|Type||Coastal saltwater, bay|
|Primary inflows||Catatumbo River|
|Primary outflows||Gulf of Venezuela|
|Max. length||99 miles (159 km)|
|Max. width||67 miles (108 km)|
|Surface area||13,210 km2 (5,100 sq mi)|
|Max. depth||60 m (200 ft)|
|Water volume||280 km3 (230,000,000 acre·ft)|
|Surface elevation||0 m (0 ft)|
Lake Maracaibo (Spanish: Lago de Maracaibo) is the largest lake in Venezuela and South America and an "inlet of the Caribbean Sea." It is sometimes considered a lake rather than a bay or lagoon. It is connected to the Gulf of Venezuela by Tablazo Strait which is 5.5 kilometres (3.4 mi) wide at the northern end. It is fed by numerous rivers, the largest being the Catatumbo. At 13,210 square kilometres (5,100 sq mi) it was once the largest lake in South America; the geological record shows that it has been a true lake in the past, and as such is one of the oldest lakes on Earth at 20–36 million years old.
Lake Maracaibo acts as a major shipping route to the ports of Maracaibo and Cabimas. The surrounding Maracaibo Basin contains large reserves of crude oil, making the lake a major profit center for Venezuela. It also holds almost a quarter of Venezuela's population. A dredged channel gives oceangoing vessels access to the bay. The 8.7-kilometre (5.4 mi) long General Rafael Urdaneta Bridge, which was completed in 1962 and spans the bay's outlet, is one of the longest bridges in the world.
The first known settlements on the bay were those of the Guajiros, who still are present in large numbers, but were re-settled in the western boundary area with Colombia. The first European to discover the bay was Alonso de Ojeda on August 24, 1499, on a voyage with Amerigo Vespucci (the same explorer for whom the American continents were named).
Legend has it that upon entering the lake, Ojeda's expedition found groups of indigenous huts, built over stilts on water (Spanish: palafitos), and interconnected by boardwalks on stilts, with each other and with the lake shore. The stilt houses reminded Vespucci of the city of Venice, (Italian: Venezia), so he named the region "Venezuela," meaning "little Venice" in Italian. The word has the same meaning in Spanish, where the suffix -uela is used as a diminutive term (e.g., plaza / plazuela, cazo / cazuela); thus, the term's original sense would have been that of a "little Venice". (Examples of palafitos can still be found in "Santa Rosa", an area in the city of Maracaibo.)
Although the Vespucci story remains the most popular and accepted version of the origin of the country's name, a different reason for the name comes up in the account of Martín Fernández de Enciso, a member of the Vespucci and Ojeda crew. In his work Summa de Geografía, he states that they found an indigenous population who called themselves the "Veneciuela," which suggests that the name "Venezuela" may have evolved from the native word.
The port town of Maracaibo was founded in 1529 on the western side. In July 1821, the bay was the site of the Battle of Lake Maracaibo, an important battle in the Venezuelan War of Independence. Oil production began in the surrounding basin in 1914, with wells drilled by Bataafsche Petroleum Maatschappij, a predecessor of Royal Dutch Shell.
On April 6, 1964, at 11:45 pm, the supertanker Esso Maracaibo, loaded with 236,000 barrels (37,500 m3) of crude oil, suffered a major electrical failure, so that control of steering was lost. Thus it collided with pier #31 of the two-year-old General Rafael Urdaneta Bridge across the mouth of the lake. A 259 metres (850 ft) section of the bridge roadway fell into the water with a portion coming to rest across the tanker just a few feet from the ship's superstructure. No oil spill occurred, and there were no deaths or serious injuries on the tanker. However seven motorists and passengers in vehicles crossing the bridge were killed.
Some islands are of considerable size. They are populated with fishermen and are used for commercial and recreational purposes. The majority of the islands are located in the Almirante Padilla municipality, including:
- Zapara Island
- Toas Island
- San Carlos Island
- Isla de Providencia
- Isla de Pescadores
- Los Pájaros Island
- Maraca Island
- San Bernardo Island
- Sabaneta de Montiel Island
As recently as 2000, Lake Maracaibo supported 20,000 fishermen.
