Talk:Electropop and Stratovolcano: Difference between pages
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[[Image:stratovolcano.jpg|thumb|right|300px|A cutaway diagram of a stratovolcano]] |
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A '''stratovolcano''', also called a composite volcano, is a tall, [[Volcanic cone|conical]] [[volcano]] composed of many layers of hardened [[lava]], [[tephra]], and [[volcanic ash]]. These kinds of volcanoes are characterized by a steep profile and periodic, explosive eruptions. The lava that flows from them is [[viscous]], and cools and hardens before spreading very far. The source magma of this rock is classified as [[Igneous rock#Chemical classification|felsic]], having high to intermediate levels of [[silica]] (as in [[rhyolite]], [[dacite]], or [[andesite]]). This is in contrast to less viscous [[Igneous rock#Chemical classification|mafic]] magma that forms [[shield volcano]]es (such as [[Mauna Loa]] in Hawaii), which have a wide base and more gently sloping profile.{{Fact|date=May 2008}} |
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{{WikiProject New Wave music|class=start|importance=high}} |
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Although stratovolcanoes are sometimes called ''composite'' volcanoes, volcanologists prefer to use the term ''stratovolcano'' to distinguish among volcanoes because all volcanoes of any size have a composite (layered) structure — they are built up from sequential outpourings of eruptive materials. Stratovolcanoes are one of the most common types of volcanoes.{{Fact|date=May 2008}} |
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shouldn't list include anthony rother? he's created lots of cult electronic music, including 'electro pop' album. |
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==Information== |
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==Electropop Musicians List== |
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[[Image:sthelens1.jpg|thumb|right|300px|[[Mount St. Helens]] — a stratovolcano in the U.S. state of [[Washington]] — the day before the [[1980 eruption of Mount St. Helens|May 18, 1980 eruption]] that removed much of the top of the mountain]] |
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There are a lot of artists on that list that are merely pop artists who have taken electropop influences and used them in their own work. A number of them shouldn't be included in a list of "notable electropop musicians". Someone needs to clean up that list. I mean Sugababes and Hilary Duff?!! Christ.... |
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An article that talks about a particular genre of music and gives a list of notable musicians from the genre should be mainly listing artists that have had something substantial to contribute to the genre. If there's a wiki article on jazz music should we then include Christina Aquilera as a "notable jazz musician" because her last album had jazz influences? [[User:Strictmachineaddict|Strictmachineaddict]] 10:54, 12 May 2007 (UTC) |
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== Subgenre? == |
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Stratovolcanoes are a common feature of [[subduction zone]]s, forming chains or 'arcs' along [[plate tectonics|tectonic plate]] boundaries where [[oceanic crust]] is subsumed under [[continental crust]] (Continental Arc Volcanism, e.g. [[Cascade Range]], central [[Andes]]) or another oceanic plate ([[Island arc]] Volcanism, e.g. [[Japan]], [[Aleutian Islands]]). The magma that forms stratovolcanoes arises when water, which is trapped both in hydrated minerals and in the porous [[basalt]] rock of the upper oceanic crust, is released into [[mantle (geology)|mantle]] rock of the [[asthenosphere]] above the sinking oceanic slab. The release of water from hydrated minerals is termed "dewatering," and occurs at specific pressure/temperature conditions for specific minerals as the plate subducts to lower depths. The water freed from the subducting slab lowers the [[melting point]] of the overlying mantle rock, which then undergoes partial melting and rises due to its density relative to the surrounding mantle rock, and pools temporarily at the base of the [[lithosphere]]. The magma then rises through the [[crust (geology)|crust]], incorporating silica rich crustal rock, leading to a final intermediate composition. When the magma nears the surface it pools in a [[magma chamber]] under the volcano. The relatively low pressure of the magma allows water and other [[volatility (physics)|volatiles]] (CO<sub>2</sub>, S<sup>2-</sup>, Cl<sup>-</sup>) dissolved in the magma to begin to come out of solution, much like when a bottle of [[carbonated water]] is opened. Once a critical volume of magma and gas accumulates, the obstacle provided by the [[volcanic cone]] is overcome, leading to a sudden [[explosive eruption]]. |
