Lake Winnipeg algae threat

Lake Winnipeg has experienced excessive algae blooms since the 1990s.[1] The lake's toxic blue-green algae has led to a deterioration of water quality, posing hazards to both human and animal ecosystems. The blooms are caused by high concentrations of nitrogen and phosphorus from fertilizer runoff and sewage draining into the lake via rivers and surface runoff.

Lake Winnipeg covered in algae blooms. (July 2007)

By 2006, Lake Winnipeg's algae blooms were considered to be the worst algae problem of any large freshwater lake in the world, according to Canadian Geographic.[2] In 2013, Lake Winnipeg was declared the most threatened lake in the world by the Global Nature Fund, due to excessive levels of phosphorus. Attempts to decrease the levels have been unsuccessful. In 2017, it was reported that a five-year effort removed less than 1% of the phosphorus.[3]

Very high levels of the algae toxin microcystin closed Victoria Beach off from the public in the summer of 2003.[4] Grand Beach and other settlements along the lake are often closed during summer months due to E. coli and algae-toxin-related threats. Immense algae blooms covering hundreds of square kilometers have appeared in the northern part of Lake Winnipeg since the 2010s.

Social and economic impacts

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Damage to Lake Winnipeg's ecological balance has had adverse economical effects for the area's $100 million a year tourism industry and $25 million a year fishing industry.[5] The toxins that blue-green algae release destroy freshwater ecosystems and are dangerous for a wide variety of aquatic and terrestrial species, including humans. Deadly water conditions in prairie dugouts have killed livestock.[4] Commercial and indigenous fishermen on the lake often find their nets disabled during the summer months due to the thick algae conditions.

Watershed and water supply problems

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Lake Winnipeg ranks as the 11th largest freshwater lake in the world by surface area. The lake consists of three well-defined regions, the larger North Basin, the smaller South Basin, and the connecting body of water defined as the "Narrows", all of which are greatly affected by algae blooms. The surrounding watershed's drainage basin is roughly forty times larger than the lake's surface area. This ratio is higher than any other major lake in the world, making Lake Winnipeg more susceptible to excessive nutrient levels. Because the lake holds a considerably small volume of water, the water quality is diminished by manmade structures and high nutrient loading.[6]
Eutrophication entry points in Lake Winnipeg include:

Water outflow points in Lake Winnipeg include:

The Red River accounts for roughly 7,716 tonnes of phosphorus draining into Lake Winnipeg per year.[5] Approximately 2,500 tonnes of phosphorus flow out of the lake every year through the Nelson River.[7] It is estimated that incoming phosphorus levels are doubled by agriculture and waste waters from the northern United States. The Saskatchewan River carries phosphorus from Alberta and Saskatchewan into the northwestern part of the lake. The Winnipeg River also nutrient loads the lake from Minnesota and Ontario. The nearby City of Winnipeg does not remove nitrogen and phosphorus from the majority of its wastewater (though upgrades to its sewage treatment plants were underway as of 2017[8]), and these nutrients flow directly into Lake Winnipeg. Due to the washing and filtration techniques used by year-round and seasonal inhabitants along Lake Winnipeg, phosphorus-enriched soapy water can seep into the lake.[5]

Hydroelectricity

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A large hydroelectric dam in Grand Rapids, Manitoba, controls the powerful Saskatchewan River. The river currents rapidly catch runoff from much of the Canadian prairies, which then flows through a narrow channel eventually spilling into the north side of Lake Winnipeg. Manitoba Hydro operates numerous dams throughout Manitoba that directly affect Lake Winnipeg's water levels and flow rate. Hydroelectric operations along Lake Winnipeg produce hundreds of millions of dollars in revenue every year for Manitoba Hydro.[9] Pressure from provincial authorities and the media has prompted Manitoba Hydro to donate more than $1.35 million over a six-year span to help researchers tackle the constant biological and water quality changes in Lake Winnipeg.[10]

Chemical and biological problems

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Environment Canada reports that the amount of nitrogen and phosphorus in Lake Winnipeg has increased dramatically since the 1990s. The causes are a massive increase in the use of agricultural fertilizer, burning of fossil fuels, development of large urban populations, and an upsurge in land clearing and deforestation.[11] Nitrogen and phosphorus loading from human activity has accelerated eutrophication of certain rivers, lakes, and wetlands, resulting in loss of habitat, changes in biodiversity and, in some cases, loss of recreational potential.[11] Lake Winnipeg suffers from the rapid absorption of the elements phosphorus, nitrogen, and carbon. Eutrophication processes fuel the growth of blue-green algae, also known by its more correct scientific name cyanobacteria. These bacteria normally appear green in color and can turn blue when the algae (bacteria) blooms are dying. As an algae bloom dies, the microscopic cells break down, releasing toxins in the surrounding water. Once released, some toxins can linger for more than three months until sunlight and the natural population of healthy green algae in the lake degrade them.[12] Cyanobacteria typically thrive off of phosphorus when Lake Winnipeg's summer temperatures are hot and wind speeds are relatively low. Blue-green algae blooms frequently persist for several months in Lake Winnipeg until colder temperatures, currents, and changes in the seasonal weather can filter them out. The cyanobacteria's decomposition process consumes oxygen at such a high rate that this can actually suffocate Lake Winnipeg's native walleye fish species and other aquatic life. Although small amounts of blue-green algae occur naturally in Lake Winnipeg, there is no conclusive evidence of what normal levels may be. Satellite images show that blooms are occurring more frequently and are covering more surface area of the lake.[7] The Lake Winnipeg algae crisis has grown to such a large scale that the blooms can be seen from outer space.

