St. Lawrence Seaway | |
---|---|
Specifications | |
Length | 370 miles (600 km) |
Maximum boat length | 740 ft 0 in (225.6 m) |
Maximum boat beam | 78 ft 0 in (23.8 m) |
Maximum boat draft | 12.5 m (downstream of Quebec City), 10.7 m (Quebec City to Deschaillons), 11.3 m (Deschaillons to Montreal), 8.2 m (upstream of Montreal) |
Locks | 15 |
Maximum height above sea level | 570 ft (170 m) |
Status | Open |
History | |
Construction began | 1954 |
Date of first use | April 25 |
Date completed | 1959 |
Geography | |
Start point | Port Colborne, Ontario |
End point | Montreal, Quebec |
The St. Lawrence Seaway (French : la Voie Maritime du Saint-Laurent) is a system of locks, canals, and channels in Canada and the United States that permits oceangoing vessels to travel from the Atlantic Ocean to the Great Lakes of North America, as far inland as Duluth, Minnesota, at the western end of Lake Superior. The seaway is named for the St. Lawrence River, which flows from Lake Ontario to the Atlantic Ocean. Legally, the seaway extends from Montreal, Quebec, to Lake Erie, and includes the Welland Canal. Ships from the Atlantic Ocean are able to reach ports in all five of the Great Lakes, via the Great Lakes Waterway.
The St. Lawrence River portion of the seaway is not a continuous canal; rather, it consists of several stretches of navigable channels within the river, a number of locks, and canals along the banks of the St. Lawrence River to bypass several rapids and dams. A number of the locks are managed by the St. Lawrence Seaway Management Corporation in Canada, and others in the United States by the St. Lawrence Seaway Development Corporation; the two bodies together advertise the seaway as part of "Highway H2O". [1] The section of the river from Montreal to the Atlantic is under Canadian jurisdiction, regulated by the offices of Transport Canada in the Port of Quebec.
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The St. Lawrence Seaway was preceded by several other canals. In 1871, locks on the St. Lawrence allowed transit of vessels 186 ft (57 m) long, 44 ft 6 in (13.56 m) wide, and 9 ft (2.7 m) deep. The First Welland Canal, constructed between 1824 and 1829, had a minimum lock size of 110 ft (34 m) long, 22 ft (6.7 m) wide, and 8 ft (2.4 m) deep, but it was generally too small to allow passage of larger oceangoing ships. The Welland Canal's minimum lock size was increased to 150 ft (46 m) long, 26.5 ft (8.1 m) wide, and 9 ft (2.7 m) deep for the Second Welland Canal; to 270 ft (82 m) long, 45 ft (14 m) wide, and 14 ft (4.3 m) deep with the Third Welland Canal; and to 766 ft (233 m) long, 80 ft (24 m) wide, and 30 ft (9.1 m) deep for the current (Fourth) Welland Canal. [2]
The first proposals for a binational comprehensive deep waterway along the St. Lawrence were made in the 1890s. In the following decades, developers proposed a hydropower project as inseparable from the seaway; the various governments and seaway supporters believed the deeper water to be created by the hydro project was necessary to make the seaway channels feasible for oceangoing ships. U.S. proposals for development up to and including the First World War met with little interest from the Canadian federal government. But the two national governments submitted St. Lawrence plans to a group for study. By the early 1920s, both The Wooten-Bowden Report and the International Joint Commission recommended the project.
Although Canada’s Liberal Prime Minister William Lyon Mackenzie King was reluctant to proceed, in part because of opposition to the project in Quebec, in 1932 he and the U.S. representative signed a treaty of intent. This treaty was submitted to the U.S. Senate in November 1932 and hearings continued until a vote was taken on March 14, 1934. The majority voted in favor of the treaty, but it failed to gain the necessary two-thirds vote for ratification. Later attempts between the governments in the 1930s to forge an agreement came to naught due to opposition by the Ontario government of Mitchell Hepburn and the government of Quebec.[ citation needed ] In 1936, John C. Beukema, head of the Great Lakes Harbors Association and a member of the Great Lakes Tidewater Commission, was among a delegation of eight from the Great Lakes states to meet at the White House with US President Franklin D. Roosevelt to obtain his support for the seaway concept.
