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DYNAMIC GEOLOGYENGINEERING GEOLOGY
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The Lithosphere
o Litho = stone
o Hence, lithosphere stands for the
stony part of the Earth!
o It refers to the uppermost shell of the
Earth, i.e. the crust, and a portion of
the second layer, the mantle, up to
which the material exists in a definite
solid state
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Introduction to Seismology
o Seismology is the study of the
elastic/seismic waves generated within
the earth, during earthquakes
o The study of seismic waves forms the
single most important source of
information for the interior of the Earth
o Every earthquake generates two types of
waves: body (P and S) and surface (L)
waves
4P Wave S Wave
Thompson and Turk
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Propagation of Body and Surface waves
Thompson and Turk
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Properties of Seismic Waves
o In a uniform, homogeneous medium, a
wave radiates outward in concentric
spheres, at constant velocity
o The velocity of a seismic wave depends on
the nature of the material that it travels
through
o Boundaries between the Earth’s layers
refract and reflect seismic waves
o P waves are compressional waves and
travel through all gases, liquids, and
solids, whereas S waves travel only
through solids
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The Path of a Seismic Wave
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Internal Structure of the Earth
The Earth is divided into three well
defined shells or zones:
o The Crust
o The Mantle
o The Core
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Internal Structure of the Earth
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Internal Structure of the Earth
http://en.wikipedia.org
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1. The Crust
o The uppermost solid shell of the earth
o It has a varying thickness:
o Under the oceans : 5-6 km
o Under the continents : 30-35
km
o Under the mountains : 60-70
km
o The Continental Crust is divided into
three layers: A, B and C
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Continental and Oceanic Crust
http://www.physicalgeography.net/fundamentals/10h.html
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The A Layer
o Also known as the upper layer
o Thickness is in between 2-10 km
o Mostly made up of sedimentary rocks
o This layer is of low density, 2.2 g/cc
o The P wave velocities range from 1.8
to 5.0 km/sec
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The B Layer
o Relatively denser, 2.4 to 2.6 g/cc
o Comprised chiefly of granites and
gneisses, hence called the Granite
Layer
o At places, the layer cures thickness >
20 km
o Seismic waves attain velocities from 5
to 6.2 km/s
o Referred to, as the SIAL layer
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The C Layer
o The lowermost layer of the Continental
crust
o Thickness is in between 25-40 km
o Mostly made up of basic minerals,
hence called SIMA layer
o This layer is of densities, 2.8 to 3.3
g/cc
o The P wave velocities range from 6 to
7.6 km/sec
o The Oceanic Crust is generally an
extension of the C layer
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SIAL and SIMA layers
P Singh
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2. The Mantle
o Refers to the second concentric shell of the
earth, that lies beneath the crust
o Starting from the lower boundary of the crust,
the mantle continues to a depth of 2900 km
o The mantle is divided into outer and inner
mantles, at about 900-1000 km below the earth
o A portion of the upper mantle, is plastic, rather
than solid, and is called the Asthenosphere.
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The Asthenosphere
o It is the highly viscous, mechanically weak,
ductilely deforming region of the upper
mantle
o It is thought to extend from 100km to
500km beneath the surface
o The temperature of the materials that
make up the Asthenosphere tend to be
just below their melting point
o The upper part of the Asthenosphere is
believed to be the zone upon which the
lithospheric plates of the earths crust
move about
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Internal Structure of the Earth
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3. The Core
o The core begins from a depth of 2900 km, and
extends to the center of the Earth
o It is divided into the outer and inner cores
o The outer core extends from a depth of 2900 km
to 4580 km below the Earth’s surface and
behaves like a liquid
o The inner core is believed to be soft metallic,
made up of nickel and iron alloys
o The density at the centre of the Earth is 13.0
g/cc
21P Singh
Internal Structure of the Earth
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Seismic Discontinuities
o The P and S waves reach the surface
seismographic stations, after being reflected
and refracted at various depths
o A major change in the velocity of these
waves at some specific depths indicate a
change in nature of the material at that
particular depth
o Such major changes are called Seismic
Discontinuities, they demarcate the internal
zones of the earth
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1. Mohorovicic Discontinuity
o Also known as the Crust-Mantle
discontinuity, or the Moho
o Occurs at a depth of 30-40 km below
continents and 5-6 km below oceans
o At these depths, both P and S waves
undergo a sharp increase in their
velocity
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P wave velocity in the Crust and upper Mantle
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2. Guttenberg Discontinuity
o Known as the Mantle-Core
discontinuity
o At a depth of 2900 km, the P waves
become sluggish, and S waves get
stopped
o This discontinuity between the Mantle
and the Core, is the Guttenberg
discontinuity
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Major Discontinuities
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3. Lehmann Discontinuity
o Refers to an abrupt
increase in P and S
wave velocities at
depths of 220-230
km
o It appears beneath
continents, but not
below oceans
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Paths of Seismic Waves
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Reference
Parbin Singh, Engineering and General
Geology, S K Kataria & Sons
Chenna Kesavulu, N, Textbook of Engineering
Geology, MacMillan India
Reddy, D V, Engineering Geology, Vikas
Publishing House
Garg, S K, Physical and Engineering Geology,
Khanna Publishers
Thompson, G R and J Turk, Introduction to
Physical Geology, Thomson Brooks/Cole