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Mud volcano - Wikipedia, the free encyclopedia

Mud volcano

From Wikipedia, the free encyclopedia

Note: See the volcano article for information on magmatic volcanoes such as Mount St. Helens or Kilauea.
The hydrothermal phenomenon known as "mud volcanoes" are often not true mud volcanoes; see mud pot for more information.
A gaseous mud volcano
A gaseous mud volcano

The term mud volcano or mud dome is used to refer to formations created by geo-excreted liquids and gases, although there are several different processes which may cause such activity. Temperatures are much cooler than igneous processes. The largest structures are 10 km in diameter and reach 700 metres in height.

About 86% of released gases are methane, with much less carbon dioxide and nitrogen emitted. Ejected materials often are a slurry of fine solids suspended in liquids which may include water (frequently acidic or salty) and hydrocarbon fluids.

Contents

[edit] Details

Mud volcano in the Gulf of Mexico sea bottom.
Mud volcano in the Gulf of Mexico sea bottom.

A mud volcano may be the result of a piercement structure created by a pressurized mud diapir which breaches the Earth's surface or ocean bottom. Temperatures may be as low as the freezing point of ejected materials, particularly when venting is associated with the creation of hydrocarbon clathrate hydrate deposits.

Mud volcanoes are often associated with petroleum deposits and tectonic subduction zones and orogenic belts; hydrocarbon gases are often erupted. They are also often associated with lava volcanoes; in the case of such close proximity, mud volcanoes emit incombustible gases including helium, whereas lone mud volcanoes are more likely to emit methane.

In Azerbaijan, eruptions are driven from a deep mud reservoir which is connected to the surface even during dormant periods, when seeping water still shows a deep origin. Seeps have temperatures up to 2–3 °C above the ambient temperature.[1]

Approximately 1,100 mud volcanoes have been identified on land and in shallow water. It has been estimated that well over 10,000 may exist on continental slopes and abyssal plains.

Mud volcanoes are frequently associated with earthquake zones. Many scientists suggest monitoring gas emissions and activity of mud volcanoes because they can be suitable to predict strong earthquakes.[citation needed]

[edit] Features

  • Gryphon: steep-sided cone shorter than 3 meters that extrudes mud
  • Mud cone: high cone shorter than 10 meters that extrudes mud and rock fragments
  • Scoria cone: cone formed by heating of mud deposits during fires
  • Salse: water-dominated pools with gas seeps
  • Spring: water-dominated outlets smaller than 0.5 meters
  • Mud shield and many other kinds of features

[edit] Emissions

Most liquid and solid material is released during eruptions, but various seeps occur during dormant periods.

First order estimates of mud volcano emissions have been recently made.

  • 2002: L.I. Dimitrov estimated that 10.2–12.6 Tg/yr of methane is released from onshore and shallow offshore mud volcanoes.
  • 2002: Etiope and Klusman in 2002 estimated at least 1–2 and as much as 10–20 Tg/yr of methane may be emitted from onshore mud volcanoes.
  • 2003: Etiope, in an estimate based on 120 mud volcanoes: "The emission results to be conservatively between 5 and 9 Tg/yr, that is 3–6% of the natural methane sources officially considered in the atmospheric methane budget. The total geologic source, including MVs (this work), seepage from seafloor (Kvenvolden et al., 2001), microseepage in hydrocarbon-prone areas and geothermal sources (Etiope and Klusman, 2002), would amount to 35–45 Tg/yr."[2]
  • 2003: Milkov et al's analysis suggests that the global gas flux may be as high as 33 Tg/yr (15.9 Tg/yr during quiescent periods plus 17.1 Tg/yr during eruptions). 6 Tg/yr of greenhouse gases from onshore and shallow offshore mud volcanoes. Deep-water sources may emit 27 Tg/yr. Total may be 9% of fossil CH4 missing in the modern atmospheric CH4 budget, and 12% in the preindustrial budget.[3]
  • 2003: Alexei Milkov estimated approximately 30.5 Tg/yr of gases (mainly methane and CO2) may escape from mud volcanoes to the atmosphere and the ocean.[4]
  • 2003: Achim J. Kopf estimated 1.97 × 1011 to 1.23 × 1014 m³ of methane is released by all mud volcanoes per year, of which 4.66 × 107 to 3.28 × 1011 m³ is from surface volcanoes.[5] That converts to 141–88,000 Tg/yr from all mud volcanoes, of which 0.033–235 Tg is from surface volcanoes.

