states “the watershed is the ecologically meaningful scale for integrated and long-term planning.” This guide puts forward the watershed and/or subwatershed as an incredibly useful boundary to consider for water sustainability planning. The Provincial Policy Statement also emphasizes that planning authorities should consider the potential increased natural hazard risk associated with climate change.
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=== Provincial Water Quality Objectives (PWQO's) ===
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Water management in Ontario is, in part, guided by the policies outlined in this document, also known as the “Blue Book.” This document provides direction on management of surface water and groundwater from a quality and quantity perspective. These are the stated goals of the document:
 +
*Ensure water quality is satisfactory for aquatic life and recreation, to preserve groundwater quality to a quality protective of the greatest number of beneficial uses.
 +
*Manage surface water and groundwater quantity to ensure a fair sharing among users, water conservation, and sustainability of the resource.
 +
 +
The Blue Book outlines the Provincial Water Quality Objectives (PWQO), which are numerical and narrative criteria which serve as chemical and physical indicators representing satisfactory level for surface waters and where it discharges to the surface water and groundwater of the Province. The PWQO are a set at a level of water quality that is protective of all forms of requirements aquatic life and recreational use of surface waters.

Revision as of 21:36, 17 September 2017

Managing Costs and Containing Risks Using the One Water Approach[edit]

Integrated Stormwater Management Planning requires robust application of the One Water approach. Municipalities can employ the One Water approach in order to both explore the interconnections between water systems and to use this information to make the most informed water management decisions. Using this approach will help to a) ensure that water infrastructure systems deliver the appropriate level of service to human populations, and b) minimize negative impacts on other water systems, including natural systems like aquifers, streams, and lakes. Making the transition to a new, forward-looking, and sustainable integrated water management framework will support municipalities and other decision makers in addressing a complex system of drivers and risks. Such drivers and risks include aspects related to climate change, urban development, redevelopment and intensification of existing areas. Failing infrastructure – and the cost of its repair and replacement – is one example of risks. A 2007 survey carried out by the Federation of Canadian Municipalities (FCM) and McGill University survey found that the estimated water infrastructure deficit in Canada was $31 billion for existing infrastructure, plus $56.6 billion for new infrastructure needs, including water, wastewater and stormwater systems (FCM, 2007). Since the One Water approach considers these systems in a systematic, integrated manner, it can help water managers identify cost-effective solutions that can impact and improve multiple systems. It can also help municipalities determine and prioritize investments based on benefits to residents and the watershed.

Rainwater harvesting is one simple example of a cost-effective solution which yields multiple benefits. Rainwater harvesting provides an alternative water source for activities that do not require potable water, such as gardening or flushing toilets. In turn, residents use less municipal drinking water – which is expensive and energy intensive to treat and distribute, especially for such activities. For some municipalities, including the City of Toronto, Region of Peel, and City of Guelph, treating and distributing water can account for 25% to 60% of total municipal electricity costs. As such, the One Water approach can provide conservation not only of water, but of energy. This relationship is known as the water-energy nexus. Additionally, capturing rainwater decreases the flow of water to municipal stormwater management systems, which can alleviate stress on older systems that lack capacity for high volumes of water, potentially reducing instances of flooding and erosion. The alleviation of such stresses is akin to finding ‘hidden capacity’ within an existing system, and can result in the deferment of expensive system upgrades if implemented on a broad enough scale. The One Water approach emphasizes solutions that offer multiple benefits. To properly evaluate these solutions, it is helpful to consider water management through the lens of the watershed.

The Watershed Perspective[edit]

A conceptual image depicting a Lake Ontario watershed demonstrates that the watershed scale reveals the connections between different water management activities, and their reliance on shared water resources. The figure depicts a scenario where storm sewers discharge directly to streams and lakes without treatment, and areas where ponds treat stormwater prior to discharge. The figure shows drinking water sourced from groundwater, riverine and lake sources, as well as a pipeline to transport the water to upper reaches within the watershed. Lastly, river-based and lake-based wastewater discharge – including from combined sewers – is also shown. (Source: CVC).

As noted in previous section, the watershed scale is an appropriate spatial scale for many water infrastructure and water management decisions, as it is a functional response unit. While working to employ the precepts of the One Water approach within a municipal water planning framework, it is helpful to start with the watershed as a foundational perspective. The watershed perspective reveals the complex, manifold ways in which water systems – natural and built – are connected. Understanding these layers, how they are linked, and how a watershed functions will support cost-effective, holistic municipal water and land management. It will also make clear many types of levels of risk which otherwise may not have been revealed. For example, a rainfall event might lead to contaminated stormwater runoff draining to drinking water supply intake locations. A watershed approach not only encourages the identification of these types of risks, but also makes it easier to determine potential solutions to mitigate problems. Efforts to minimize risk can encourage municipalities to work together on integrated planning and management solutions, since watersheds cross political boundaries.

Phased Approaches to Implementing an Integrated Water Management Strategy[edit]

The purpose of this section of the wiki guide is to provide direction on how to follow a phased approach to completing a water sustainability plan. It is a tool that water managers can use to streamline planning efforts, reduce costs, and coordinate decisions and management tasks relating to water infrastructure. This section also includes suggestions on how to expand upon existing information to fill data gaps within a given study area. It will also provide linkages to – and build upon - many external resources produced by the STEP partners that give further guidance and consideration to matters which impinge upon sustainable planning and the One Water approach, including matters pertaining to climate change, asset management, risk assessment and more. To ensure that we are making informed water management decisions and developing only the most prudent stormwater designs it is critical that we accept and embrace the intrinsically interconnected nature of water resources in Ontario.

Supporting Policies[edit]

Within the Province of Ontario, we are fortunate to have a number of pre-existing policies, protocols and guidance documents which directly and/or indirectly support various elements related to water management. This wiki is one such guide. The following policies are also relevant to integrated water management decision making:

Provincial Policy Statement[edit]

The Provincial Policy Statement states “the watershed is the ecologically meaningful scale for integrated and long-term planning.” This guide puts forward the watershed and/or subwatershed as an incredibly useful boundary to consider for water sustainability planning. The Provincial Policy Statement also emphasizes that planning authorities should consider the potential increased natural hazard risk associated with climate change.

Provincial Water Quality Objectives (PWQO's)[edit]

Water management in Ontario is, in part, guided by the policies outlined in this document, also known as the “Blue Book.” This document provides direction on management of surface water and groundwater from a quality and quantity perspective. These are the stated goals of the document:

  • Ensure water quality is satisfactory for aquatic life and recreation, to preserve groundwater quality to a quality protective of the greatest number of beneficial uses.
  • Manage surface water and groundwater quantity to ensure a fair sharing among users, water conservation, and sustainability of the resource.

The Blue Book outlines the Provincial Water Quality Objectives (PWQO), which are numerical and narrative criteria which serve as chemical and physical indicators representing satisfactory level for surface waters and where it discharges to the surface water and groundwater of the Province. The PWQO are a set at a level of water quality that is protective of all forms of requirements aquatic life and recreational use of surface waters.