Lake Nyos

From Wikipedia, the free encyclopedia

Lake Nyos
A clouded Lake Nyos, silty after a limnic eruption.
Coordinates	6.44° N 10.30° E
Lake type	Meromictic
Basin countries	Cameroon
Max-length	2.0 km
Max-width	1.2 km
Surface area	1.58 km²
Average depth	208 m

Lake Nyos is a crater lake in the Northwest Province of Cameroon, located at 6.44° N 10.30° E. Nyos is a deep lake high on the flank of an inactive volcano near Mount Oku, along the Cameroon line of volcanic activity. A natural dam of volcanic rock hems in the lake waters.

A pocket of magma lies beneath the lake and leaks carbon dioxide (CO₂) into the waters. Nyos is one of only three known lakes to be saturated with carbon dioxide in this way, the others being Lake Monoun, at a distance of 100 km SSE, and Lake Kivu in Rwanda. On 21 August 1986, the lake emitted a large cloud of CO₂ in a limnic eruption, which suffocated up to 1,800 people and 3,500 livestock in nearby villages. In response, scientists proposed that five tubes be lowered into the lake to allow gas to pass freely to the surface. To date, only one of these has been built.

Today, the lake also poses a threat due to its weakening natural wall. A geological tremor could cause this dike to give way, allowing water to rush into downstream villages all the way into Nigeria.

Contents 1 Formation and geological history 2 Gas saturation 3 The 1986 disaster 4 Degassing 5 Weakening dam 6 See also 7 References 8 External links

[edit] Formation and geological history

Lake Nyos fills a roughly circular maar in the Oku Volcanic Field, an explosion crater caused when a lava flow interacted violently with groundwater. The maar is believed to have formed in an eruption about 400 years ago, and is 1,800 m (5,900 feet) across and 208 m (682 feet) deep^[1]. The area has been volcanically active for millions of years —- after South America and Africa were split apart by plate tectonics about 110 million years ago, West Africa also experienced rifting, although to a lesser degree. The rift is known as the Mbéré Rift Valley, and crustal extension has allowed magma to reach the surface along a line extending through Cameroon. Mount Cameroon also lies on this fault line. Lake Nyos is surrounded by old lava flows and pyroclastic deposits.

The lake waters are held in place by a natural dam composed of volcanic rock. At its narrowest point, the wall measures 40 metres high and 45 metres wide.

[edit] Gas saturation

Lake Nyos is one of only three lakes in the world known to be saturated with carbon dioxide -- the others are Lake Monoun, also in Cameroon about 100 km away, and Lake Kivu in Rwanda. A magma chamber beneath the region is an abundant source of carbon dioxide, which seeps up through the lake bed, charging the waters of Lake Nyos with an estimated 90 million tonnes of CO₂

Lake Nyos is thermally stratified, with layers of warm, less dense water near the surface floating on the colder, denser water layers near the lake's bottom. Over long periods, carbon dioxide gas seeping into the cold water at the lake's bottom is dissolved in great amounts.

Most of the time, the lake is stable and the CO₂ remains in solution in the lower layers. However, over time the water becomes supersaturated, and if an event such as an earthquake or volcanic eruption occurs, large amounts of CO₂ may suddenly come out of solution.

[edit] The 1986 disaster

Although a sudden outgassing of CO₂ had occurred at Lake Monoun in 1984, killing 37 local residents, a similar threat from Lake Nyos was not anticipated. However, on August 21, 1986, a limnic eruption occurred at Lake Nyos which triggered the sudden release of about 1.6 million tonnes of CO₂. The gas rushed down two nearby valleys, displacing all the air and suffocating up to 1,800 people within 20 km of the lake, mostly rural villagers, as well as 3,500 livestock. About 4,000 inhabitants fled the area, and many of these developed respiratory problems, burns, and paralysis as a result of the gases.

It is not known what triggered the catastrophic outgassing. Most geologists suspect a landslide, but some believe that a small volcanic eruption may have occurred on the bed of the lake. A third possibility is that cool rainwater falling on one side of the lake triggered the overturn. Whatever the cause, the event resulted in the rapid mixing of the supersaturated deep water with the upper layers of the lake, where the reduced pressure allowed the stored CO₂ to effervesce out of solution.

It is believed that up to a cubic kilometre of gas was released. Because CO₂ is denser than air, the gas flowed off the mountainous flank in which Lake Nyos rests and down two adjoining valleys in a layer tens of metres deep, displacing the air and suffocating all the people and animals before it could dissipate. The normally blue waters of the lake turned a deep red after the outgassing, due to iron-rich water from the deep rising to the surface and being oxidised by the air. The level of the lake dropped by about a metre, representing the volume of gas released. The outgassing probably also caused an overflow of the waters of the lake. Trees near the lake were knocked down.

