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Chapter 13Fires Within:
Igneous Activity(Volcanism)
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The Nature of Volcanic Eruptions
Characteristics of a magma determine the “violence” or explosiveness of an eruption
Composition Temperature Dissolved gases
The above three factors actually control the viscosity of a magma
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The Nature of Volcanic Eruptions
Viscosity is a measure of a material’s resistance to flow
Factors affecting viscosity Temperature—Hotter magmas are less viscous
Composition—Silica (SiO2) content Higher silica content = higher viscosity Lower silica content = lower viscosity
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The Nature of Volcanic Eruptions
Dissolved gases Gases expand within a magma as
it nears the Earth’s surface due to decreasing pressure
The violence of an eruption is related to how easily gases escape
In summary Basaltic lavas = mild eruptions Rhyolitic or andesitic lavas = explosive eruptions
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Quiet vs Violent Eruptions
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Materials Extruded from a Volcano
Lava flows Basaltic lavas exhibit fluid behavior Types of basaltic flows
Pahoehoe lava (resembles a twisted or ropey texture)
Aa lava (rough, jagged blocky texture)
Dissolved gases-provides the “bang”
1%–6% by weight Mainly H2O and CO2
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A Pahoehoe Lava Flow
Figure 7.5 A
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Aa Lava Flow
Figure 7.5 B
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Materials Extruded from a Volcano
Pyroclastic materials—“Fire fragments”
Types of pyroclastic debris Ash and dust—Fine, glassy fragments Pumice—Porous rock from “frothy”
lava Cinders—Pea-sized material Lapilli—Walnut-sized material Particles larger than lapilli
Blocks—Hardened or cooled lava Bombs—Ejected as hot lava
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A Volcanic Bomb
Bomb is approximately 10 cm long
Figure 7.6
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Volcanic Structures
General features Opening at the summit of a volcano
Crater— Summit depression < 1 km diameter
Caldera —Summit depression > 1 km diameter produced by collapse following a massive eruption
Vent —Surface opening connected to the magma chamber
Fumarole—Emit only gases and smoke
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Volcanic Structures
Types of volcanoes Shield volcano
Broad, slightly domed shaped Generally cover large areas Produced by mild eruptions of
large volumes of basaltic lava Example = Mauna Loa on Hawaii
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Anatomy of a Shield Volcano
Figure 7.8
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Volcanic Structures
Cinder cone Built from ejected lava (mainly
cinder-sized) fragments Steep slope angle Small size Frequently occur in groups
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Cinder Cone Volcano
Figure 7.11
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Volcanic Structures
Composite cone (stratovolcano) Most are located adjacent to the
Pacific Ocean (e.g., Fujiyama, Mt. St. Helens)
Large, classic-shaped volcano (1000s of ft. high and several miles wide at base)
Composed of interbedded lava flows and pyroclastic debris
Most violent type of activity (e.g., Mt. Vesuvius)
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Mt. St. Helens—Prior to the 1980 Eruption
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Mt. St. Helens After the 1980 Eruption
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Profiles of Volcanic Landforms
Figure 7.9
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Volcanic Structures
Nuée ardente Nuée ardente —A deadly pyroclastic flow
Fiery pyroclastic flow made of hot gases infused with ash and other debris
Also known as glowing avalanches Move down the slopes of a volcano
at speeds up to 200 km per hour
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A Nueé Ardente on Mt. St. Helens
Figure 7.14
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Volcanic Structures
Lahar—Volcanic mudflow Mixture of volcanic debris and water
Move down stream valleys and volcanic slopes, often with destructive results
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07_16
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Other Volcanic Landforms
Caldera-various types (Hawaiian, Yellowstone, Crater Lake)
Steep-walled depressions at the summit Generally > 1 km in diameter Produced by collapse
Pyroclastic flow Felsic and intermediate magmas Consists of ash, pumice, and other debris Example = Yellowstone Plateau
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Formation of Crater Lake, Oregon
Figure 7.17
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Other Volcanic Landforms
Fissure eruptions and lava plateaus
Fluid basaltic lava extruded from crustal fractures called fissures
Example = Columbia River Plateau Lava domes
Bulbous mass of congealed lava Associated with explosive eruptions of gas-rich magma
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07_20A
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07_19
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Channeled Scablands of Washington
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Other Volcanic Landforms
Volcanic pipes and necks Pipes—Short conduits that connect a magma chamber to the surface
Volcanic necks (e.g., Ship Rock, New Mexico)—Resistant vents left standing after erosion has removed the volcanic cone
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Intrusive Igneous Activity
Most magma is emplaced at depth in the Earth
Once cooled and solidified, is called a pluton
Nature of plutons Shape—Tabular (sheetlike) vs. massive
Orientation with respect to the host (surrounding) rock
Concordant vs. discordant
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Intrusive Igneous Activity
Types of intrusive igneous features
Dike—A tabular, discordant pluton Sill—A tabular, concordant pluton (e.g., Palisades Sill in New York)
Laccolith Similar to a sill Lens or mushroom-shaped mass Arches overlying strata upward
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A Sill in the Salt River Canyon, Arizona
Figure 7.23
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Intrusive Igneous Activity
Intrusive igneous features continued
Batholith Largest intrusive body Surface exposure > 100+ km2
(smaller bodies are termed stocks)
Frequently form the cores of mountains
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Plate Tectonics and Igneous Activity
Global distribution of igneous activity is not random
Most volcanoes are located within or near ocean basins
Basaltic rocks = oceanic and continental settings
Granitic rocks = continental settings
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Distribution of Some of the
World’s Major Volcanoes
Figure 7.26
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Plate Tectonics and Igneous Activity
Igneous activity at plate margins Spreading centers
Greatest volume of volcanic rock is produced along the oceanic ridge system
Mechanism of spreading Decompression melting occurs as
the lithosphere is pulled apart Large quantities of basaltic
magma are produced
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Plate Tectonics and Igneous Activity
Subduction zones Occur in conjunction with deep
oceanic trenches An island arc if in the ocean A volcanic arc if on a continental
margin Associated with the Pacific Ocean
Basin Region around the margin is
known as the “Ring of Fire” Majority of world’s explosive
volcanoes
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Plate Tectonics and Igneous Activity
Intraplate volcanism Occurs within a tectonic plate Localized volcanic regions in the overriding plate are called a hot spot
Produces basaltic magma sources in oceanic crust (e.g., Hawaii and Iceland)
Produces granitic magma sources in continental crust (e.g., Yellowstone Park)
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Yellowstone Hotspot
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Snake River Plain
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End of Chapter 13 Review