Ensure availability and sustainable management of water and sanitation for all.
By integrating sustainable water management principles into operational practises and engaging in leading academic and research programs related to improving access to safe water resources, ³Ô¹ÏÍø demonstrates a strong commitment toward achieving SDG 6.
The work that ³Ô¹ÏÍø completed in 2023 to advance SDG 6.
Canada is home to more than 800,000 freshwater lakes, the largest cumulative area of freshwater in the world. These lakes offer tourism and recreation opportunities, provide consumable water, sustain wildlife biodiversity and are a key indicator of environmental change. ³Ô¹ÏÍø’s Sustainability Office partnered with the to host the focused on freshwater monitoring.
Lianne Leddy, an associate professor of History, was honoured with Canada’s top history prize. She received the in recognition of her book Serpent River Resurgence: Confronting Uranium Mining at Elliot Lake. Leddy documented the destructive legacy of uranium mining on Serpent River First Nation in northern Ontario, of which she is a member.
Through its New Frontiers in Research Fund (NFRF), the Government of Canada is investing in an innovative research project led by ³Ô¹ÏÍø faculty member Philip Marsh. He will receive $250,000 over two years to create a new method of measuring Arctic snowfall.
William Quinton, the ³Ô¹ÏÍø Research Chair in Cold Regions Hydrology, was named the 2024-25 University Research Professor. Quinton is dedicated to developing new knowledge, predictive tools and adaptation strategies for decision-makers and First Nations confronting the effects of climate change in the Northwest Territories. He participated in the formation of ³Ô¹ÏÍø’s longstanding research partnership with the territorial government.
³Ô¹ÏÍø research centres advancing SDG 6.
The is a multidisciplinary, collaborative undertaking among research faculty in the Faculty of Arts, the Lazaridis School of Business and Economics and the Faculty of Science. The focus of the institute is on research in three interconnected water-related disciplines:
The was established in 1987. Initially focused on arctic and mountain glaciology and hydrology, the scope has broadened to cold regions (mountain and northern) research consulting on topics such as hydrology, climatology, glaciology, resource management, parks planning and biogeochemistry.
³Ô¹ÏÍø initiatives in 2023 that advanced SDG 6.
³Ô¹ÏÍø annually measures the total volume of water used by the university at each campus location.
|
Campus |
Total 12-Month Cubic Metre |
Number of Accounts |
|---|---|---|
|
Waterloo |
127,063 |
47 |
|
Brantford |
19,096 |
21 |
|
Kitchener |
138 |
2 |
|
All Campuses |
146,270 |
70 |
³Ô¹ÏÍø adheres to all regulations established by the City of Waterloo, City of Brantford and the Province of Ontario including the , City of Brantford and City of Waterloo .
Wastewater produced by ³Ô¹ÏÍø is treated by municipal wastewater treatment plants in both the and . The City of Waterloo Wastewater Services is actively to ensure continuous delivery of clean drinking water and treatment of wastewater while protecting natural resources.
The City of Brantford also runs a number of to ensure the effective, efficient and sustainable treatment of wastewater.
³Ô¹ÏÍø has a number of processes in place to prevent contaminated water from entering the water systems in its home communities. The institution adheres to all established protocols and regulations set by itself and oversight agencies.
To protect regional waterways, a number of frameworks have been put in place:
Hazardous wastes are wastes that, when present in quantities and concentrations that are high enough, pose a threat to human health or the environment if they are improperly stored, transported, treated or disposed. Hazardous waste must be disposed of responsibly in accordance with and . Hazardous chemical waste is picked up directly from each lab in accordance with ³Ô¹ÏÍø’s established Hazardous Waste Management Procedure.
³Ô¹ÏÍø’s Laboratory Safety manual provides detailed guidance on the prevention of chemical spills. ³Ô¹ÏÍø adheres to the Environmental Protection Act and Ontario Regulation 675/98, which require immediate reporting of spills to ensure immediate and effective clean up.
³Ô¹ÏÍø is committed to providing a safe and healthy environment to all members of the university community, visitors and contractors. The university is potentially subject to natural, technological and human-made emergencies that could threaten the community, its core academic mission, and/or environment. The Emergency Management Policy provides a framework and emergency management plans to prepare the university to deal with events such as chemical spills.
All activities that have the potential to impact water quality are subject to environmental assessment to assess risk and mitigate any potential harm.
³Ô¹ÏÍø is committed to promoting the efficient use of water among faculty, staff and students. There are 50 free, filtered Elkay waterfill stations at ³Ô¹ÏÍø. The majority of the units also have a fountain provided for those who do not have a reusable water bottle. The units count the amount of plastic water bottles saved. Since installations began in 2014, ³Ô¹ÏÍø has saved more than one million bottles from entering the waste stream.