Beukema and St. Lawrence Seaway proponents were convinced a nautical link would lead to the development of the communities and economies of the Great Lakes region by permitting the passage of oceangoing ships. In this period, exports of grain, along with other commodities, to Europe were an important part of the national economy. Negotiations on the treaty resumed in 1938, and by January 1940 substantial agreement was reached between Canada and the United States. By 1941, President Roosevelt and Prime Minister Mackenzie King made an executive agreement to build the joint hydro and navigation works, but this failed to receive the assent of the U.S. Congress. Proposals for the seaway were met with resistance; the primary opposition came from interests representing harbors on the Atlantic and Gulf Coasts and internal waterways and from the railroad associations. The railroads carried freight and goods between the coastal ports and the Great Lakes cities.
After 1945, proposals to introduce tolls to the seaway were not sufficient to gain support for the project by the U.S. Congress. Growing impatient, and with Ontario desperate for the power to be generated by hydroelectricity, Canada began to consider developing the project alone. This seized the imagination of Canadians, engendering a groundswell of nationalism around the St. Lawrence. On September 28, 1951, Canadian Prime Minister Louis St. Laurent advised U.S. President Harry S. Truman that Canada was unwilling to wait for the United States and would build a seaway alone; the Canadian Parliament authorized the founding of the St. Lawrence Seaway Authority on December 21 of that year. Fueled by this support, Saint Laurent's administration decided during 1951 and 1952 to construct the waterway alone, combined with the Moses-Saunders Power Dam. (This became the joint responsibility of Ontario and New York: as a hydropower dam would change the water levels, it required bilateral cooperation.)
The International Joint Commission issued an order of approval for joint construction of the dam in October 1952. U.S. Senate debate on the bill began on January 12, 1953, and the bill emerged from the House of Representatives Committee of Public Works on February 22, 1954. It received approval from the Senate and the House by May 1954. The first positive action to enlarge the seaway was taken on May 13, 1954, when U.S. President Dwight D. Eisenhower signed the Wiley-Dondero Seaway Act [3] to authorize joint construction and establish the St. Lawrence Seaway Development Corporation as the U.S. authority. The need for cheap haulage of Quebec-Labrador iron ore was one of the arguments that finally swung the balance in favor of the seaway. Groundbreaking ceremonies took place in Massena, New York, on August 10, 1954. That year Eisenhower appointed Beukema to the five-member St. Lawrence Seaway Advisory Board.
In May 1957, the Connecting Channels Project was begun by the United States Army Corps of Engineers. By 1959, Beukema was on board the U.S. Coast Guard cutter Maple for the first trip through the U.S. locks, which opened up the Great Lakes to oceangoing ships. On April 25, 1959, [4] large, deep-draft ocean vessels began streaming to the heart of the North American continent through the seaway, a project supported by every administration from Woodrow Wilson through Eisenhower.
In the United States, N. R. Danelian (who was the director of the 13-volume St. Lawrence Seaway Survey in the U.S. Department of Navigation (1932–63)), worked with the U.S. Secretary of State on Canadian-U.S. issues regarding the seaway, persevering through 15 years to gain passage by Congress of the Seaway Act. He later became president of the Great Lakes St. Lawrence Association to promote seaway development to benefit the American heartland. The seaway was heavily promoted by the Eisenhower administration, which had been concerned with a lack of US control. [5]
The seaway opened in 1959 and cost C$470 million, $336.2 million of which was paid by the Canadian government. [6] Elizabeth II, Queen of Canada and American President Dwight D. Eisenhower formally opened the seaway on June 26, 1959 with a short cruise aboard the royal yacht HMY Britannia after addressing crowds in Saint-Lambert, Quebec. [7] 22,000 workers were employed at one time or another on the project, a 3,700-kilometre-long (2,300 mi) superhighway for ocean freighters. [5] Port of Milwaukee director Harry C. Brockel forecast just before the Seaway opened in 1959 that "The St. Lawrence Seaway will be the greatest single development of this century in its effects on Milwaukee's future growth and prosperity." Lester Olsen, president of the Milwaukee Association of Commerce, said, "The magnitude and potential of the St. Lawrence Seaway and the power project stir the imagination of the world." [5]
The seaway's opening is often credited with making the Erie Canal obsolete and causing the severe economic decline of several cities along the canal in Upstate New York. But by the turn of the 20th century, the Erie Canal had already been largely supplanted by the railroads, which had been constructed across New York and could carry freight more quickly and cheaply. Upstate New York's economic decline was precipitated by numerous factors, only some of which had to do with the St. Lawrence Seaway.
