volcanoes
DESCRIPTION
Volcanoes. A Volcano is an area in the earth’s crust where molten rock, gases, and ash erupt from. Volcano also refers to the landform that develops. How Volcanoes Form. Magma Formation The following 3 conditions will allow magma to form. - PowerPoint PPT PresentationTRANSCRIPT
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VolcanoesVolcanoes
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AA Volcano is an area in is an area in the earth’s crust where the earth’s crust where molten rock, gases, and molten rock, gases, and ash erupt from. Volcano ash erupt from. Volcano
also refers to the also refers to the landform that develops.landform that develops.
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HowHow Volcanoes Form Volcanoes Form
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Magma FormationMagma FormationThe following 3 conditions The following 3 conditions
will allow magma to form.will allow magma to form.
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1. A decrease in 1. A decrease in pressure lowers the pressure lowers the melting point of rock melting point of rock
material. This happens material. This happens along a rift valley at a along a rift valley at a
mid-ocean ridge..
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2. An increase in 2. An increase in temperature can cause temperature can cause rock material to melt. rock material to melt. This happens near a This happens near a hot spothot spot such as the such as the Hawaiian Islands.Hawaiian Islands.
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3. An increase in the 3. An increase in the amount of water in the amount of water in the asthenosphereasthenosphere can lower can lower the melting temperature. the melting temperature. This happens at This happens at subduction boundaries.subduction boundaries.
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Why water lowers the melting point of rock and forms Why water lowers the melting point of rock and forms magma in subduction zones, by Brandon Browne, magma in subduction zones, by Brandon Browne, former LCHS student and Ph.D. volcanologist at Cal former LCHS student and Ph.D. volcanologist at Cal State FullertonState Fullerton
“When water dissolves into the structure or “When water dissolves into the structure or rock, chemical bonds holding minerals together are rock, chemical bonds holding minerals together are shortened (reducing viscosity) and eventually broken shortened (reducing viscosity) and eventually broken (melting) if the rock becomes saturated, which is defined (melting) if the rock becomes saturated, which is defined as the point where any additional water added to the as the point where any additional water added to the rock will form a separate phase like a bubble. another rock will form a separate phase like a bubble. another way to think about it is that water saturation requires the way to think about it is that water saturation requires the total Pressure to equal dissolved Htotal Pressure to equal dissolved H22O Pressure. O Pressure.
Decompressing rock has the same effect, which is why Decompressing rock has the same effect, which is why anhydrous (dry) mantle can melt through decompression anhydrous (dry) mantle can melt through decompression at constant T.” at constant T.”
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Parts of a VolcanoParts of a Volcano
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Volcano ActivityA volcano is considered:A volcano is considered:
•Active if it has erupted in historic Active if it has erupted in historic time. This is anywhere from 200 to time. This is anywhere from 200 to 3,000 years, depending on the 3,000 years, depending on the region.region.Dormant if it is not currently active, Dormant if it is not currently active, but could become so.but could become so.Extinct when scientists consider it Extinct when scientists consider it unlikely to erupt again.unlikely to erupt again.
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Where Volcanoes Form Volcanoes Form
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World Earthquake and Volcano Distribution
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Many powerful volcanoes of the Many powerful volcanoes of the world can be found in the Pacific world can be found in the Pacific Ring of Fire.Ring of Fire.
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At Subduction Boundaries
More Dense (Oceanic Crust)
Less Dense (Continental or Oceanic Crust)
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Volcanoes form on the overriding Volcanoes form on the overriding plate. The Cascades (Mt. St. plate. The Cascades (Mt. St.
Helens, Mt. Shasta, Mt. Rainier) Helens, Mt. Shasta, Mt. Rainier) are a good exampleare a good example
Juan de Fuca Plate
North American Plate
Cascade Mountains
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Mt. Rainier, Washington: A composite Mt. Rainier, Washington: A composite volcano formed at a subduction boundary volcano formed at a subduction boundary where the Juan De Fuca Plate is diving where the Juan De Fuca Plate is diving
under the North American Plateunder the North American Plate
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At Divergent Boundary
Rift Valleys and Mid-Ocean Ridges
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Magma rises to the surface at a mid-ocean ridge in
pillow lava formations and/or hydrothermal vents. Most
volcanoes occur here.
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At Hot SpotsHawaiian Islands are a good example.
Hot SpotPacific Plate
Movement Newest Islands
Oldest Islands
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Magma and Material Magma and Material Erupted from a VolcanoErupted from a Volcano
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What determines whether What determines whether a volcano will be a volcano will be
explosive like this?explosive like this?
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……and what determines and what determines whether a volcano will be whether a volcano will be
docile like this?docile like this?
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The answer is the The answer is the type of magma that causes the that causes the
eruption.eruption.Low Viscosity, gas and silica content
High Viscosity, gas and silica content
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……but what is viscosity?but what is viscosity?
ViscosityViscosity is the resistance is the resistance to flow of magma/lava.to flow of magma/lava.