By including reusable water bottles in student welcome packages, ³Ô¹ÏÍø discourages the use of single-use plastics and promotes a culture of environmental stewardship. The refill stations, strategically located in high-traffic areas, feature digital counters to track the reduction of plastic waste, contributing to ³Ô¹ÏÍø’s broader sustainability initiatives. This approach exemplifies ³Ô¹ÏÍø’s dedication to reducing environmental impacts while fostering responsible behavior among students, staff and faculty.
Recognizing that its activities have an impact upon the environment, ³Ô¹ÏÍø acknowledges a responsibility to protect the environment and the health of the community in all of its activities. As outlined in the institution’s Sustainability Policy, ³Ô¹ÏÍø is committed to sustainability design standards for major projects that will enable the university to work toward green building standards for new builds, and introduce principles of sustainable construction, renovations and landscape design. ³Ô¹ÏÍø participates in the LEED program with two certified LEED buildings: the Research and Academic Centre in Brantford (LEED Silver) and Lazaridis Hall in Waterloo (LEED Gold). This third-party certification focuses on innovative design and minimizing resources used during construction, and in consumption of water and energy.
Additionally, the institution has taken steps to retrofit buildings and introduce new approaches to the campus environment to reduce water consumption. These include the installation of 13,000 low-flow water fixtures, the establishment of four green roofs addressing stormwater management and boosting thermal performance, and the introduction of low-impact developments across the grounds featuring native drought tolerant plant species to support pollinators, address stormwater management and reduce water consumption.
Sustainability is one the core principles of ³Ô¹ÏÍø’s Landscaping Masterplan. ³Ô¹ÏÍø is committed to building in environment, social and economic sustainability principles into all aspects of the institution’s landscaping. Ecological principles have been applied to the campus plant community, including prioritizing planting of native, drought-tolerant species. Examples include sumac, Gray Dogwood, Thimbleweed, Broom Sedge, Wild Geraniums and Black-eyed Susans.
³Ô¹ÏÍø’s Sustainability Policy identifies opportunities to reduce water consumption and implement water conservation measures, including approaches to water reuse.
The institution has created a swale catchment system under a building downspout, a 10,000-litre, below-ground water cistern in a low grade area prone to flooding, and a 2,350-litre, above-ground water cistern. These supply all of our water for grounds maintenance. ³Ô¹ÏÍø also has an area on campus that directs water into a cistern which is used for irrigation. The institution plants native species on hilly areas to stop erosion. At Lazaridis Hall, an underground cistern captures rainwater off the roof for use as grey water throughout the building.
³Ô¹ÏÍø's water recovery and reuse infrastructure underscores its dedication to sustainable campus operations. At Lazaridis Hall (LEED Gold), a grey water system captures and filters rainwater for use in landscaping and toilets, demonstrating an innovative approach to water conservation. Additionally, ³Ô¹ÏÍø’s Brantford campus, including the LEED Silver-certified Research and Academic Centre, employs a 37,000-litre rainwater harvesting system, alongside a 2,350-litre system, for irrigation purposes. Complementing these efforts are green infrastructure, such as stormwater cisterns, rain gardens, green roofs and bioswales, which further strengthens ³Ô¹ÏÍø's commitment to low-impact development.
The Aquatic Science Outreach Network for the Grand (AquaSONG) is a public, free field trip program for 10th and 11th graders coordinated by ³Ô¹ÏÍø and its Centre for Cold Regions and Water Science. The primary purpose of this field trip is to inform and educate local high school students on the fragility of this local water body, encourage creative collaboration in a laboratory setting, teach basic field sampling techniques and demonstrate methods of analysis. The experience is centred around the concepts of wastewater treatment and analysis, and freshwater aquatic biology.
³Ô¹ÏÍø researchers are partnering with loca Northwest Territories (NWT) community members to host . These camps involve shared on-the-land experiences with researchers and community members, including local youth. The design of the camps is two-patterned on the Cross-Cultural Research Camp model for co-production of knowledge established in the Sahtú region, including: interactive experiences with traditional knowledge arising from “way of life” practices on the land; consideration of knowledge and its communication at different scales and from different sources; and science-based research and monitoring education and methods.
arose from Agenda 21 of the 1992 United Nations (UN) Conference on Environment and Development in Rio de Janeiro, Brazil. The first International World Water Day was commemorated in 1993. Each year, UN-Water, an agency that coordinates the efforts of UN entities and international organizations working on water and sanitation issues, selects a theme to highlight a specific aspect of freshwater. World Water Day is celebrated on March 22.
Since 2010, the (LIWS), along with its graduate student group, has held an annual Graduate Research Fair and Water Celebration. Beginning in 2019, ³Ô¹ÏÍø and LIWS, and have hosted WWD events focussing on regional and northern water issues, including conscious water usage on campus, highlighting the breadth and depth of water research at ³Ô¹ÏÍø and in the Northwest Territories. This event is organized and attended by students, government officials, community groups, industry and non-governmental organizations.