Under the Canada Marine Act (1998), the Canadian portions of the seaway were set up with a non-profit corporate structure; this legislation also introduced changes to federal ports. [8]
Great Lakes and seaway shipping generates $3.4 billion in business revenue annually in the United States. In 2002, ships moved 222 million tonnes of cargo through the seaway. Overseas shipments, mostly of inbound steel and outbound grain, accounted for 15.4 million tonnes, or 6.9%, of the total cargo moved. [5] In 2004, seaway grain exports accounted for about 3.6% of U.S. overseas grain shipments, according to the U.S. Grains Council. In a typical year, seaway steel imports account for around 6% of the U.S. annual total. The toll revenue obtained from ocean vessels is about 25–30% of cargo revenue. [5] The Port of Duluth shipped just over 2.5 million tonnes of grain, which is less than the port typically moved in the decade before the seaway opened Lake Superior to deep-draft oceangoing vessels in 1959. [5]
International changes have affected shipping through the seaway. Europe is no longer a major grain importer; large U.S. export shipments are now going to South America, Asia, and Africa. These destinations make Gulf and West Coast ports more critical to 21st-century grain exports. Referring to the seaway project, a retired Iowa State University economics professor who specialized in transportation issues said, "It probably did make sense, at about the time it (the Seaway) was constructed and conceived, but since then everything has changed." [5]
Certain seaway users have been concerned about the low water levels of the Great Lakes that had been recorded between 2010 and 2016. [9]
The Panama Canal was completed in 1914 and also serves oceangoing traffic. In the 1950s, seaway designers chose not to build the locks to match the size of ships permitted by the 1914 locks at the Panama Canal (965 by 106 feet (294 by 32 m), known as the Panamax limit). Instead, the seaway locks were built to match the smaller locks of Welland Canal, which opened in 1932. The seaway locks permit passage of a ship 740 feet (230 m) long by 78 feet (24 m) feet wide (the Seawaymax limit). [5]
The U.S. Army Corps of Engineers conducted a study to expand the St. Lawrence Seaway, but the plan was scrapped in 2011 because of tight budgets. [10] [11]
There are seven locks in the St. Lawrence River portion of the seaway. From downstream to upstream they are: [12]
Water Level Elevations:
There are eight locks on the Welland Canal. From the north to the south, there is lock 1 at Port Weller, followed by Lock 2 and then Lock 3, a site with a visitors' information centre and museum in St. Catharines, Ontario. There are four locks in Thorold, Ontario, including twin-flight locks 4, 5 and 6, with Lock 7 leading up to the main channel. The Lake Erie level control lock sits in Port Colborne, Ontario.
The size of vessels that can traverse the seaway is limited by the size of locks. Locks on the St. Lawrence and on the Welland Canal are 766 ft (233.5 m) long, 80 ft (24.4 m) wide, and 30 ft (9.14 m) deep. The maximum allowed vessel size is slightly smaller: 740 ft (225.6 m) long, 78 ft (23.8 m) wide, and 26.5 ft (8.1 m) deep. Many vessels designed for use on the Great Lakes following the opening of the seaway were built to the maximum size permissible by the locks, known informally as Seawaymax or Seaway-Max. Large vessels of the lake freighter fleet are built on the lakes and cannot travel downstream beyond the Welland Canal. On the remaining Great Lakes, these ships are constrained only by the largest lock on the Great Lakes Waterway, the Poe Lock at the Soo Locks (at Sault Ste. Marie), which is 1,200 ft (365.8 m) long, 110 ft (33.5 m) wide and 32 ft (9.8 m) deep.
A vessel's draft is another obstacle to passage on the seaway, particularly in connecting waterways such as the St. Lawrence River. The depth in the seaway's channels is 41 ft (12.5 m) (Panamax-depth) downstream of Quebec City, 35 ft (10.7 m) between Quebec City and Deschaillons, 37 ft (11.3 m) to Montreal, and 27 ft (8.2 m) upstream of Montreal. Channel depths and limited lock sizes meant only 10% of current oceangoing ships, which have been built much larger than in the 1950s, can traverse the entire seaway. Proposals to expand the seaway, dating from as early as the 1960s, have been rejected since the late 20th century as too costly. In addition, researchers, policy makers, and the public are much more aware of the environmental issues that have accompanied seaway development and are reluctant to open the Great Lakes to more invasions of damaging species, as well as associated issues along the canals and river. Questions have been raised as to whether such infrastructure costs could ever be recovered. Lower water levels in the Great Lakes have also posed problems for some vessels in recent years, and pose greater issues to communities, industries, and agriculture in the region.