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Who says that electropop is a subgenre of synthpop? COuldn't it be exactly the opposite?--[[User:Doktor Who|Doktor Who]] 12:57, 27 July 2006 (UTC) |
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==Hazards== |
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:Good point. The intro now reads... ''"first flourished from 1978 to 1981 in both England and Germany. Electropop laid the groundwork for a mass market in chart-oriented synthpop, but later became seen by musicologists as merely a subgenre of synthpop."'' 9th August 2006. |
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[[Image:FujiSunriseKawaguchiko2025WP.jpg|thumb|right|300px| [[Mount Fuji]], an active stratovolcano in Japan that last erupted in 1707-08.]] |
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In recorded history, explosive eruptions at subduction zone (convergent-boundary) volcanoes have posed the greatest hazard to civilizations.<ref name="dynearth">{{cite book|title=This Dynamic Earth: The Story of Plate Tectonics|last=Kious|first=W. Jacquelyne|coauthors=Tilling, Robert I.|publisher=USGS|chapter=Plate tectonics and people|url=http://pubs.usgs.gov/gip/dynamic/tectonics.html}}</ref> Subduction-zone stratovolcanoes like [[Mount St. Helens]] and [[Mount Pinatubo]] typically erupt with explosive force, because the magma is too stiff to allow easy escape of volcanic gases. As a consequence, tremendous internal pressures mount as the trapped gases expand during ascent, before the pent-up pressure is suddenly released in a violent eruption. Such an explosive process can be compared to putting your thumb over an opened bottle of a carbonated drink, shaking it vigorously, and then quickly removing the thumb. The shaking action separates the gases from the liquid to form bubbles, increasing the internal pressure. Quick release of the thumb allows the gases and liquid to gush out with explosive speed and force.<ref name="dynearth"/> |
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As examples of the hazards of stratovolcanoes, consider two volcanoes on the western edge of the [[Philippine Plate]] that erupted in 1991. On June 15, Mount Pinatubo spewed ash 40 km into the air and produced huge [[pyroclastic flow]]s and [[lahar|mudflows]] that devastated a large area around the volcano. Pinatubo, located 90 km from [[Manila]], had been dormant for 600 years before the 1991 eruption, which ranks as one of the largest eruptions in the 20th Century.<ref name="dynearth"/> Also in 1991, Japan's [[Unzen Volcano]], located on the island of Kyushu about 40 km east of Nagasaki, awakened from its 200-year slumber to produce a new lava dome at its summit. Beginning in June, repeated collapses of this active dome generated destructive ash flows that swept down its slopes at speeds as high as 200 km per hour. Unzen is one of more than 75 active volcanoes in Japan; its eruption in 1792 killed more than 15,000 people--the worst volcanic disaster in the country's history.<ref name="dynearth"/> |
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== Simply wrong == |
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[[Image:Mt.Mayon tam3rd.jpg|thumb|right|300px|The [[Mayon Volcano]], the most active stratovolcano in the [[Philippines]].]] |
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Everything in this article is wrong. --[[User:Doktor Who|Dr. Who]] 01:59, 8 February 2007 (UTC) |
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While the Unzen eruptions have caused deaths and considerable local damage, the impact of the June 1991 eruption of Mount Pinatubo was global. Slightly cooler than usual temperatures recorded worldwide and the brilliant sunsets and sunrises have been attributed to this eruption that sent fine ash and gases high into the [[stratosphere]], forming a large volcanic cloud that drifted around the world. The [[sulfur dioxide]] (SO<sub>2</sub>) in this cloud -- about 22 million tons -- combined with water to form droplets of sulfuric acid, blocking some of the sunlight from reaching the Earth and thereby cooling temperatures in some regions by as much as 0.5 °C.<ref name="dynearth"/> An eruption the size of Mount Pinatubo could affect the weather for a few years; material ejected only into the [[troposphere]] will be washed away by [[rain]] and [[winds]]. A similar phenomenon occurred in April 1815 with the cataclysmic eruption of [[Tambora Volcano]] on [[Sumbawa Island]] in [[Indonesia]], the most powerful eruption in recorded history. Tambora's volcanic cloud lowered global temperatures by as much as 3 °C.<ref name="dynearth"/> Even a year after the eruption, most of the northern hemisphere experienced sharply cooler temperatures during the summer months. In part of Europe and in North America, 1816 was known as [[the year without a summer]]. |
