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Limnic eruption

January 22, 2023

A limnic eruption, also known as a lake overturn, is a very rare type of natural disaster in which dissolved carbon dioxide (CO2) suddenly erupts from deep lake waters, forming a gas cloud capable of suffocating wildlife, livestock, and humans. A limnic eruption may also cause tsunami or seiche[citation needed] as the rising CO2 displaces water. Scientists believe earthquakes, volcanic activity, and other explosive events can serve as triggers for limnic eruptions. Lakes in which such activity occurs are referred to as limnically active lakes or exploding lakes. Some features of limnically active lakes include:

  • CO2-saturated incoming water
  • A cool lake bottom indicating an absence of direct volcanic interaction with lake waters
  • An upper and lower thermal layer with differing CO2 saturations
  • Proximity to areas with volcanic activity
Lake Nyos, the site of a limnic eruption in 1986

Investigations of the Lake Monoun and Lake Nyos casualties led scientists to classify limnic eruptions as a distinct type of disaster event, even though they can be indirectly linked to volcanic eruptions.[1]

Historical occurrences

 
 
Lake Monoun
 
Lake Nyos
class=notpageimage|
Locations of the two recorded limnic eruptions in modern history, Cameroon
 
Lake Monoun situated in the West Region of Cameroon

Due to the largely invisible nature of the underlying cause (CO2 gas) behind limnic eruptions, it is difficult to determine to what extent eruptions have occurred in the past. The Roman historian Plutarch reports that in 406 BC, Lake Albano surged over the surrounding hills, despite there being no rain nor tributaries flowing into the lake to account for the rise in water level.[2] The ensuing flood destroyed fields and vineyards before eventually pouring into the sea. This event is thought to have been caused by volcanic gases, trapped in sediment at the bottom of the lake and gradually building up until suddenly releasing, causing the water to overflow.[3]

In recent history, this phenomenon has been observed twice. The first recorded limnic eruption occurred in Cameroon at Lake Monoun in 1984, causing asphyxiation and death of 37 people living nearby.[4] A second, deadlier eruption happened at neighboring Lake Nyos in 1986, releasing over 80 million m3 of CO2, killing around 1,700 people and 3,000 livestock, again by asphyxiation.[5]

A third lake, the much larger Lake Kivu, rests on the border between the Democratic Republic of the Congo and Rwanda, and contains massive amounts of dissolved CO2. Sediment samples taken from the lake showed an event caused living creatures in the lake to go extinct around every 1,000 years, and caused nearby vegetation to be swept back into the lake. Limnic eruptions can be detected and quantified on a CO2 concentration scale by taking air samples of the affected region.[6]

The Messel pit fossil deposits of Messel, Germany, show evidence of a limnic eruption there in the early Eocene. Among the victims are perfectly preserved insects, frogs, turtles, crocodiles, birds, anteaters, insectivores, early primates, and paleotheres.

Causes

For a lake to undergo a limnic eruption, the water must be nearly saturated with gas. CO2 was the primary component in the two observed cases (Lake Nyos and Lake Monoun). In Lake Kivu, scientists[who?] are concerned about the concentrations of methane gas as well. CO2 may originate from volcanic gas emitted from under the lake or from decomposition of organic material. Before a lake is saturated, it behaves like an unopened carbonated beverage (e.g., a soft drink): the CO2 is dissolved in the water. In both the lake and the soft drink, CO2 dissolves much more readily at higher pressure (Henry's law). This is why bubbles in a can of soda form only after the can is opened; when the pressure is released, the CO2 comes out of solution. In the case of lakes, the bottom is at a much higher pressure; the deeper it is, the higher the pressure is at the bottom. Therefore, huge amounts of CO2 can be dissolved in large, deep lakes. CO2 also dissolves more readily in cooler water, such as that found at a lake bottom. A small rise in water temperature can lead to the release of a large amount of CO2.

Once a lake is saturated with CO2, it is very unstable and it gives off a smell of rotten eggs and gun powder,[7] but a trigger is needed to set off an eruption. In the case of the 1986 Lake Nyos eruption, landslides were the suspected triggers, but a volcanic eruption, an earthquake, or even wind and rain storms are potential triggers. Another possible cause of a limnic eruption is gradual gas saturation at specific depths which can trigger spontaneous gas development.[8] For any of these cases, the trigger pushes some of the gas-saturated water higher in the lake, where pressure is insufficient to keep CO2 in solution. As bubbles start forming the water is lifted even higher in the lake (buoyancy), where yet more CO2 comes out of solution. This process forms a column of gas, at which point the water at the bottom of this column is pulled up by suction, and it, too, loses CO2 in a runaway process. This eruption discharges CO2 into the air and can displace enough water to form a tsunami.