While the seaway is (as of 2010) mostly used for shipping bulk cargo, the possibility of its use for large-scale container shipping is under consideration as well. If the expansion project goes ahead, feeder ships would take containers from the port of Oswego on Lake Ontario in upstate New York to Melford International Terminal in Nova Scotia for transfer to larger oceangoing ships. [13]
A website hosts measurements of wind, water, levels and water temperatures. [14] A real-time interactive map of seaway locks, vessels, and ports is available at. [15] The NOAA-funded Great Lakes Water Level Dashboard compiles statistics on water depth at various points along the seaway. [16]
To create a navigable channel through the Long Sault rapids and to allow hydroelectric stations to be established immediately upriver from Cornwall, Ontario, and Massena, New York, Lake St. Lawrence was created behind a dam. This required the condemnation and acquisition by the government of all the properties of six villages and three hamlets in Ontario; these are now collectively known as The Lost Villages. [17] The area was flooded beginning on July 1, 1958, creating the lake. [18] There was also inundation on the New York side of the border, and the village of Louisville Landing was submerged. [19]
A notable adverse environmental effect of the operation of the seaway has been the introduction of numerous invasive species of aquatic animals into the Great Lakes Basin. The zebra mussel has been most damaging in the Great Lakes and through its invasion of related rivers, waterways, and city water facilities. Invasive species and artificial water level controls imposed by the seaway have had a negative impact on recreational fishing. [20]
The seaway, along with the St. Lawrence River it passes through, also provides opportunities for outdoor recreation, such as boating, camping, fishing, and scuba diving. Of note, the Old Power House near Lock 23 (near Morrisburg, Ontario) became an attractive site for scuba divers. The submerged stone building has become covered with barnacles and is home to an abundance of underwater life. [21] The seaway passes through the St. Lawrence River, which provides a number of diveable shipwrecks within recreational scuba limits (shallower than 130 ft (40 m)). The region also offers technical diving, with some wrecks lying at 240 ft (73 m). The water temperature can be as warm as 75 °F (24 °C) during the mid- to late-summer months. The first 10 ft (3 m) of Lake Ontario is warmed and enters the St. Lawrence River, as the fast-moving water body has no thermocline circulation.
On July 12, 2010, Richelieu (owned by Canada Steamship Lines) ran aground after losing power near the Côte-Sainte-Catherine lock. The grounding punctured a fuel tank, spilling an estimated 200 tonnes (440 thousand pounds) of diesel fuel, covering approximately 500 square metres (5,400 sq ft). The seaway and lock were shut down to help contain the spill. [22]
The seaway is important for American and Canadian international trade. It handles 40–50 million annual tonnes of cargo. About 50% of this cargo carried travels to and from international ports in Europe, the Middle East, and Africa. The rest comprises coastal trade, or short sea shipping, between various American and Canadian ports. [23] Among international shippers are found:
The St. Lawrence Seaway (along with ports in Quebec) is the main route for Ontario grain exports to overseas markets. [34] Its fees are publicly known, and were limited in 2013 to an increase of 3%. [35] A trained pilot is required for any foreign trade vessel. [36] A set of rules and regulations are available to help transit. [37]
Commercial vessel transit information is hosted on the U.S. St. Lawrence Seaway Development Corporation website.
Since 1997, international cruise liners have been known to transit the seaway. The Hapag-Lloyd Christopher Columbus carried 400 passengers to Duluth, Minnesota, that year. Since then, the number of annual seaway cruising passengers has increased to 14,000. [38]
Every year, more than 2,000 recreational boats, of more than 20 ft and one ton, transit the seaway. [39] The tolls have been fixed for 2017 at $30 per lock. There is a $5 per lock discount for payment in advance. [40] Lockages are scheduled 12 hours a day between the hours of 07:00 and 19:00 from June 15 to September 15. [41]
A list of organisations that serve the seaway in some fashion, such as chambers of commerce and municipal or port authorities, is available at the SLSDC website. A 56-page electronic "Great Lakes St. Lawrence Seaway System" Directory is published by Harbor House Publishers. [42]
Map of the world Great Lakes and the St. Lawrence Seaway from 1959, depicting the entire length beginning at the Gulf of St. Lawrence in the east to the westernmost terminus at Lake Superior.