Lake Winnipeg Research Consortium

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The Lake Winnipeg Research Consortium (LWRC) was founded in August 1998 to gather scientific research data on the lake following the disastrous 1997 Red River flood. Evidence showed that the lake was suffering from deteriorating water quality, particularly visible in the lake's chemical, biological, and physical characteristics. In 2011, LWRC reported that scientific evidence accumulated over the last seventy years now reveals that Lake Winnipeg is approaching a state of deterioration that may affect ecosystem sustainability; significant changes in water transparency, biological species composition, productivity, and sediment chemistry indicate that the lake is on a trajectory of progressive eutrophication.[13] The LWRC strives to promote public awareness and provide educational opportunities with respect to Lake Winnipeg's ecology and environmental issues. Research efforts are conducted on board the LWRC's 33.62-meter-long research vessel called the MV Namao, which accommodates a nine-person crew and has a cruising speed of twelve knots. The LWRC receives financial support to operate the Namao through Manitoba Hydro, private funding, and the provincial and federal government.[14]

References

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  1. ^ Macdonald, Nancy (August 20, 2009). "Canada's sickest lake". Maclean's. Archived from the original on 2009-08-28.
  2. ^ Casey, Allan (2006). "Forgotten lake". Canadian Geographic. Archived from the original on 21 November 2010. Retrieved 25 March 2021.
  3. ^ MacLean, Cameron (2017). "5-year fight removes less than 1% of phosphorus from Lake Winnipeg basin". cbc.ca.
  4. ^ a b CBC.ca. (2011). Annual check-up. Retrieved from http://www.cbc.ca/manitoba/features/lakewinnipeg/checkup.html Archived 2010-08-22 at the Wayback Machine
  5. ^ a b c Halter, Dr. Reese. (2007). saving lake winnipeg. Lu & Stoot LLC, (1) Retrieved from "Archived copy" (PDF). Archived from the original (PDF) on 2011-02-06. Retrieved 2011-02-02.{{cite web}}: CS1 maint: archived copy as title (link)
  6. ^ LWF. (2011). Challenges Lake Winnipeg faces four types of often-interrelated problems. Retrieved from "Challenges « Lake Winnipeg Foundation". Archived from the original on 2011-07-27. Retrieved 2011-02-02.
  7. ^ a b LWF. (2011). Facts about Lake Winnipeg. Retrieved from "Facts « Lake Winnipeg Foundation". Archived from the original on 2011-07-27. Retrieved 2011-02-02.
  8. ^ Department, City of Winnipeg: Water and Waste. "Funding - Winnipeg's Sewage Treatment Program Upgrades - Sewage - Water and Waste - City of Winnipeg". www.winnipeg.ca. Retrieved 2017-05-15.
  9. ^ Manitoba Wildlands. (2005). The Hydro Province: Manitoba's Hydroelectric Complex.(2-16). Retrieved from http://manitobawildlands.org/pdfs/HydroProvince.pdf Archived 2022-10-23 at the Wayback Machine
  10. ^ Brennan, Bob. (2011). MB Hydro Commits Funds for Lake Winnipeg Research. Water Canada Magazine. (1). Retrieved from http://watercanada.net/2011/mb-hydro-commits-funds-for-lake-winnipeg-research/ Archived 2011-07-24 at the Wayback Machine
  11. ^ a b P.A. Chambers, M. Guy, E. Roberts, M.N. Charlton, R. Kent, C. Gagnon, G. Grove, N. Foster, C. DeKimpe and M. Giddings. (2008). Threats to Sources of Drinking Water and Aquatic Ecosystem Health in Canada. Website of Environment Canada, archived version at the Wayback Machine
  12. ^ The state of Queensland.(2010). Department of Environment and Resource Management: blue-green algae. Retrieved from "Blue-green algae (Department of Environment and Resource Management)". Archived from the original on 2011-03-14. Retrieved 2011-02-02.
  13. ^ LWRC. (2011). About the science. Retrieved from http://www.lakewinnipegresearch.org/aboutscience.html Archived 2010-08-22 at the Wayback Machine
  14. ^ "LWRC. (2011). About Us. Retrieved from". Lakewinnipegresearch.org. Archived from the original on 2018-10-21. Retrieved 2012-09-09.