Limnic eruptions are exceptionally rare for several reasons. First, a CO2 source must exist (regions with volcanic activity are most at risk). Second, the vast majority of lakes are holomictic (i.e., their layers mix regularly), preventing a buildup of dissolved gases. Only meromictic lakes do not mix and remain stratified, allowing CO2 to remain dissolved. It is estimated only one meromictic lake exists for every 1,000 holomictic lakes.[9] Finally, a lake must be deep enough to have sufficient pressure to dissolve large amounts of CO2.

Consequences

 
Bovine killed by the 1986 limnic eruption at Lake Nyos

Once an eruption occurs, a large CO2 cloud forms above the lake and expands to the surrounding region. Because CO2 is denser than air, it has a tendency to sink to the ground, simultaneously displacing breathable air, resulting in asphyxia. CO2 can make human bodily fluids highly acidic and potentially cause CO2 poisoning. As victims gasp for air, they actually accelerate asphyxia by inhaling CO2.

At Lake Nyos, the gas cloud descended into a nearby village where it settled, killing nearly everyone; casualties as far as 25 km (16 mi) were reported.[citation needed] A change in skin color on some bodies led scientists to hypothesize the gas cloud may have contained dissolved acid such as hydrogen chloride, though this hypothesis is disputed.[10] Many victims were found with blisters on their skin, thought to have been caused by pressure ulcers, which were likely caused by low blood oxygen levels in those asphyxiated by carbon dioxide.[11] Nearby vegetation was largely unaffected, except any growing immediately adjacent to the lake. There, vegetation was damaged or destroyed by a 24 m (79 ft) high tsunami caused by the violent eruption.[12]

Degassing

See also: Lake Nyos § Degassing

Efforts are under way to develop a solution for removing the gas from these lakes and to prevent a build-up which could lead to another catastrophe. A team led by French scientist Michel Halbwachs began experimenting at Lake Monoun and Lake Nyos in 1990 using siphons to degas the waters of these lakes in a controlled manner.[13] The team positioned a pipe vertically in the lake with its upper end above the water surface. Water saturated with CO2 enters the bottom of the pipe and rises to the top. The lower pressure at the surface allows the gas to come out of solution. Only a small amount of water must be mechanically pumped initially through the pipe to start the flow. As saturated water rises, the CO2 comes out of solution and forms bubbles. The natural buoyancy of the bubbles draws the water up the pipe at high velocity resulting in a fountain at the surface. The degassifying water acts like a pump, drawing more water into the bottom of the pipe, and creating a self-sustaining flow. This is the same process which leads to a natural eruption, but in this case it is controlled by the size of the pipe.

Each pipe has a limited pumping capacity and several would be required for both Lake Monoun and Lake Nyos to degas a significant fraction of the deep lake water and render the lakes safe. The deep lake waters are slightly acidic due to the dissolved CO2 which causes corrosion to the pipes and electronics, necessitating ongoing maintenance. There is some concern that CO2 from the pipes could settle on the surface of the lake forming a thin layer of unbreathable air and thus potentially causing problems for wildlife.

In January 2001, a single pipe was installed by the French-Cameroonian team on Lake Nyos, and two more pipes were installed in 2011 with funding support from the United Nations Development Programme.[14][15] A pipe was installed at Lake Monoun in 2003 and two more were added in 2006.[14][15] These three pipes are thought to be sufficient to prevent an increase in CO2 levels, removing approximately the same amount of gas that naturally enters at the lake bed.[citation needed] In January 2003, an 18-month project was approved to fully degas Lake Monoun,[16] and the lake has since been rendered safe.[14]

There is some evidence that Lake Michigan in the United States spontaneously degasses (the colloquial term used is "burps") on a much smaller scale each fall.[17]

Lake Kivu risks

 
Satellite image of Lake Kivu in 2003

Lake Kivu is not only about 1,700 times larger than Lake Nyos, but is also located in a far more densely populated area, with over two million people living along its shores, and the part within the Democratic Republic of the Congo is a site of active armed conflict and low state capacity for the DRC government. Lake Kivu has not reached a high level of CO2 saturation yet; if the water were to become heavily saturated, a limnic eruption would pose a great risk to human and animal life, potentially killing millions.[18]