The Great Lakes Waterway (GLW) is a system of natural channels and artificial locks and canals which enable navigation between the North American Great Lakes. Though all of the lakes are naturally connected as a chain, water travel between the lakes was impeded for centuries by obstacles such as Niagara Falls and the rapids of the St. Marys River.
The Rideau Canal is a 202-kilometre long canal that links the Ottawa River at Ottawa with the Cataraqui River and Lake Ontario at Kingston, Ontario, Canada. Its 46 locks raise boats from the Ottawa River 83 metres upstream along the Rideau River to the Rideau Lakes, and from there drop 50 metres downstream along the Cataraqui River to Kingston.
The Trent–Severn Waterway is a 386-kilometre-long (240 mi) canal route connecting Lake Ontario at Trenton to Georgian Bay, Lake Huron, at Port Severn. Its major natural waterways include the Trent River, Otonabee River, Kawartha Lakes, Lake Simcoe, Lake Couchiching and Severn River. Its scenic, meandering route has been called "one of the finest interconnected systems of navigation in the world".
The Welland Canal is a ship canal in Ontario, Canada, and part of the St. Lawrence Seaway and Great Lakes Waterway. The canal traverses the Niagara Peninsula between Port Weller on Lake Ontario, and Port Colborne on Lake Erie, and was erected because the Niagara River—the only natural waterway connecting the lakes—was unnavigable due to Niagara Falls. The Welland Canal enables ships to ascend and descend the Niagara Escarpment, and has followed four different routes since it opened.
The Soo Locks are a set of parallel locks, operated and maintained by the United States Army Corps of Engineers, Detroit District, that enable ships to travel between Lake Superior and the lower Great Lakes. They are located on the St. Marys River between Lake Superior and Lake Huron, between the Upper Peninsula of the U.S. state of Michigan and the Canadian province of Ontario. They bypass the rapids of the river, where the water falls 21 ft (6.4 m). The locks pass an average of 10,000 ships per year, despite being closed during the winter from January through March, when ice shuts down shipping on the Great Lakes. The winter closure period is used to inspect and maintain the locks.
Canada Steamship Lines (CSL) is a shipping company with headquarters in Montreal, Quebec, Canada. The business has been operating for well over a century and a half.
Lake freighters, or lakers, are bulk carriers operating on the Great Lakes of North America. These vessels are traditionally called boats, although classified as ships. Freighters typically have a long, narrow hull, a raised pilothouse, and the engine located at the rear of the ship.
The modern terms short-sea shipping, marine highway and motorways of the sea, as well as the more historical terms coastal trade, coastal shipping, coasting trade and coastwise trade, all encompass the movement of cargo and passengers mainly by sea along a coast, without crossing an ocean.
The Algoma Central Corporation is the result of a reorganization of the Algoma Central Railway in 1990. The company claims assets in excess of $400 million and revenue of $280 million. Corporate headquarters is located in St. Catharines, Ontario, Canada.
The Welland By-pass, completed in 1973, was a massive construction project on the Welland Canal in Ontario, Canada.
Port Weller Dry Docks was a shipbuilder on the Welland Canal at the Lake Ontario entrance. The shipbuilder was founded in 1946 and the site was initially owned by the Government of Canada for storage purchases. The shipyard expanded to include ship repair, and reconstruction work. In 1956, the drydock was sold to the Upper Lakes Shipping Company, which began the construction of vessels at the site. The shipyard twice went insolvent, most recently in 2015. Port Weller Dry Docks was used to build, refit and repair cargo vessels.
Quebecois was a lake freighter that served the Great Lakes, operating between ports in the United States and Canada. The vessel was launched in 1962 by Canadian Vickers Ltd of Montreal, Quebec, Canada. Used to carry grain and ore, Quebecois was built to the maximum dimensions allowed on the Saint Lawrence Seaway. The vessel entered service in 1963 and in 2012, the ship's named was altered to Algoma Quebecois. The ship was broken up for scrap at Port Colborne, Ontario, Canada in 2013.