Due to the massive volume of oil removed in the Maracaibo Basin, some oil-producing areas adjacent to Lake Maracaibo have sunk, changing the geography of the region. The original concessions to oil companies purposefully assigned swamps and wetlands along the East border of the lakes for facilities. This required the oil companies to build dikes and drain the land in order to build their facilities, Dutch Shell takes credit for some of the most enduring dike systems. Since the nationalization of the oil industry, maintenance of the dike systems has fallen upon the Venezuelan government to sub-sea-level areas like Tía Juana, Lagunillas, and Bachaquero from encroachment by the waters. Cumulative subsidence is as much as 5 metres (16 ft), and it continues at a rate of up to 20 centimetres per year (7.9 in/year) at some locations inland and typically 5 cm/year (2.0 in/year) along the coast. Due to negligence of maintenance to the dike, many consider it to be a disaster in waiting, with the potential of an earthquake causing soil liquefaction and submerging a large population. A program of mitigative measures to address the seismic risk was begun in 1988. Ongoing maintenance and improvements to the dike will be needed, as it continues to subside by as much as 7 cm/year (2.8 in/year).
As of June 18, 2004, a large portion (18%) of the surface of Lake Maracaibo is covered by duckweed, specifically Lemna. Although efforts to remove the plant have been underway, the plant – which can double its size every 48 hours – occupies over 130 million cubic metres of the lake. The only way to remove the weed is to pull it out of the lake physically – no chemical or biological method has been found to treat the weed. The government has been spending $2 million monthly to clean the lake, and the state-run oil company Petroleos de Venezuela S.A. has created a $750 million cleanup fund. Current efforts are barely keeping up with the growth of the plant. The removal process has proven to be particularly difficult in the center of the lake, where a specially equipped ship may be needed to pull the weed off the lake.
There is some mystery as to how the plant came to reside in the waters of Lake Maracaibo. According to scientists from the Institute for the Conservation of Lake Maracaibo (ICLAM), one of the government organizations charged with the care of Lake Maracaibo, the weed is probably native to the lake, but few studies have been conducted to confirm that suspicion. The prodigious growth of the freshwater marine plant is likely a self-purification mechanism. Others[who?] disagree, believing the type of duckweed to be native to Florida and Texas and thus the infestation is a result of its having been transported by ship.
Another point of uncertainty is why the scale of the outbreak is so great. Maracaibo is fed by both salt water from the Caribbean and fresh water from numerous rivers. The lighter fresh water floats on top of the heavier salt water, which forms a dense layer on the bottom. This set-up traps nutrients that have settled on the floor of the lake. In the spring of 2004, heavy rains disrupted the usual pattern. The sudden influx of fresh water stirred the layers, allowing nutrients to float to the top, where duckweed and other plants reside. These nutrients may have triggered the duckweed's rapid expansion. Additional sources of nutrients include untreated sewage discharge and fertilizers and other industrial waste flowing into the lake through rivers (97 percent of the country's raw sewage is discharged without treatment into the environment). Furthermore, chemicals used to clean up oil spills may have contributed to the duckweed problem. The lake basin hosts Venezuela's largest oil fields, and high concentrations of biodegradable dispersants that contain phosphates and polyaspartic acid – a chemical used to increase nutrient uptake in crops – have been found, a veritable feast for the plants. Scientists at ICLAM disagree, saying that dispersants have been banned from the lake for years and, even if they were present, could not contain enough nutrients to support the current duckweed population.
Duckweed is not toxic to fish, but some scientists are concerned that it could suck oxygen out of the lake as it decays, asphyxiating large numbers of fish. Though officials say the weed hasn't harmed fish yet, it is putting a dent in the local fishing industry. The plant clogs the motors of small boats, making it impossible for fishers to launch their vessels. Duckweed further threatens the local ecosystem by choking out other plants as it shades large portions of the lake. In certain conditions, the weed may concentrate heavy metals and bacteria such as Salmonella and Vibrio cholerae, the bacterium that causes cholera. Despite these problems, the weed may yet have some positive use; duckweed can be treated to be fed to poultry or to make paper.
As of 2007, the duckweed problem continues.
- Costa Oriental del Lago, a subregion and conurbation of 700,000 inhabitants located on the eastern side of the lake.
- Sur del Lago, a subregion located in the southern part of the lake
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...from Lake Maracaibo, Venezuela. The mostly freshwater lake is a remnant of the Orinoco changing course, and has a direct flow of water from the Caribbean through the Strait of Maracaibo and Tablazo Bay.
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Buechler noted that Lake Maracaibo is not new to lightning researchers. Located in northwest Venezuela along part of the Andes Mountains, it is the largest lake in South America. Storms commonly form there at night as mountain breezes develop and converge over the warm, moist air over the lake.
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Some features of tropical lakes resemble those of temperate lakes in summer...Information on nutrient cycling from temperate lakes cannot necessarily be extrapolated to tropical lakes, because of the fundamental differences in the physical and biological dynamics of the two types of systems.
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-  Archived September 29, 2007, at the Wayback Machine.