Canadian Environmental Indicators — Water
Fraser Institute, Studies in Environmental Policy, July 2013
66 Pages Posted: 29 Aug 2013
Date Written: July 16, 2013
Abstract
Canadians are concerned about the abundance and quality of our freshwater resources, yet information is widely dispersed and often difficult to obtain. This publication reviews a wide array of data and government publications to assess the state of Canada’s water resources in an effort to make the information more accessible to policy-makers and the general public.
According to World Bank data, Canada has the fourth largest supply of annual renewable freshwater in the world. However, most major sources are situated far north of our population centres, southern supplies have been declining in recent decades, and we have relatively high per-capita usage (9th) compared to other countries. Nonetheless, Canadians still consume only a small fraction (1.6%) of what is annually available. Furthermore, there are proven and effective policy tools like water pricing and allocation markets that can improve management in areas that currently experience seasonal shortages.
Canada ranks 9th in the world for water quality on the basis of a small subset of water-quality parameters (dissolved oxygen, pH, conductivity, phosphorus, and nitrogen). Furthermore, calculations based on data over time from specific water monitoring stations with a larger parameter set indicate that water quality across Canada appears to have been stable at most stations since the 1990s. In addition, nutrient levels in major Canadian rivers and lakes have largely remained stable between 1990 and 2006.
To obtain a more comprehensive picture of how Canadian water quality has changed over time, Canadian Environmental Indicators — Water reviews numerous government reports from each province. When we examine evidence from individual provinces over the long term, it is clear that, for many forms of pollution, water quality has improved greatly since the 1970s. In Ontario, total phosphorus has generally decreased in lakes and rivers since the 1970s. There has also been a general decline in mercury, PCBs, and many other toxic substances in the waters of Ontario and Quebec. Another example of improving water quality is the return to pre-settlement levels of total phosphorus in Lake Osoyoos in British Columbia. Bacteria levels are decreasing in major Alberta rivers from improvements to sewage treatment. Due to improvements in the bleaching process used in British Columbia’s pulp and paper mills, the province’s rivers have seen a significant decreases in chloride levels since the 1980s. Evidence from Ontario suggests that pesticides and pharmaceuticals in drinking water and chloride in rivers from road salt are currently not at a level to prompt concern for water quality.
Keywords: environment
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