Since 2015, ³Ô¹ÏÍø has dedicated up to $30,000 annually to help grow sustainability ideas that benefit the ³Ô¹ÏÍø community through the . The program leverages ³Ô¹ÏÍø’s entrepreneurial and community spirit by engaging students, faculty and staff to integrate sustainability practices, including conscious water usage, into all aspects of life at ³Ô¹ÏÍø. For example, in 2023, ³Ô¹ÏÍø launched the ‘My Green Lab’ certification for science research laboratories. This non-credit certificate supports a culture of sustainability on campus by exploring new processes and technologies, sourcing sustainable products, procuring less harmful materials, and reducing waste, energy and water consumption.
Communities throughout the Sahtú, in the Northwest Territories, have expressed concerns about the cumulative impacts of development and climate change on the quality and quantity of the waters in the region and consequent risks to human and ecosystem health. Some of these concerns are related to mining and other industrial developments in the region and beyond. More recently, the impacts of climate change, which include increased frequency of forest fires, changes to hydrological regimes and landscape changes due to permafrost thaw, are adding to these concerns. As a result, many have stopped drinking from local water sources, preferring to purchase drinking water imported from elsewhere. Questions about water quality and ecosystem health are common as livelihoods in the Sahtú are closely linked to their land and waters.
³Ô¹ÏÍø researchers are partnering with local community members to host . These camps involve shared on-the-land experiences with researchers and community members, including local youth. The design of the camps is two-patterned on the Cross-Cultural Research Camp model for co-production of knowledge established in the Sahtú region, including: interactive experiences with traditional knowledge arising from “way of life” practices on the land; consideration of knowledge and its communication at different scales and from different sources; and science-based research and monitoring questions and methods.
The Water Knowledge Camps support strengthened frameworks for risk communication and risk management and strengthen the foundation for co-production of knowledge related to water. Project outcomes provide crucial support for the community goals of launching Guardian programs, where community members monitor, observe and report on changes to their lands and water and inform policy related to this and ensure its conservation. By focusing on youth, the hope is to encourage and motivate them to become more involved in the monitoring of their lands and waters and to pursue opportunities in science as a way of becoming leaders in their communities and stewards of their lands.
Water for ³Ô¹ÏÍø’s campus locations is provided by the City of Waterloo and the City of Brantford. Both these cities have source water protection in places as part of a multi-barrier approach to protecting sources of drinking water, such as lakes, rivers and groundwater, before they become contaminated or depleted.
As a result of the Clean Water Act, communities in Ontario are required to develop source protection plans to protect their municipal sources of drinking water. Both Waterloo and Brantford are located in the Grand River watershed. Their source water protection policies are part of the , which is in turn part of the .
³Ô¹ÏÍø is a core partner in (GWF), a pan-Canadian research program that is funded in part by a $77.8-million grant from the Canada First Research Excellence Fund. The goal of the program is to deliver risk management solutions - informed by leading-edge water science and supported by innovative decision-making tools - to manage water futures in Canada and other cold regions around the world where global warming is changing landscapes, ecosystems and the water environment. GWF aims to position Canada as a global leader in water science for cold regions and addresses the strategic needs of the Canadian economy in adapting to change and managing risks of uncertain water futures and extreme events. End-user needs drive strategy and shape science.
GWF is closely linked to a number of institutions, governments and organizations , contributing scientific and technical advancements and dedicated leadership to many key international initiatives. This expands the activities and influence of GWF well beyond Canada to address the issues of global climate and Earth system change and water security.
As part of GWF, ³Ô¹ÏÍø researchers are leading , a major multi-disciplinary, multi-partner research project. Northern water security is essential to the vitality of northern communities, the security of traditional food sources and the responsible development of northern resources. Northern Water Futures is supported by strong relationships ³Ô¹ÏÍø has built over time with a diverse network of partners across the Northwest Territories as part of the ³Ô¹ÏÍø-Government of the Northwest Territories Partnership. Northern Water Futures partners with local, regional and territorial governments.
Also as part of GWF, the project was co-developed between Matawa First Nations Management and ³Ô¹ÏÍø following the Matawa Chiefs Council Resolution #11-02-08-18: Watershed Stewardship Capacity Building. The over 180,000 square kilometers of watersheds associated with the Matawa member First Nations homelands form an integral part of their culture and heritage and are directly linked to their sustained health and long-term sustainability. In light of this, and in light of Matawa member First Nations’ intent to lead watershed stewardship within their traditional territories, the Matawa Chiefs resolved to seek opportunities to increase capacity to actively steward community watersheds. The Matawa Chiefs further resolved that all watershed stewardship initiatives will be guided by and centred in community values, priorities and processes and would engage Elders.
Discover how ³Ô¹ÏÍø is contributing to United Nations Sustainable Development Goal targets.