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Viscosity Ratings of Known LiquidsViscosity Ratings of Known LiquidsWater Vegetable Oil Syrup
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Viscosity Ratings of Known LiquidsViscosity Ratings of Known LiquidsWater Vegetable Oil Syrup
Low Viscosity
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Viscosity Ratings of Known LiquidsViscosity Ratings of Known LiquidsWater Vegetable Oil Syrup
Low ViscosityMedium Viscosity
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Viscosity Ratings of Known LiquidsViscosity Ratings of Known LiquidsWater Vegetable Oil Syrup
Low ViscosityMedium Viscosity
High Viscosity
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Viscosity Ratings of Known LiquidsViscosity Ratings of Known LiquidsWater Vegetable Oil Syrup
Low ViscosityMedium Viscosity
High ViscosityLike basaltic magma
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Viscosity Ratings of Known LiquidsViscosity Ratings of Known LiquidsWater Vegetable Oil Syrup
Low ViscosityMedium Viscosity
High ViscosityLike basaltic magma
Like andesitic magma
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Viscosity Ratings of Known LiquidsViscosity Ratings of Known LiquidsWater Vegetable Oil Syrup
Low ViscosityMedium Viscosity
High ViscosityLike basaltic magma
Like andesitic magma
Like rhyolitic magma
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Magmas high in silica Magmas high in silica (quartz) concentration (quartz) concentration resist flow and have resist flow and have
high viscosity.high viscosity.
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Magmas low in silica Magmas low in silica (quartz) concentration (quartz) concentration flow more easily and flow more easily and have low viscosity.have low viscosity.
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Higher concentrations Higher concentrations of gas (mostly water of gas (mostly water
vapor and carbon vapor and carbon dioxide) in the magma dioxide) in the magma
result in explosive result in explosive volcanoes.volcanoes.
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Lower concentrations of Lower concentrations of gas (mostly water vapor gas (mostly water vapor and carbon dioxide) in and carbon dioxide) in the magma result in the magma result in
docile volcanoes.docile volcanoes.
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Basaltic Basaltic MagmaMagma
Andesitic Andesitic MagmaMagma
Rhyolitic Rhyolitic MagmaMagma
Silica ContentSilica Content Least (~50%)Least (~50%) Intermediate Intermediate (~60%)(~60%)
Most (~70%)Most (~70%)
Gas ContentGas Content LeastLeast IntermediateIntermediate MostMost
ViscosityViscosity Least viscousLeast viscous IntermediateIntermediate Most viscousMost viscous
Type of Type of EruptionEruption
Rarely Rarely explosiveexplosive
Sometimes Sometimes explosiveexplosive
Usually Usually explosiveexplosive
Melting Melting TemperatureTemperature
HighestHighest IntermediateIntermediate LowestLowest
LocationLocation Rifts, Oceanic Rifts, Oceanic Hot SpotsHot Spots
Subduction Subduction boundariesboundaries
Continental Hot Continental Hot SpotsSpots
Characteristics of Magma (see page 199 in your book)Characteristics of Magma (see page 199 in your book)
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Basaltic magma forms at magma forms at mid-ocean ridges and hot mid-ocean ridges and hot
spots.spots.Mid-Ocean Ridges Hot Spots
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Hawaii: A low viscosity lavaHawaii: A low viscosity lava..
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Hawaii: A low viscosity lavaHawaii: A low viscosity lava..
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Hawaiian BasaltHawaiian Basalt
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Kilauea CraterKilauea Crater
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Basalt eats roads!Basalt eats roads!
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Andesitic magma forms magma forms at subduction zones.at subduction zones.
Subduction Zone
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Andesitic Magma found at Mt. St. Andesitic Magma found at Mt. St. Helens, WAHelens, WA
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Devastation from explosive eruption Devastation from explosive eruption of Mt. St. Helens, WAof Mt. St. Helens, WA
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Rhyolitic magma forms at magma forms at continental hot spots such continental hot spots such
as Yellowstone Park.as Yellowstone Park.
Continental Hot Spot
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Yellowstone National Park is a good Yellowstone National Park is a good example of an extremely explosive example of an extremely explosive
volcano with rhyolitic magma!volcano with rhyolitic magma!
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Yellowstone National Park is a good Yellowstone National Park is a good example of an extremely explosive example of an extremely explosive
volcano with rhyolitic magma!volcano with rhyolitic magma!
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Yellowstone National Park is a good Yellowstone National Park is a good example of an extremely explosive example of an extremely explosive
volcano with rhyolitic magma!volcano with rhyolitic magma!
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Yellowstone National Park is a good Yellowstone National Park is a good example of an extremely explosive example of an extremely explosive
volcano with rhyolitic magma!volcano with rhyolitic magma!
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Yellowstone National Park is a good Yellowstone National Park is a good example of an extremely explosive example of an extremely explosive
volcano with rhyolitic magma!volcano with rhyolitic magma!