[edit] Degassing

The scale of the disaster led to much study on how a similar occurrence could be prevented. Estimates of the rate of carbon dioxide entering the lake suggested that outgassings could occur every 10-30 years, though a recent study shows that release of water from the lake, caused by erosion of the natural barrage that keeps in the lake's water, could in turn reduce pressure on the lake's carbon dioxide and cause a gas escape much sooner.

The solution proposed by scientists was that five pipes should be extended into the lower regions of the lake, allowing a controlled and continuous outgassing. International efforts have since installed one of these, which runs from the surface anchored to a raft that allows the deeper areas of the lake to release their CO₂ to the surface in controlled small amounts. It is hoped this will reduce the maximum levels of CO₂ in the future, and prevent any possibility of the lake turning over. Degassing began in 2001 and is continuing steadily.

Following the Lake Nyos tragedy, scientists investigated other African lakes to see if a similar phenomenon could happen elsewhere. Lake Kivu in Rwanda, 2000 times larger than Lake Nyos, was found also to be supersaturated, and geologists found evidence for outgassing events around the lake about every thousand years. The eruption of nearby Mount Nyiragongo in 2002 sent lava flowing into the lake, raising fears that a gas eruption could be triggered, but fortunately it was not, as the flow of lava stopped well before it got near the bottom layers of the lake where the gas is.

[edit] Weakening dam

On 18 August 2005, Dr. Isaac Njilah, a geologist at the University of Yaoundé, suggested that the natural dam of volcanic rock that keeps in the lake's waters could collapse in the near future. Erosion has worn the dam away, causing holes and pockets to develop in the dam's upper layer, and water already passes through the lower section. Meanwhile, landslides have reduced dam strength on the outside. Seismic activity caused by the lake's volcanic foundation could thus cause the lake wall to give way, resulting in up to 50 million cubic metres of water flooding downhill into areas of the Northwest Province and the Nigerian states of Taraba and Benue. Dr. Njilah estimates that the area is home to more than 10,000 people.

The Cameroonian government, speaking through Dr. Gregory Tanyi-Leke of the Institute of Mining and Geological Research, acknowledges the weakening wall but denies that it presents any immediate threat. A United Nations team led by Olaf Van Duin and Nisa Nurmohamed of the Netherlands Ministry of Transport and Public Works inspected the dam over three days in September 2005 and confirmed that the natural lip had weakened. Van Duin believes that the dam will breach in the next 10 or 20 years.

One possible means of averting such a catastrophe would be to strengthen the lake wall, though this would take much time and money. Engineers could also introduce a channel to allow excess water to drain; if the water level were lowered by about 20 metres, the pressure on the wall would be reduced significantly.

[edit] See also

• Henry's Law
• Raoult's law
• Lake Monoun

[edit] References

• "Cameroon scientist denies dam about to collapse" (23 August 2005). Reuters.
• Cotel A (1999), A trigger mechanism for the Lake Nyos disaster, American Physical Society, Division of Fluid Dynamics Meeting, November 21-23, 1999
• Decker, R. and Decker, B. (1997) Volcanoes, 3rd edition, WH Freeman, New York.
• Musa, Tansa (28 September 2005). "Cameroon dam could collapse in 10 years-UN experts". Reuters.
• Musa, Tansa (18 August 2005). "Cameroon dam nears collapse, 10,000 lives at risk". Reuters.
• Sano Y., Kusakabe M., Hirabayashi J. et al (1990), Helium and carbon fluxes in Lake Nyos, Cameroon: constraint on next gas burst, Earth and Planetary Science Letters, v. 99, p. 303-314
• Sano Y., Wakita H., Ohsumi T., Kusakabe M. (1987), Helium isotope evidence for magmatic gases in Lake Nyos, Cameroon, Geophysical Research Letters, v. 14, p. 1039-1041
• Scripts/W%FCest_Schmid_DD_Nyos_FM9_12626.pdf Lake Nyos Research

[edit] External links

• Lake Nyos incident
• Lake Nyos research
• BBC News 'On This Day' article
• BBC news article about the degassing of Lake Nyos
• BBC Horizon episode Killer lakes
• Volcano World information
• USGS information
• Killer Lakes, Smithsonian magazine
• Gas threat grows from Cameroon's lethal lakes — article from The Guardian newspaper
• BBC News 27 Sep 2005: Action needed on deadly lakes
• The eruption at Lake Nyos from sdsu.edu
• NASA Exploding Lakes
• Mechanics of the switching on of the trigger mechanism of limnological catastrophes - Latvian research by Nataliya Anatolievna Solodovnik and Anatoliy Borisovich Solodovnik