Two significant changes in Lake Kivu's physical state have brought attention to a possible limnic eruption: the high rates of methane dissociation and a rising surface temperature.[19] Research investigating historical and present-day temperatures show Lake Kivu's surface temperature is increasing by about 0.12 °C per decade.[19] Lake Kivu is in close proximity to potential triggers: Mount Nyiragongo (an active volcano which erupted in January 2002 and May 2021), an active earthquake zone, and other active volcanoes.[20]

While the lake could be degassed in a manner similar to Lake Monoun and Lake Nyos, due to the size of Lake Kivu and the volume of gas it contains, such an operation would be expensive, running into the millions of dollars.[citation needed] A scheme initiated in 2010 to use methane trapped in the lake as a fuel source to generate electricity in Rwanda has led to a degree of CO2 degassing.[21] During the procedure for extracting the flammable methane gas used to fuel power stations on the shore, some CO2 is removed in a process known as catalyst scrubbing. It is unclear whether enough gas will be removed to eliminate the danger of a limnic eruption at Lake Kivu.

See also

References

  1. ^ Volcanic Lakes and Gas Releases USGS/Cascades Volcano Observatory, Vancouver, Washington.
  2. ^ Plutarch, Life of Camillus, Internet Classics Archive (MIT), retrieved 4 February 2014
  3. ^ Woodward, Jamie (7 May 2009), The Physical Geography of the Mediterranean, Oxford University Press (Oxford), ISBN 9780191608414, retrieved 23 October 2015
  4. ^ Sigurdsson, H.; Devine, J.D.; Tchua, F.M.; Presser, F.M.; Pringle, M.K.W.; Evans, W.C. (1987). "Origin of the lethal gas burst from Lake Monoun, Cameroun". Journal of Volcanology and Geothermal Research. 31 (1–2): 1–16. Bibcode:1987JVGR...31....1S. doi:10.1016/0377-0273(87)90002-3.
  5. ^ Kling, George W.; Clark, Michael A.; Wagner, Glen N.; Compton, Harry R.; Humphrey, Alan M.; Devine, Joseph D.; Evans, William C.; Lockwood, John P.; et al. (1987). "The 1986 Lake Nyos Gas Disaster in Cameroon, West Africa". Science. 236 (4798): 169–75. Bibcode:1987Sci...236..169K. doi:10.1126/science.236.4798.169. PMID 17789781. S2CID 40896330.
  6. ^ Wenz, John (2020). "The danger lurking in an African lake". Knowable Magazine. doi:10.1146/knowable-100720-1. S2CID 225118318.
  7. ^ "The Power Plant That Could Prevent Disaster". 24 May 2016.
  8. ^ Tassi, Franco (2014). "An overview of the structure, hazards, and methods of investigation of Nyos-type lakes from the geochemical perspective". Journal of Limnology. 73 (1). doi:10.4081/jlimnol.2014.836.
  9. ^ Hakala, Anu (2005). "Paleoenvironmental and paleoclimatic studies on the sediments of Lake Vähä-Pitkusta and observations of meromixis". {{cite journal}}: Cite journal requires |journal= (help)
  10. ^ Freeth, SJ (1989). "Lake Nyos disaster". BMJ. 299 (6697): 513. doi:10.1136/bmj.299.6697.513-a. PMC 1837334. PMID 2507040.
  11. ^ BBC Horizon programme "Killer Lakes"
  12. ^ Gusiakov, V.K. (2014). "Tsunami impact on the African continent: historical cases and hazard evaluation". In Ismail-Zadeh, A.; Urrutia Fucugauchi, J.; Kijko, A.; Takeuchi, K.; Zaliapin, I. (eds.). Extreme Natural Hazards, Disaster Risks and Societal Implications. Cambridge: Cambridge University Press. p. 230. ISBN 978-1-107-03386-3.
  13. ^ BBC Cameroons "killer lake" degassed
  14. ^ a b c Jones, Nicola (2010). "Battle to degas deadly lakes continues". Nature. 466 (7310): 1033. doi:10.1038/4661033a. PMID 20739980.
  15. ^ a b Nasr, Susan (24 March 2009). "How did Lake Nyos suddenly kill 1,700 people?". HowStuffWorks.com. Retrieved 18 April 2013.
  16. ^ Nicola Jones (1 February 2003). "Lake to lose its silent killer". newscientist. Retrieved 2009-08-20.
  17. ^ Otto, Laura (28 April 2017). "When Lake Michigan burps". UWMResearch. Milwaukee, Wisconsin.
  18. ^ Jones, Nicola. "How dangerous is Africa's explosive Lake Kivu?". Nature. Springer Nature Limited. Retrieved 11 October 2022.
  19. ^ a b Katsev, Sergei (2014). "Recent Warming of Lake Kivu". PLOS ONE. 9 (10): e109084. Bibcode:2014PLoSO...9j9084K. doi:10.1371/journal.pone.0109084. PMC 4189960. PMID 25295730.
  20. ^ Schmid, Martin; Tietze, Klaus; Halbwachs, Michel; Lorke, Andreas; McGinnis, Daniel; Wüest, Alfred. "The volcanic risk - How hazardous is the gas accumulation in Lake Kivu? Arguments for a risk assesment in light of the Nyiragongo Volcano eruption of 2002" (PDF). Acta vulcanologica: Journal of the National Volcanican Group of Italy. 14 (1–2): 15–122. doi:10.1400/19084.
  21. ^ Rice, Xan (16 August 2010). "Rwanda harnesses volcanic gases from depths of Lake Kivu". The Guardian. London.