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*Why don't you fix it, then? [[WP:BOLD|Be bold!]] :) [[User:Ianthegecko|Ianthegecko]] 15:29, 8 March 2007 (UTC) |
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[[Image:Popocatépetl sunrise.jpg|thumb|300px|right|[[Popocatépetl]], an active stratovolcano in [[Mexico]]]] |
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*AAAHHMMM....DUB has been around since the late 60's. Just experimental madness and spin offs from rocksteady and reggae production. Because DJ's and Producers discover it in the mid 90's does not make it anything new. It would be a subgenre of reggae, as with Dancehall. |
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Apart from possibly affecting climate, volcanic clouds from explosive eruptions also pose a hazard to aviation safety.<ref name="dynearth"/> This was brought to attention during the 1982 eruption of [[Galunggung]] in [[Java]]; two [[Boeing 747]] flew into the ash cloud, suffering temporary engine failure and structural damage. During the past two decades, more than 60 airplanes, mostly commercial jetliners, have been damaged by in-flight encounters with volcanic ash. Some of these encounters have resulted in the power loss of all engines, necessitating emergency landings. Luckily, to date no crashes have happened because of jet aircraft flying into volcanic ash.<ref name="dynearth"/> |
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[[Image:Kazbek.jpg|thumb|right|300px|Mt. [[Kazbek]] in [[Georgia (country)|Georgia]], a dormant stratovolcano in the [[Caucasus Mountains|Caucasus]]]] |
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I agree, 1978 - 1981? more like 1978 - 1983 at least. <small>—Preceding [[Wikipedia:Signatures|unsigned]] comment added by [[Special:Contributions/24.175.196.223|24.175.196.223]] ([[User talk:24.175.196.223|talk]]) 04:05, 17 January 2008 (UTC)</small><!-- Template:UnsignedIP --> <!--Autosigned by SineBot--> |
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Since the year A.D. 1600, nearly 300,000 people have been killed by volcanic eruptions.<ref name="dynearth"/> Most deaths were caused by [[pyroclastic flow]]s and mudflows, deadly hazards which often accompany explosive eruptions of subduction-zone stratovolcanoes. Pyroclastic flows are fast-moving, avalanche-like, ground-hugging incandescent mixtures of hot volcanic debris, ash, and gases that can travel at speeds in excess of 150 km per hour. Approximately 30,000 people were killed by pyroclastic flows during the 1902 eruption of [[Mont Pelée]] on the island of [[Martinique]] in the Caribbean.<ref name="dynearth"/> In [[March 1982|March]]-[[April 1982]], three explosive eruptions of [[El Chichón Volcano]] in the State of [[Chiapas]], southeastern [[Mexico]], caused the worst volcanic disaster in that country's history. Villages within 8 km of the volcano were destroyed by pyroclastic flows, killing more than 2,000 people.<ref name="dynearth"/> |
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Mudflows (also called debris flows or [[lahar]]s, an Indonesian term for volcanic mudflows) are mixtures of volcanic debris and water. The water usually comes from two sources: rainfall or the melting of snow and ice by hot volcanic debris. Depending on the proportion of water to volcanic material, mudflows can range from soupy floods to thick flows that have the consistency of wet cement.<ref name="dynearth"/> As mudflows sweep down the steep sides of composite volcanoes, they have the strength and speed to flatten or bury everything in their paths. Hot ash and pyroclastic flows from the eruption of the [[Nevado del Ruiz]] Volcano in [[Colombia]], South America, melted snow and ice atop the 5,390-m-high Andean peak; the ensuing mudflows buried the city of [[Armero]], killing 25,000 people.<ref name="dynearth"/> |
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== Mainstream artists == |
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[[Volcanic ash|Ashfall]] is a threat to health when inhaled, and is also a threat to property with high enough accumulation. Greater than 30 cm (1 ft) of accumulation is sufficient to collapse most buildings. |