[edit] Locations

Hydrate-bearing sediments, which often are associated with mud volcano activity.Source: USGS, 1996.
Hydrate-bearing sediments, which often are associated with mud volcano activity.
Source: USGS, 1996.

[edit] Europe and Asia

Mud volcanoes are generally few in Europe, but dozens can be found on the Kerch Peninsula of southeastern Ukraine. In Italy they are common in the northern front of the Apennines and in Sicily. Another relatively accessible place where mud volcanoes can be found in Europe are the Berca Mud Volcanoes near Berca in Buzău County, Romania close to the Carpathian Mountains.

Many mud volcanoes exist on the shores of the Black Sea and Caspian Sea. Tectonic forces and large sedimentary deposits around the latter have created several fields of mud volcanoes, many of them emitting methane and other hydrocarbons. Features over 200 meters high exist in Azerbaijan, with large eruptions sometimes producing flames of similar scale (see below). Iran and Pakistan also possess mud volcanoes in the Makran range of mountains in the south of the two countries.

China has a number of mud volcanoes in Xinjiang province. There are also mud volcanoes at the Arakan Coast in Myanmar. There are two active mud volcanoes in South Taiwan, and several inactive ones.

The island of Baratang, part of the Great Andaman archipelago in the Andaman Islands, Indian Ocean has several sites of mud volcanic activity. The was a significant eruption event in 2003.

A drilling accident offshore of Brunei in 1979 caused a mud volcano which took 20 relief wells and nearly 30 years to stop the eruption.

Drilling or an earthquake may have resulted in theAnother drilling accident on May 29th, 2006 in the Porong sub district of East Java province, Indonesia. The mud covered about 440 hectares, or 1,087 acres and inundated four villages, homes, roads, rice fields, factories, and displaced about 24,000 people and killing 14. The gas exploration company was operated by PT Lapindo Brantas. In 2008 it has been termed the world's largest mud volcano and is beginning to show signs of catastrophic collapse, according to geologists who have been monitoring it and the surrounding area. A catastrophic collapse could sag the vent and surrounding area by up to 150 meters in the next decade. In March 2008, the scientists observed drops of up to 3 meters in one night. Most of the subsidence in the area around the volcano is more gradual, at around 0.1cm per day. Now named Lusi, the mud volcano appears to be a hydrocarbon/hydrothermal hybrid. Lusi is actually a contraction of Lumpur Sidoarjo where lumpur is the Indonesian word for mud.

[edit] Azerbaijan

Lokbatan Mud Volcano eruption in Azerbaijan, 2001
Lokbatan Mud Volcano eruption in Azerbaijan, 2001

It's estimated that 300 of the planet's estimated 700 mud volcanoes sit in Eastern Azerbaijan and the Caspian Sea.[6] Many geologists as well as locals and international mud tourists trek to such places as the Firuz Crater, Gobustan, Salyan and end up happily covered in mud which is thought to have medicinal qualities.[7] In 2001 one mud volcano 15 kilometers from Baku made world headlines when it suddenly started spewing flames 15 meters high.[8]

[edit] North and South America

Mud volcanoes of the North American continent include:

Yagrumito Mud Volcano in Monagas, Venezuela. (6 km from Maturín)
Yagrumito Mud Volcano in Monagas, Venezuela. (6 km from Maturín)

South American mud volcanoes include:

  • Venezuela. The Eastern part of Venezuela contains several mud volcanoes, all of them, like in Trinidad, having an origin related to oil deposits. The image shows the Volcán de lodo de Yagrumito, about 6 km from Maturín, Venezuela. Its mud contains, water, biogenic gas, certain amount of hydrocarbons and an important quantity of salt. Cows from the savanna often gather around to lick the dried mud for its salt content which is an integral part of their diet needed to produce milk.
  • Colombia. Volcan El Totumo [1], which marks the division between Bolivar and Atlantico in Colombia. This volcano is approximately 50 feet high and can accommodate 10 to 15 people on its crater, many tourists and locals visit this volcano due to the medicinal benefits of the mud, the volcano is located next to a "cienaga" or lake. This volcano is currently under a legal fight between the Bolivar and the Atlantico "Departamentos" because of its tourist value.

[edit] Yellowstone's "Mud Volcano"

Yellowstone's Mud Volcano feature. (NPS,Peaco,1998).
Yellowstone's Mud Volcano feature. (NPS,Peaco,1998).

The name of Yellowstone National Park's Mud Volcano feature and the surrounding area is misleading; it consists of hot springs, mud pots and fumaroles rather than a true mud volcano. Depending upon the precise definition of the term mud volcano, the Yellowstone formation could be considered a hydrothermal mud volcano cluster. The feature is much less active than in its first recorded description, although the area is quite dynamic. Yellowstone is an active geothermal area with a magma chamber near the surface, and active gases are chiefly steam, carbon dioxide, and hydrogen sulfide.[9]

The mud volcano in Yellowstone was previously a mound, until suddenly it tore itself apart into the formation seen today.[citation needed]

[edit] See also

[edit] References

  1. ^ S. Planke, H. Svensen, M. Hovland, D. A. Banks, B. Jamtveit (December 2003). "Mud and fluid migration in active mud volcanoes in Azerbaijan". Geo-Marine Letters 23 (3-4): 258-268. doi:10.1007/s00367-003-0152-z.  doi:10.1007/s00367-003-0152-z
  2. ^ Etiope, Giuseppe (2003). "A NEW ESTIMATE OF GLOBAL METHANE FLUX TO THE ATMOSPHERE FROM ONSHORE AND SHALLOW SUBMARINE MUD VOLCANOES". Geological Society of America Abstracts with Programs: 115.  A NEW ESTIMATE OF GLOBAL METHANE FLUX TO THE ATMOSPHERE FROM ONSHORE AND SHALLOW SUBMARINE MUD VOLCANOES. XVI INQUA Congress. Retrieved on April 20, 2005.
  3. ^ Milkov, A. V., R. Sassen, T. V. Apanasovich, and F. G. Dadashev (2003). "Global gas flux from mud volcanoes: A significant source of fossil methane in the atmosphere and the ocean". Geophys. Res. Lett. 30 (2): 1037. doi:10.1029/2002GL016358.  doi:10.1029/2002GL016358
  4. ^ Global Distribution and Significance of Mud Volcanoes. AAPG Annual Meeting 2003: Energy - Our Monumental Task. Retrieved on April 20, 2005.
  5. ^ Achim J. Kopf (2003). "Global methane emission through mud volcanoes and its past and present impact on the Earths climate". International Journal of Earth Sciences 92 (5): 806-816. doi:10.1007/s00531-003-0341-z.  doi:10.1007/s00531-003-0341-z ISSN 1437-3254 (Paper) ISSN 1437-3262 (Online)
  6. ^ 11.2 Mud Volcanoes - Mysterious Phenomena Fascinate Scientists and Tourists by Ronnie Gallagher
  7. ^ Student Travel Information & Discounts - Events: Mud Volcanoes (Azerbaijan)
  8. ^ BBC News | SCI/TECH | Azeri mud volcano flares
  9. ^ Mud volcano. USGS Photo glossary of volcano terms. Retrieved on April 20, 2005.

[edit] External links


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