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Why is water important in Canada?
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Does Canada have clean water?
Who is responsible for fresh water in Canada?
Jul 1, 2009 · By an overwhelming margin, Canadians consider fresh water to be the most important natural resource to Canada’s future. By a margin of 3-1, they chose water over oil and gas as the key natural resource for Canada’s future.
- Nik Nanos
Global warming most important issue for Canadians at G8 and...
- Nik Nanos
- Is Canada a "water-rich" country?
- How do you measure water in lakes and rivers?
- Why do you need to know how much water Canada has?
- Which are the largest bodies of water in Canada?
- What percentage of Canada's fresh water is found in the Northwest Territories and Nunavut?
- What is meant by sustainable development of water resources?
- Is the water that flows into the oceans from lakes and rivers wasted?
Assessing the "water-richness" of Canada is a complex process involving many geographic, physical, economic, and social issues. Canada's fresh water can be found in the form of rivers, lakes, groundwater, ice, and snow. Considering that on an average annual basis, Canadian rivers discharge close to 7% of the world's renewable water supply, Canada appears to have a generous water endowment. Aggregate measures, however, can be deceiving.
Some areas in the interior of British Columbia, the southern Prairies, and the high Arctic experience arid or semi-arid climates (less than 35 centimetres of annual precipitation). In these areas, the water supply is further limited because the groundwater tends to be salty and unsuitable for many uses.
Approximately 60% of Canada's fresh water drains to the north, while 85% of the population lives within 300 kilometres of the Canada-United States border. Many areas have restricted water supplies, and water availability constitutes a major concern for water management. Even in the Great Lakes basin, the world's largest freshwater lake system, some off-lake areas in southern Ontario experience periodic and even chronic water shortage, and groundwater "mining" takes place (i.e., more water is taken out of the aquifer than is being recharged). In this region, a significant increase in the consumptive use or a reduction in the supply of Great Lakes waters would result in a lowering of long-term mean levels of the lakes.
In many of the settled areas of the country, water is extremely polluted and is either unsuitable for human, animal, and industrial use or usable only at a relatively high cost of treatment.
Figure - water flow comparisons
Environment Canada's Water Survey of Canada, along with many contributing agencies, presently measures the rate of flow (discharge) in rivers and records the levels of lakes and rivers at more than 2900 locations in Canada.
•Water levels are read manually by gauge readers or continuously recorded either electronically or on graph paper or in digital form.
•Rate of flow (or discharge) requires multiple measurements of channel depth, width, and flow velocity to yield the average discharge in the stream crossing for a given water level. Measurements can be made electronically from a bridge, by wading into a stream, by boat, or from a cableway strung across the river. In winter, the measurements are made through the ice.
•With sufficient measurements of flow over a variety of water levels (including extreme lows and highs), a water level-discharge relationship is established at each location so that the discharge can be computed from measured water levels.
•Historical records from over 8000 active and discontinued sites permit the estimation of streamflow at ungauged locations.
This table shows typical river flows in meters cubed per second. The annual average, as well as the highest and lowest daily averages are also indicated.
Water level and discharge information is essential for the wise management of Canada's water resources. For example,
•to allocate water between various users
•to manage water resources or minimize the impacts of extreme flows (e.g., flood protection, floodplain mapping, diversion canals, and irrigation)
•to design and construct bridges, canals, culverts, roadways, water supplies, irrigation facilities, and countless other structures
•to plan and conduct environmental programs and assessments related to water quality, fisheries, and wildlife habitat
•to ensure that the nation's water resources are developed in a manner that conserves and protects the environment.
Our rivers and lakes situated north of 60 degrees latitude constitute some of Canada's largest water bodies. The Mackenzie River, for example, is over 4000 kilometres long and is the country's largest river. Great Bear Lake, Northwest Territories, is the world's ninth largest lake (by area). The St. Lawrence-Great Lakes drainage basin is the largest in southern Canada.