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[[Lava|Lava flows]] are generally not a viable threat because generally lava will move slowly enough to allow people to move away; thus they are more of a property threat. However, [[Nyiragongo]] is dangerous because of its lava flows; its [[magma]] has extremely low [[silica]] content, making it more fluid than normal (even when comparing to Hawaiian lava) and thus less [[viscosity|viscous]]. This is compounded by the extremely steep slope of [[Nyiragongo]]. |
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Please forgive me if I do so incorrectly, but I assume that the only reason Rachel Stevens, Hilary Duff, and Girls Aloud were removed from this article is because they are mainstream artists, but they all release electropop records. Rachel Stevens's Come and Get It is widely regarded as a seminal pop album ([http://www.stylusmagazine.com/review.php?ID=3432 a review]), and Hilary Duff's new album is receiving a similar reception. Girls Aloud were one of the acts that brought electropop back into the pop mainstream in 2003-2004. |
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[[Image:Llaima_Volcano.jpg|thumb|300px|right|[[Llaima]] is a stratovolcano in [[Chile]] which last erupted on 2nd July 2008]] |
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In short, please don't remove artists and groups from the list because you don't like them, ESPECIALLY when references are given, as opposed to every other artist in the list. [[User:68.185.182.12|68.185.182.12]] 07:11, 1 April 2007 (UTC) |
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==See also== |
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I'm sorry but if you're going to list artists in a "notable electropop musicians" list they should have atleast contributed something substantial to the genre as opposed to pop artists who have taken on influences from a genre. What qualifies Rachel Stevens and Hilary Duff as notable electropop musicians? [[User:Strictmachineaddict|Strictmachineaddict]] 10:57, 12 May 2007 (UTC) |
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* [[List of stratovolcanoes]] |
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:The fact that they have sources. One of these days I am going to gut the entire list and leave only the artists that have sources declaring them "electropop." Hilary Duff, for instance, does, and will not be deleted. [[User:Rockstar915|<FONT STYLE="verdana" COLOR ="#990000">'''Rock'''</FONT><FONT COLOR="#000033">star</FONT>]] (<small><sup>[[User_talk:Rockstar915|T]]</sup>/<sub>[[Special:Contributions/Rockstar915|C]]</sub></small>) 14:53, 12 May 2007 (UTC) |
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==References== |
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::they are mostly reviews of their music, which as I stated takes influences from electropop. I wouldn't consider them notable electropop musicians. Perhaps these people who want Hilary Duff and her ilk to be included in the article should make a separate list of people whose music is influenced by electropop - that would be more accurate. They are pop artists - I don't see how they've done anything notable in the electro field. Even Kylie Minogue her material is more pop that's only recently taken on electropop influences. The term "electropop" gets bandied around by pop fans as if every person releasing an album with even a vague synthesised beat is an electropop musician. [[User:Strictmachineaddict|Strictmachineaddict]] 02:30, 13 May 2007 (UTC) |
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{{reflist}} |
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:::Whether or not what you said is true, Wikipedia is not a place for [[WP:OR|original research]], and this project cares more about what [[WP:RS|reliable sources]] say than what the truth is. A better explanation of this can be found in the FAQs of [[WP:V]]. [[User:Rockstar915|<FONT STYLE="verdana" COLOR ="#990000">'''Rock'''</FONT><FONT COLOR="#000033">star</FONT>]] (<small><sup>[[User_talk:Rockstar915|T]]</sup>/<sub>[[Special:Contributions/Rockstar915|C]]</sub></small>) 05:52, 13 May 2007 (UTC) |
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[[Category:Stratovolcanoes]] |
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:: Right, but [[Mixel Pixel]] and [[Lo-Fi-Fnk]] are notable. |