External links

 
Wikimedia Commons has media related to Limnic eruptions.
  • Page of the team degassing Lake Nyos
  • Lake's silent killer to be disarmed
  • Lake Nyos (1986)
  • Schmid, Martin; Lorke, Andreas; Wüest, Alfred; Halbwachs, Michel; Tanyileke, Gregory (2003). "Development and sensitivity analysis of a model for assessing stratification and safety of Lake Nyos during artificial degassing" (PDF). Ocean Dynamics. 53 (3): 288. Bibcode:2003OcDyn..53..288S. doi:10.1007/s10236-003-0032-0. S2CID 129370770.
  • Lorke, Andreas; Tietze, Klaus; Halbwachs, Michel; Wüest, Alfred (2004). "Response of Lake Kivu stratification to lava inflow and climate warming". Limnology and Oceanography. 49 (3): 778–83. Bibcode:2004LimOc..49..778L. CiteSeerX 10.1.1.487.7647. doi:10.4319/lo.2004.49.3.0778. S2CID 140538251.
  • Lake Monoun
  • BBC Cameroons "killer lake" degassed
  • Using Science to Solve Problems: The Killer Lakes of Cameroon

January 22, 2023
limnic, eruption, limnic, eruption, also, known, lake, overturn, very, rare, type, natural, disaster, which, dissolved, carbon, dioxide, suddenly, erupts, from, deep, lake, waters, forming, cloud, capable, suffocating, wildlife, livestock, humans, limnic, erup. A limnic eruption also known as a lake overturn is a very rare type of natural disaster in which dissolved carbon dioxide CO2 suddenly erupts from deep lake waters forming a gas cloud capable of suffocating wildlife livestock and humans A limnic eruption may also cause tsunami or seiche citation needed as the rising CO2 displaces water Scientists believe earthquakes volcanic activity and other explosive events can serve as triggers for limnic eruptions Lakes in which such activity occurs are referred to as limnically active lakes or exploding lakes Some features of limnically active lakes include CO2 saturated incoming water A cool lake bottom indicating an absence of direct volcanic interaction with lake waters An upper and lower thermal layer with differing CO2 saturations Proximity to areas with volcanic activityLake Nyos the site of a limnic eruption in 1986 Investigations of the Lake Monoun and Lake Nyos casualties led scientists to classify limnic eruptions as a distinct type of disaster event even though they can be indirectly linked to volcanic eruptions 1 Contents 1 Historical occurrences 2 Causes 3 Consequences 4 Degassing 5 Lake Kivu risks 6 See also 7 References 8 External linksHistorical occurrences Edit Lake Monoun Lake Nyosclass notpageimage Locations of the two recorded limnic eruptions in modern history Cameroon Lake Monoun situated in the West Region of Cameroon Due to the largely invisible nature of the underlying cause CO2 gas behind limnic eruptions it is difficult to determine to what extent eruptions have occurred in the past The Roman historian Plutarch reports that in 406 BC Lake Albano surged over the surrounding hills despite there being no rain nor tributaries flowing into the lake to account for the rise in water level 2 The ensuing flood destroyed fields and vineyards before eventually pouring into the sea This event is thought to have been caused by volcanic gases trapped in sediment at the bottom of the lake and gradually building up until suddenly releasing causing the water to overflow 3 In recent history this phenomenon has been observed twice The first recorded limnic eruption occurred in Cameroon at Lake Monoun in 1984 causing asphyxiation and death of 37 people living nearby 4 A second deadlier eruption happened at neighboring Lake Nyos in 1986 releasing over 80 million m3 of CO2 killing around 1 700 people and 3 000 livestock again by asphyxiation 5 A third lake the much larger Lake Kivu rests on the border between the Democratic Republic of the Congo and Rwanda and contains massive amounts of dissolved CO2 Sediment samples taken from the lake showed an event caused living creatures in the lake to go extinct around every 1 000 years and caused nearby vegetation to be swept back into the lake Limnic eruptions can be detected and quantified on a CO2 concentration scale by taking air samples of the affected region 6 The Messel pit fossil deposits of Messel Germany show evidence of a