Details can be found below
Longest rivers in Canada. The illustration shows that the longest rivers in Canada are as follows: Albany River: 980 kilometres; Severn River: 980 kilometres; Assiniboine River: 1070 kilometres; Liard River: 1120 kilometres; Yukon River (Canadian portion): 1150 kilometres; Athabasca River: 1230 kilometres; Ottawa River: 1270 kilometres; North Saskatchewan River: 1290 kilometres; Fraser River: 1370 kilometres; Peace River: 1540 kilometres; Churchill River (Saskatchewan): 1610 kilometres; Nelson River: 2580 kilometres; St. Lawrence River: 3060 kilometres; Mackenzie River: 4240 kilometres.
*Canadian portion only
Note: Numbers have been rounded
Details can be found below
The Northwest Territories and Nunavut cover 34% of Canada's land mass, and have 18% of its lake area. Average annual runoff produced within the two territories is 18% of the total for Canada, and another 5% of that total flows into this area from the south.
The Northwest Territories' and Nunavut's portion of Canada's fresh water must be estimated on the basis of the total mean annual flow of rivers, as accurate data on water stored in its lakes, under the ground, and in glaciers are unavailable. However, northern runoff is less significant than commonly perceived because the North is a cold desert. Relatively little water is actually circulating in the hydrologic cycle, due to permafrost conditions, seasonal storage of water in snow, and long-term storage in glaciers.
Many Aboriginal peoples of Canada believe that one must consider the impact of any decision on one's children, grandchildren, and great grandchildren seven generations hence to ensure that their needs can be accommodated in the future. Sustainable development has been defined by the Canadian Council of Ministers of the Environment as "development which ensures that the utilization of resources and the environment today does not damage prospects for their use by future generations". For example, industrial development on a river may involve activities that seriously damage our soil, water, and atmospheric systems.
To make the development "sustainable", environmental, social, and economic planning cannot proceed independently of each other. They must be integrated. Our water resources must be developed in harmony with the natural ecosystem so that neither the water resource nor the plant and animal life dependent on it are depleted or destroyed for short-term gain and at the expense of future generations. Long-term economic growth depends on a healthy environment.
Not at all. It is an essential part of the global hydrologic cycle. This water is vital to navigation, recreation, fish and wildlife support, and waste dilution, and so sustains the lifestyles of large and small communities across Canada. Even in the least populated northern reaches of this country, the seasonal fluctuation of high and low flows strengthens a stable relationship among natural forces such as climate, sediment transport, and freshwater discharge to the marine environment. For example, the Mackenzie River system has two inland deltas and one of the world's largest marine deltas, the Mackenzie Delta. (A delta is sediment deposited where a river discharges into a lake or ocean.) Most of the birds using the western flyway make their home in these deltas or use them to rest and feed on their long migrations. Northern rivers flowing into the Arctic Ocean are an essential component of the hydrologic cycle and contribute to this large aquatic ecosystem.
Details can be found below
Mar 21, 2019 · In honour of World Water Day, here are eight numbers and figures that capture Canadian water usage and its importance to our economy and way of life. Canada is a water-rich country, but natural fluctuations in seasonal rain and snowfall can cause shortages in some years and flooding in others.
- Alexandra Pope
The 2030 Agenda recognizes the centrality of water resources to sustainable development. Improved drinking water, sanitation and hygiene are vital to driving progress in other areas, including health, education and poverty reduction.
Canada has about 20% of the planet's freshwater resources and 7% of the world's renewable fresh water. Read more on why this goal is important.
Feb 7, 2006 · Water may be drawn for use from rivers, lakes and groundwater supplies. It may also be put to uses (eg, HYDROELECTRICITY, fishing, navigation, recreation and wildlife habitat), which involve little consumption of water. Canada is fortunate in having relatively abundant supplies.
Jun 25, 2021 · Why combine so many priorities – along with clean water? Because drinking water alone can’t keep children safe from threats like waterborne illnesses, lost education and physical and sexual assault.