MV Algonorth was a Seawaymax lake freighter built in 1970 and completed in 1971 by the Govan Division of Upper Clyde Shipbuilders Ltd. in Govan, Scotland as the bulk carrier Temple Bar. Her original owners were Lambert Bros. Shipping Ltd., of London, United Kingdom, sold the vessel in 1976 to Nipigon Transport Ltd., who had her hull lengthened and installed a new power plant for Great Lakes service. Re-entering service as Lake Nipigon, the ship was renamed Laketon in 1984 before returning to the name Lake Nipigon in 1986. In 1987, the lake freighter was sold to Algoma Central Railway which gave the ship its final named, Algonorth. In 2007, the ship collided with a dock in Toledo, Ohio. The ship was scrapped in 2012.
Sauniere was a self-unloading bulk carrier operated by Algoma Central. Laid down as Bulknes, before launching the vessel's name was changed to Brooknes. The ship was constructed and completed in 1970. The ship was initially owned by the Swedish company Kristian Jebsens Rederi A/S. In 1974, Algoma Central purchased the vessel, registered the ship in West Germany and renamed it Algosea. Algoma Central sent the ship to Swan Hunter in England to be lengthened. Emerging in 1976, Algosea sailed for Canada for conversion to a self-unloading bulk carrier at Herb Fraser and Associates in Port Colborne, Ontario. Algosea, which transported road salt between ports in the Gulf of St. Lawrence, Saint Lawrence Seaway and Great Lakes suffered three collisions and two groundings during its career. The Algosea was renamed Sauniere in 1982 and continued in service until 2009 when the bulk carrier was sold for scrap and broken up in Turkey in 2010.
The Moses-Saunders Power Dam, short for Robert Moses-Robert H. Saunders Power Dam, is a dam on the Saint Lawrence River straddling the border between the United States and Canada. It is located between Massena in New York and Cornwall in Ontario. The dam supplies water to two adjacent hydroelectric power generating stations, the United States' 912 MW St. Lawrence-Franklin D. Roosevelt Power Project and Canada's 1,045 MW R.H. Saunders Generating Station. Constructed between 1954 and 1958 as part of the larger Saint Lawrence Seaway project, the dam created Lake St. Lawrence. Aside from providing significant amounts of renewable power, the dam regulates the St. Lawrence River and affords passage for the navigation of large vessels. Despite the enormous economic advantages to the dam, it required the relocation of 6,500 people and caused harm to the surrounding environment. Efforts have been made over the years to improve shoreline and fish habitats.
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Whitefish Bay is a self-unloading lake freighter that entered service with Canada Steamship Lines (CSL) in 2013. Built in China, the vessel is the third of CSL's Trillium-class ships. Her sister ships are Baie Comeau, Baie St. Paul and Thunder Bay. Whitefish Bay is used primarily to transport goods on the North American Great Lakes and the St. Lawrence Seaway.
Pineglen was a bulk carrier owned and operated by Canada Steamship Lines. She was built at the Collingwood Shipyards, in Collingwood, Ontario in 1985, to a single superstructure lake freighter design. Initially named Paterson, the vessel was sold to Canada Steamship Lines in 2002 and renamed. Unlike more modern lake freighters she was built to a "straight-deck" design – i.e. she was not equipped with a self-unloading boom. The vessel was sold for scrap in 2017.
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Algoma Provider was a Canadian lake freighter, which operated from 1963 to 2013 under the flag of several shipping lines. She was built to seawaymax dimensions at the Collingwood Shipyards in Collingwood, Ontario for Canada Steamship Lines. She was powered by a steam turbine, and was the company's last steam-powered vessel. Initially named Murray Bay, the ship was sold in 1994 to Upper Lakes Shipping, which renamed the vessel Canadian Provider. In 2011, Upper Lakes Shipping sold its entire fleet to Algoma Central, which renamed the lake freighter Algoma Provider. The vessel continued in service until 2013, when she was sold to be broken up for scrap. The ship was renamed Ovi for her journey to the scrapyard in Turkey. During her career, the ship carried bulk cargoes to destinations along the Saint Lawrence Seaway and Great Lakes.
Notes