Lecture 7 - Igneous Processes and Structures
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Transcript Lecture 7 - Igneous Processes and Structures
Igneous Processes and Structures
GLY 2010 – Summer 2016
Lecture 7
1
Definition of Igneous
• Igneous - Said of a rock or mineral that
solidified from molten or partly molten
material, i.e. from a magma
• Etymology: Latin ignis, ''fire”
2
Magma
• Magma is naturally occurring mobile rock
material “molten rock”
• Capable of intrusion and extrusion
• Igneous rocks are derived from magma
through solidification and related processes
3
Viscosity
• Viscosity is the property of a substance to
offer internal resistance to flow; its internal
friction
4
Flow Viscosity
Initial Position
After flow starts
Viscosity increases from left to right
5
Viscosity in Magma
• Video shows a rod being poked in hot, viscous
magma on Kilauea, Hawaii
6
Factors Influencing the Viscosity of
Magma
• Temperature
• Chemical composition
• Gas content
7
Temperature
• The higher the temperature, the lower
the viscosity
• Basaltic magmas at 1200°C or
higher, are much more fluid (less
viscous) than granitic magmas at
800°C
8
Low Viscosity Flow Animation
Typical of basaltic magma
9
High Viscosity Flow Animation
• Typical of Andesitic or Rhyolitic Magmas
10
Chemical Composition
• The higher the silica content of
magma, the higher the viscosity
11
Gas Content
• As gas content increases, the
viscosity decreases
• Gases inhibit silica chain formation,
and lower overall viscosity
12
Effects of Increasing Viscosity
• Volcanic violence related to viscosity
(magma type)
• Magma type related to geologic, and
often, plate tectonic setting
13
Partial Melting
• Different minerals melt at different
temperatures
• As temperature increases, this leads to
partial melting
14
Igneous Structures
• Intrusive –
magma freezes
below the
surface
• Extrusive –
magma erupts
onto or above
the surface
15
Intrusive Structures
• Plutons are large bodies of magma that
solidified well below the surface
• Magma may be injected under pressure
into cracks in the rock
16
Intrusive Structures, Cont.
• Igneous sill – Parallel to existing layers
17
Igneous Sill
• Salt River Canyon, Arizona – the dark band is basalt
intruded into horizontal layers of igneous rock
18
Intrusive Structures, Cont.
• Igneous Dike - intrusion cuts across
the rock layers
19
Igneous Dike
•Thin, pink
aplite dikes cut
the black
basaltic dikes
and the gray
granite
•Photo C.A.
Giovanella
• Location Pender Harbor,
Southwest British Columbia
20
Igneous Structure Diagram
21
Aerial View of Intersecting Dikes
• Intersecting dikes (Tertiary) at Spanish Peaks, Las Animas and Huerfano
Counties, CO. View to east. (10Apr66)
22
Spanish Peak Dikes
• West Spanish Peak (13,623 ft) and dikes (Tertiary), Las Animas
and Huerfano Counties, CO. View to the south. (10Apr66)
23
Intrusive Structures, Cont.
• Laccolith
24
Igneous Laccolith
25
Shiprock, New Mexico
• The neck of an ancient volcano, which has eroded
• Structure in the background is a dike
26
Igneous Vein
• Extensional veins in
a thick carbonate
turbidite from the
Liguride Complex in
the Northern
Apennines, Italy
• Photo David Bice,
Carleton College
27
Extrusive Structures
• Lava Flows
• Obsidian
28
Lava Flow From the Air
29
Lava Flow From the Ground
• Lava flows from
Nyiragongo
volcano
• Eruption January
18, 2002
• City is Goma,
Congo
30
Newberry Caldera, Oregon
• Obsidian
flow from a
vent along
the south
wall of the
caldera
• Road gives
scale
31
Obsidian Domes
Photo M.L.
Bevier
• Holocene obsidian domes, Long Valley Caldera
California - obsidian is formed from very viscous
magma, which is unable to flow long distances 32
Obsidian
• Upper left: Thin
piece of obsidian,
showing flow
banding
• Lower left:
Thicker piece of
obsidian showing
conchoidal
fracture
33
Classification of Igneous Rocks
•
•
•
•
Mineral content
Chemical analysis
Texture
Geologic Association
34
Mineral Content
• Igneous rocks may
be classified on the
basis of what
minerals they contain
Essential Minerals
Accessory Minerals
35
Chemical Content
• Rocks may be analyzed to
see what elements they
contain
• Results are reported as
weight percent oxides
36
Texture and Fabric
• Texture is the general physical appearance or
character of a rock
• Fabric refers to the orientation (or lack of it) in
space of the elements of which a rock is
composed
37
Aphanitic
Texture
• A very fine grain texture, with crystals
invisible to the naked eye
• Photo M.L. Bevier
38
Pheneritic
Texture
• Grains are visible and identifiable using the
naked eye
• Photo M.L. Bevier
39
Porphyritic
Texture
• Large crystals in a
fine-grained or
aphanitic
groundmass Field of view 2 cm
• Photo: E.J.
Tarbuck
40
Pegmatitic –
Black Hills,
South Dakota
• Coarse texture,
resulting from rapid
crystal growth, due to
presence of water in
melt at time of
crystallization
• Arrows
point to the location of spodumenne crystals,
removed during mining
•Spodumene is a source of lithium
41
Relation of Texture to Cooling
History
• Aphanetic - Rapid cooling leads to very fine crystals or to
glass - typical of extrusive rocks
• Phaneritic - Slower cooling leads to medium or coarse
grained rocks, typical of intrusive igneous rocks
• Pegmatitic - Very slow cooling in a water-rich magma leads
to the coarse crystals
• Porphyritic - Slow cooling while the magma ascends through
the earth, followed by rapid cooling after the magma erupts
on the surface
Crystals are often medium to coarse
Groundmass texture will be fine-grained, or glassy, depending
on the rate of cooling
42
Geologic Association
• Rocks associated by age, position,
and by characteristically being found
together
• Constant or regular variation of
features within the rock body
43
Bowen's Reaction Series
44
Magmatic Differentiation
• Fractional Crystallization (Crystal
settling)
• Partial Melting
46
Evolution of
Magma
• Over time, fractional
crystallization changes
the composition of
magma from “A” to “B”
to “C”
48
Intrusive Vs. Extrusive Rocks
• Intrusive
• Medium to coarse
grained
• 100% Crystalline
• May contain
inclusions of rock
which fell into the
magma (xenoliths)
• Extrusive
• Aphanitic to fine
grain size
• Often glassy
• Often contain gas
bubbles
49
Granite, Rhyolite
• Granite has clearly
visible crystals
• Rhyolite has few
visible crystals, and
patches of glass
• Both rocks are felsic
50
Diorite, Andesite
• Diorite has visible
felsic and mafic
crystals
• Andesite has mainly
felsic crystals visible
• Both rocks are
intermediate
51
Gabbro, Basalt
• Gabbro is composed
of dark, visible
minerals
• Basalt is dark, with no
visible crystals; this
piece has many gas
bubbles
• Both rocks are mafic
52
Obsidian
• Obsidian is volcanic glass, formed by quick
chilling of the magma after eruption
• This specimen is called Snowflake obsidian - the
white crystals are cristobalite, a high-temperature
form of silica, which crystallized before eruption
53
Peridotite
• Ultramafic intrusive rock characteristic of
the earth’s mantle
54
Xenolith
• Xenoliths of metamorphic amphibole in
dunite, an ultramafic igneous rock
55
Andesite Line
• Geographic boundary between the
basalt/gabbro of the Pacific Ocean basin
and the andesites at the subductive margins
of the surrounding continents
56