limnic eruption there in the early Eocene Among the victims are perfectly preserved insects frogs turtles crocodiles birds anteaters insectivores early primates and paleotheres Causes EditThis section does not cite any sources Please help improve this section by adding citations to reliable sources Unsourced material may be challenged and removed August 2016 Learn how and when to remove this template message For a lake to undergo a limnic eruption the water must be nearly saturated with gas CO2 was the primary component in the two observed cases Lake Nyos and Lake Monoun In Lake Kivu scientists who are concerned about the concentrations of methane gas as well CO2 may originate from volcanic gas emitted from under the lake or from decomposition of organic material Before a lake is saturated it behaves like an unopened carbonated beverage e g a soft drink the CO2 is dissolved in the water In both the lake and the soft drink CO2 dissolves much more readily at higher pressure Henry s law This is why bubbles in a can of soda form only after the can is opened when the pressure is released the CO2 comes out of solution In the case of lakes the bottom is at a much higher pressure the deeper it is the higher the pressure is at the bottom Therefore huge amounts of CO2 can be dissolved in large deep lakes CO2 also dissolves more readily in cooler water such as that found at a lake bottom A small rise in water temperature can lead to the release of a large amount of CO2 Once a lake is saturated with CO2 it is very unstable and it gives off a smell of rotten eggs and gun powder 7 but a trigger is needed to set off an eruption In the case of the 1986 Lake Nyos eruption landslides were the suspected triggers but a volcanic eruption an earthquake or even wind and rain storms are potential triggers Another possible cause of a limnic eruption is gradual gas saturation at specific depths which can trigger spontaneous gas development 8 For any of these cases the trigger pushes some of the gas saturated water higher in the lake where pressure is insufficient to keep CO2 in solution As bubbles start forming the water is lifted even higher in the lake buoyancy where yet more CO2 comes out of solution This process forms a column of gas at which point the water at the bottom of this column is pulled up by suction and it too loses CO2 in a runaway process This eruption discharges CO2 into the air and can displace enough water to form a tsunami Limnic eruptions are exceptionally rare for several reasons First a CO2 source must exist regions with volcanic activity are most at risk Second the vast majority of lakes are holomictic i e their layers mix regularly preventing a buildup of dissolved gases Only meromictic lakes do not mix and remain stratified allowing CO2 to remain dissolved It is estimated only one meromictic lake exists for every 1 000 holomictic lakes 9 Finally a lake must be deep enough to have sufficient pressure to dissolve large amounts of CO2 Consequences Edit Bovine killed by the 1986 limnic eruption at Lake Nyos Once an eruption occurs a large CO2 cloud forms above the lake and expands to the surrounding region Because CO2 is denser than air it has a tendency to sink to the ground simultaneously displacing breathable air resulting in asphyxia CO2 can make human bodily fluids highly acidic and potentially cause CO2 poisoning As victims gasp for air they actually accelerate asphyxia by inhaling CO2 At Lake Nyos the gas cloud descended into a nearby village where it settled killing nearly everyone casualties as far as 25 km 16 mi were reported citation needed A change in skin color on some bodies led scientists to hypothesize the gas cloud may have contained dissolved acid such as hydrogen chloride though this hypothesis is disputed 10 Many victims were found with blisters on their skin thought to have been caused by pressure ulcers which were likely caused by low blood oxygen levels in those asphyxiated by carbon dioxide 11 Nearby vegetation was largely unaffected except any growing immediately adjacent to the lake There vegetation was damaged or destroyed by a 24 m 79 ft high tsunami caused by the violent eruption 12 