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:: Please note, [[http://en.wikipedia.org/wiki/Wikipedia:Verifiability]] says "Any edit lacking a source may be removed." This wording would seem to imply that edits with sources should not be removed without a good reason. I know people take music personally, so don't be offended when I say your opinion is not a good enough reason. Please don't remove it again, Strictmachineaddict, unless you can find a fault with the sources or another source disputing the claim. If we were going to remove artists, the three in contention should really be the only three to stay, seeing as they are the only sourced ones. [[User:68.185.182.12|68.185.182.12]] 04:33, 21 May 2007 (UTC) |
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[[bg:Стратовулкан]] |
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MUUUUU |
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Revision as of 13:58, 12 October 2008
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A stratovolcano, also called a composite volcano, is a tall, conical volcano composed of many layers of hardened lava, tephra, and volcanic ash. These kinds of volcanoes are characterized by a steep profile and periodic, explosive eruptions. The lava that flows from them is viscous, and cools and hardens before spreading very far. The source magma of this rock is classified as felsic, having high to intermediate levels of silica (as in rhyolite, dacite, or andesite). This is in contrast to less viscous mafic magma that forms shield volcanoes (such as Mauna Loa in Hawaii), which have a wide base and more gently sloping profile.[citation needed]
Although stratovolcanoes are sometimes called composite volcanoes, volcanologists prefer to use the term stratovolcano to distinguish among volcanoes because all volcanoes of any size have a composite (layered) structure — they are built up from sequential outpourings of eruptive materials. Stratovolcanoes are one of the most common types of volcanoes.[citation needed]
Information
Stratovolcanoes are a common feature of subduction zones, forming chains or 'arcs' along tectonic plate boundaries where oceanic crust is subsumed under continental crust (Continental Arc Volcanism, e.g. Cascade Range, central Andes) or another oceanic plate (Island arc Volcanism, e.g. Japan, Aleutian Islands). The magma that forms stratovolcanoes arises when water, which is trapped both in hydrated minerals and in the porous basalt rock of the upper oceanic crust, is released into mantle rock of the asthenosphere above the sinking oceanic slab. The release of water from hydrated minerals is termed "dewatering," and occurs at specific pressure/temperature conditions for specific minerals as the plate subducts to lower depths. The water freed from the subducting slab lowers the melting point of the overlying mantle rock, which then undergoes partial melting and rises due to its density relative to the surrounding mantle rock, and pools temporarily at the base of the lithosphere. The magma then rises through the crust, incorporating silica rich crustal rock, leading to a final intermediate composition. When the magma nears the surface it pools in a magma chamber under the volcano. The relatively low pressure of the magma allows water and other volatiles (CO2, S2-, Cl-) dissolved in the magma to begin to come out of solution, much like when a bottle of carbonated water is opened. Once a critical volume of magma and gas accumulates, the obstacle provided by the volcanic cone is overcome, leading to a sudden explosive eruption.
Hazards
In recorded history, explosive eruptions at subduction zone (convergent-boundary) volcanoes have posed the greatest hazard to civilizations.[1] Subduction-zone stratovolcanoes like Mount St. Helens and Mount Pinatubo typically erupt with explosive force, because the magma is too stiff to allow easy escape of volcanic gases. As a consequence, tremendous internal pressures mount as the trapped gases expand during ascent, before the pent-up pressure is suddenly released in a violent eruption. Such an explosive process can be compared to putting your thumb over an opened bottle of a carbonated drink, shaking it vigorously, and then quickly removing the thumb. The shaking action separates the gases from the liquid to form bubbles, increasing the internal pressure. Quick release of the thumb allows the gases and liquid to gush out with explosive speed and force.[1]