Numerous hot springs in Yellowstone, indicating that it is VERY active! Magma below the surface heats the water in the hot springs. This water is over 200 degrees Fahrenheit!
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Lava FlowsLava Flows
LavaLava is magma that is magma that reaches the surface of reaches the surface of
the Earth.the Earth.
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There are 2 types of There are 2 types of basaltic lava flows on basaltic lava flows on
land, land, pahoehoepahoehoe and and aaaa. . These are Hawaiian terms These are Hawaiian terms
and these types of lava and these types of lava are usually found in are usually found in
Hawaii.Hawaii.
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Pahoehoe: smooth and : smooth and rope-likerope-like
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aaaa : sharp and jagged : sharp and jagged
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Underwater Underwater Pillow LavaPillow Lava found offshore of Hawaii. found offshore of Hawaii. These can also be found These can also be found
at Mid-Ocean Ridges.at Mid-Ocean Ridges.
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Solid Ash and Rock Solid Ash and Rock Fragments erupted from Fragments erupted from
Volcanoes are called Volcanoes are called pyroclastic materialpyroclastic material. They . They
are classified by size.are classified by size.
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Volcanic Ash:Volcanic Ash:Diameter < 2 mmDiameter < 2 mm
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Volcanic Lapilli:Volcanic Lapilli:Diameter from 2 to 64 mmDiameter from 2 to 64 mm
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Volcanic Blocks or Volcanic Blocks or Bombs:Bombs:
Diameter > 64 mmDiameter > 64 mm
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Pyroclastic Pyroclastic FlowFlow: :
pyroclastic pyroclastic material material
combines with combines with hot gases. Can hot gases. Can travel at speeds travel at speeds
> 100 km/hr.> 100 km/hr.
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Volcanic LandformsVolcanic Landforms•Shield VolcanoesShield VolcanoesCinder ConesCinder ConesComposite VolcanoesComposite VolcanoesCalderasCalderasLava DomesLava Domes
See graphic on pages 202 See graphic on pages 202 to 203!to 203!
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Shield VolcanoesShield Volcanoes: Broad bases : Broad bases and gently sloping sides. and gently sloping sides. Because they discharge basaltic Because they discharge basaltic flows, they are usually the least flows, they are usually the least explosive.explosive.
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Shield VolcanoesShield Volcanoes: Broad bases : Broad bases and gently sloping sides. and gently sloping sides. Because they discharge basaltic Because they discharge basaltic flows, they are usually the least flows, they are usually the least explosive.explosive.
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Shield VolcanoesShield Volcanoes are usually are usually found above hot spots such as in found above hot spots such as in Hawaii. Kilauea is an example.Hawaii. Kilauea is an example.
Hot Spot
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Cinder ConesCinder Cones: Cone-shaped : Cone-shaped mound that are smaller than mound that are smaller than other volcanoes. They can be other volcanoes. They can be quite explosive.quite explosive.
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Cinder ConesCinder Cones: Cone-shaped : Cone-shaped mound that are smaller than mound that are smaller than other volcanoes. They can be other volcanoes. They can be quite explosive.quite explosive.
Panum Crater near Mammoth and Mono Craters Fossil Falls and Red Hill at the
Southern part of the Owens Valley
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Cinder ConesCinder Cones can usually be found can usually be found over subduction zones on over subduction zones on continents. Paricutin and El continents. Paricutin and El Chichon in Mexico are examples.Chichon in Mexico are examples.
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Composite Volcanoes Composite Volcanoes (stratovolcano)(stratovolcano): The largest of all! : The largest of all! They are usually quite explosive They are usually quite explosive and are made of alternating layers and are made of alternating layers of lava and pyroclastic material.of lava and pyroclastic material.
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LaharsLahars: Fast moving rivers of : Fast moving rivers of mud and debris flow.mud and debris flow.
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Composite Volcanoes Composite Volcanoes are usually are usually found above subduction zones. found above subduction zones. Mount Fuji and Mt. St. Helens are Mount Fuji and Mt. St. Helens are examples.examples.
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CalderasCalderas: a large crater-shaped : a large crater-shaped basin caused by the collapse of the basin caused by the collapse of the top of a volcano cone. Crater Lake, top of a volcano cone. Crater Lake,
Oregon is an example.Oregon is an example.
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Crater Lake National Park, Oregon was Crater Lake National Park, Oregon was formed when the 12,000 foot ancient Mt. formed when the 12,000 foot ancient Mt.
Mazama erupted 7,700 years ago.Mazama erupted 7,700 years ago.
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Wizard island formed from eruptions that Wizard island formed from eruptions that came after the major eruption of Mt. came after the major eruption of Mt.
Mazama.Mazama.
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Another example of a caldera is Another example of a caldera is Yellowstone National Park.Yellowstone National Park.
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Lava DomeLava Dome: a mound of lava : a mound of lava formed by viscous lava solidifying formed by viscous lava solidifying
near the vent.near the vent.