Degassing EditSee also Lake Nyos Degassing Efforts are under way to develop a solution for removing the gas from these lakes and to prevent a build up which could lead to another catastrophe A team led by French scientist Michel Halbwachs began experimenting at Lake Monoun and Lake Nyos in 1990 using siphons to degas the waters of these lakes in a controlled manner 13 The team positioned a pipe vertically in the lake with its upper end above the water surface Water saturated with CO2 enters the bottom of the pipe and rises to the top The lower pressure at the surface allows the gas to come out of solution Only a small amount of water must be mechanically pumped initially through the pipe to start the flow As saturated water rises the CO2 comes out of solution and forms bubbles The natural buoyancy of the bubbles draws the water up the pipe at high velocity resulting in a fountain at the surface The degassifying water acts like a pump drawing more water into the bottom of the pipe and creating a self sustaining flow This is the same process which leads to a natural eruption but in this case it is controlled by the size of the pipe Each pipe has a limited pumping capacity and several would be required for both Lake Monoun and Lake Nyos to degas a significant fraction of the deep lake water and render the lakes safe The deep lake waters are slightly acidic due to the dissolved CO2 which causes corrosion to the pipes and electronics necessitating ongoing maintenance There is some concern that CO2 from the pipes could settle on the surface of the lake forming a thin layer of unbreathable air and thus potentially causing problems for wildlife In January 2001 a single pipe was installed by the French Cameroonian team on Lake Nyos and two more pipes were installed in 2011 with funding support from the United Nations Development Programme 14 15 A pipe was installed at Lake Monoun in 2003 and two more were added in 2006 14 15 These three pipes are thought to be sufficient to prevent an increase in CO2 levels removing approximately the same amount of gas that naturally enters at the lake bed citation needed In January 2003 an 18 month project was approved to fully degas Lake Monoun 16 and the lake has since been rendered safe 14 There is some evidence that Lake Michigan in the United States spontaneously degasses the colloquial term used is burps on a much smaller scale each fall 17 Lake Kivu risks Edit Satellite image of Lake Kivu in 2003 Lake Kivu is not only about 1 700 times larger than Lake Nyos but is also located in a far more densely populated area with over two million people living along its shores and the part within the Democratic Republic of the Congo is a site of active armed conflict and low state capacity for the DRC government Lake Kivu has not reached a high level of CO2 saturation yet if the water were to become heavily saturated a limnic eruption would pose a great risk to human and animal life potentially killing millions 18 Two significant changes in Lake Kivu s physical state have brought attention to a possible limnic eruption the high rates of methane dissociation and a rising surface temperature 19 Research investigating historical and present day temperatures show Lake Kivu s surface temperature is increasing by about 0 12 C per decade 19 Lake Kivu is in close proximity to potential triggers Mount Nyiragongo an active volcano which erupted in January 2002 and May 2021 an active earthquake zone and other active volcanoes 20 While the lake could be degassed in a manner similar to Lake Monoun and Lake Nyos due to the size of Lake Kivu and the volume of gas it contains such an operation would be expensive running into the millions of dollars citation needed A scheme initiated in 2010 to use methane trapped in the lake as a fuel source to generate electricity in Rwanda has led to a degree of CO2 degassing 21 During the procedure for extracting the flammable methane gas used to fuel power stations on the shore some CO2 is removed in a process known as catalyst scrubbing It is unclear whether enough gas will be removed to eliminate the danger of a limnic eruption at Lake Kivu See also Edit Lakes portalCold