As examples of the hazards of stratovolcanoes, consider two volcanoes on the western edge of the Philippine Plate that erupted in 1991. On June 15, Mount Pinatubo spewed ash 40 km into the air and produced huge pyroclastic flows and mudflows that devastated a large area around the volcano. Pinatubo, located 90 km from Manila, had been dormant for 600 years before the 1991 eruption, which ranks as one of the largest eruptions in the 20th Century.[1] Also in 1991, Japan's Unzen Volcano, located on the island of Kyushu about 40 km east of Nagasaki, awakened from its 200-year slumber to produce a new lava dome at its summit. Beginning in June, repeated collapses of this active dome generated destructive ash flows that swept down its slopes at speeds as high as 200 km per hour. Unzen is one of more than 75 active volcanoes in Japan; its eruption in 1792 killed more than 15,000 people--the worst volcanic disaster in the country's history.[1]
While the Unzen eruptions have caused deaths and considerable local damage, the impact of the June 1991 eruption of Mount Pinatubo was global. Slightly cooler than usual temperatures recorded worldwide and the brilliant sunsets and sunrises have been attributed to this eruption that sent fine ash and gases high into the stratosphere, forming a large volcanic cloud that drifted around the world. The sulfur dioxide (SO2) in this cloud -- about 22 million tons -- combined with water to form droplets of sulfuric acid, blocking some of the sunlight from reaching the Earth and thereby cooling temperatures in some regions by as much as 0.5 °C.[1] An eruption the size of Mount Pinatubo could affect the weather for a few years; material ejected only into the troposphere will be washed away by rain and winds. A similar phenomenon occurred in April 1815 with the cataclysmic eruption of Tambora Volcano on Sumbawa Island in Indonesia, the most powerful eruption in recorded history. Tambora's volcanic cloud lowered global temperatures by as much as 3 °C.[1] Even a year after the eruption, most of the northern hemisphere experienced sharply cooler temperatures during the summer months. In part of Europe and in North America, 1816 was known as the year without a summer.
Apart from possibly affecting climate, volcanic clouds from explosive eruptions also pose a hazard to aviation safety.[1] This was brought to attention during the 1982 eruption of Galunggung in Java; two Boeing 747 flew into the ash cloud, suffering temporary engine failure and structural damage. During the past two decades, more than 60 airplanes, mostly commercial jetliners, have been damaged by in-flight encounters with volcanic ash. Some of these encounters have resulted in the power loss of all engines, necessitating emergency landings. Luckily, to date no crashes have happened because of jet aircraft flying into volcanic ash.[1]
Since the year A.D. 1600, nearly 300,000 people have been killed by volcanic eruptions.[1] Most deaths were caused by pyroclastic flows and mudflows, deadly hazards which often accompany explosive eruptions of subduction-zone stratovolcanoes. Pyroclastic flows are fast-moving, avalanche-like, ground-hugging incandescent mixtures of hot volcanic debris, ash, and gases that can travel at speeds in excess of 150 km per hour. Approximately 30,000 people were killed by pyroclastic flows during the 1902 eruption of Mont Pelée on the island of Martinique in the Caribbean.[1] In March-April 1982, three explosive eruptions of El Chichón Volcano in the State of Chiapas, southeastern Mexico, caused the worst volcanic disaster in that country's history. Villages within 8 km of the volcano were destroyed by pyroclastic flows, killing more than 2,000 people.[1]
Mudflows (also called debris flows or lahars, an Indonesian term for volcanic mudflows) are mixtures of volcanic debris and water. The water usually comes from two sources: rainfall or the melting of snow and ice by hot volcanic debris. Depending on the proportion of water to volcanic material, mudflows can range from soupy floods to thick flows that have the consistency of wet cement.[1] As mudflows sweep down the steep sides of composite volcanoes, they have the strength and speed to flatten or bury everything in their paths. Hot ash and pyroclastic flows from the eruption of the Nevado del Ruiz Volcano in Colombia, South America, melted snow and ice atop the 5,390-m-high Andean peak; the ensuing mudflows buried the city of Armero, killing 25,000 people.[1] Ashfall is a threat to health when inhaled, and is also a threat to property with high enough accumulation. Greater than 30 cm (1 ft) of accumulation is sufficient to collapse most buildings. Lava flows are generally not a viable threat because generally lava will move slowly enough to allow people to move away; thus they are more of a property threat. However, Nyiragongo is dangerous because of its lava flows; its magma has extremely low silica content, making it more fluid than normal (even when comparing to Hawaiian lava) and thus less viscous. This is compounded by the extremely steep slope of Nyiragongo.