water geyser Mazuku Natural disaster Tsunamis in lakesReferences Edit Volcanic Lakes and Gas Releases USGS Cascades Volcano Observatory Vancouver Washington Plutarch Life of Camillus Internet Classics Archive MIT retrieved 4 February 2014 Woodward Jamie 7 May 2009 The Physical Geography of the Mediterranean Oxford University Press Oxford ISBN 9780191608414 retrieved 23 October 2015 Sigurdsson H Devine J D Tchua F M Presser F M Pringle M K W Evans W C 1987 Origin of the lethal gas burst from Lake Monoun Cameroun Journal of Volcanology and Geothermal Research 31 1 2 1 16 Bibcode 1987JVGR 31 1S doi 10 1016 0377 0273 87 90002 3 Kling George W Clark Michael A Wagner Glen N Compton Harry R Humphrey Alan M Devine Joseph D Evans William C Lockwood John P et al 1987 The 1986 Lake Nyos Gas Disaster in Cameroon West Africa Science 236 4798 169 75 Bibcode 1987Sci 236 169K doi 10 1126 science 236 4798 169 PMID 17789781 S2CID 40896330 Wenz John 2020 The danger lurking in an African lake Knowable Magazine doi 10 1146 knowable 100720 1 S2CID 225118318 The Power Plant That Could Prevent Disaster 24 May 2016 Tassi Franco 2014 An overview of the structure hazards and methods of investigation of Nyos type lakes from the geochemical perspective Journal of Limnology 73 1 doi 10 4081 jlimnol 2014 836 Hakala Anu 2005 Paleoenvironmental and paleoclimatic studies on the sediments of Lake Vaha Pitkusta and observations of meromixis a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help Freeth SJ 1989 Lake Nyos disaster BMJ 299 6697 513 doi 10 1136 bmj 299 6697 513 a PMC 1837334 PMID 2507040 BBC Horizon programme Killer Lakes Gusiakov V K 2014 Tsunami impact on the African continent historical cases and hazard evaluation In Ismail Zadeh A Urrutia Fucugauchi J Kijko A Takeuchi K Zaliapin I eds Extreme Natural Hazards Disaster Risks and Societal Implications Cambridge Cambridge University Press p 230 ISBN 978 1 107 03386 3 BBC Cameroons killer lake degassed a b c Jones Nicola 2010 Battle to degas deadly lakes continues Nature 466 7310 1033 doi 10 1038 4661033a PMID 20739980 a b Nasr Susan 24 March 2009 How did Lake Nyos suddenly kill 1 700 people HowStuffWorks com Retrieved 18 April 2013 Nicola Jones 1 February 2003 Lake to lose its silent killer newscientist Retrieved 2009 08 20 Otto Laura 28 April 2017 When Lake Michigan burps UWMResearch Milwaukee Wisconsin Jones Nicola How dangerous is Africa s explosive Lake Kivu Nature Springer Nature Limited Retrieved 11 October 2022 a b Katsev Sergei 2014 Recent Warming of Lake Kivu PLOS ONE 9 10 e109084 Bibcode 2014PLoSO 9j9084K doi 10 1371 journal pone 0109084 PMC 4189960 PMID 25295730 Schmid Martin Tietze Klaus Halbwachs Michel Lorke Andreas McGinnis Daniel Wuest Alfred The volcanic risk How hazardous is the gas accumulation in Lake Kivu Arguments for a risk assesment in light of the Nyiragongo Volcano eruption of 2002 PDF Acta vulcanologica Journal of the National Volcanican Group of Italy 14 1 2 15 122 doi 10 1400 19084 Rice Xan 16 August 2010 Rwanda harnesses volcanic gases from depths of Lake Kivu The Guardian London External links Edit Wikimedia Commons has media related to Limnic eruptions Page of the team degassing Lake Nyos Lake s silent killer to be disarmed Lake Nyos 1986 Degassing Lake Nyos Cracking the Killer Lakes of Cameroon Schmid Martin Lorke Andreas Wuest Alfred Halbwachs Michel Tanyileke Gregory 2003 Development and sensitivity analysis of a model for assessing stratification and safety of Lake Nyos during artificial degassing PDF Ocean Dynamics 53 3 288 Bibcode 2003OcDyn 53 288S doi 10 1007 s10236 003 0032 0 S2CID 129370770 Lorke Andreas Tietze Klaus Halbwachs Michel Wuest Alfred 2004 Response of Lake Kivu stratification to lava inflow and climate warming Limnology and Oceanography 49 3 778 83 Bibcode 2004LimOc 49 778L CiteSeerX 10 1 1 487 7647 doi 10 4319 lo 2004 49 3 0778 S2CID 140538251 Lake Monoun BBC Cameroons killer lake degassed Using Science to Solve Problems The Killer Lakes of Cameroon Retrieved from https en wikipedia org w index php title Limnic eruption amp oldid 1133066626, wikipedia, wiki, book, books, library,

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