stratigraphy and history of earth
TRANSCRIPT
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Dr. V. R Ghodake
Sinhgad College of Engineering, Vadgaon Bk., Pune.
Historical GeologySTRATIGRAPHY
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CONTENTS
Stratigraphic principles
Sequence stratigraphy
Sedimentary basins
Models in sedimentary geology
Applied sedimentary geology
Reflection
Introduction
Unconsolidated clastic sediments
Sedimentary rocks
Diagenesis
Sediment transport and deposition
Sedimentary structures
Facies and depositional environments
Glacial/eolian/lacustrine environments
Fluvial/deltaic/coastal environments
Shallow/deep marine environments
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LITHOSTRATIGRAPHYEACH LAYER IS A DIFFERENT ROCK TYPE.
ChronostratigraphyEach layer is a different age.
BiostratigraphyEach layer contains a different fossil
assemblage.
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Historical Geology is the science which deals
with the historical development of earth. It
aims at reconstruction of the earths
evolutionary history and formulation of
general laws governing the evolution.
4 Aspects of Historical Geology:
i. To Establish age of rock formation exposed
on the earths surface.
ii. Pertains to paleogeography which
describes the distribution of landforms
and sea in the geological past.
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iii. Covers past tectonic movements inferred on
the basis of paleogeography and structures of
rocks.
iv. Deals with a synthesis of the paleogeography
and paleotectonics of different parts of earths
crust.
Stratigraphy: deals with mutual relationship and
the succession of rocks.
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STRATIGRAPHY: Generally called as
Historical Geology. It is the branch of Geology
which deals with the history of rocks with
special emphasis on their approximate time of
formation and changes they undergone from
their formation.
Specially sedimentary rocks gives valuable
information about the geological, geographic
and biologic environment with respect to their
formation. There are imprints of times too in
form of structural deformation and physically
dislocation.
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PRINCIPLES OF CORRELATION:
Correlation may be understood by establishing
equivalence in rocks formation develop in separate
regions with regards to their geological ages and
stratigraphic position.
Lateral continuity.
Lithological similarity.
Position in Stratigraphic sequence.
Structural relations.
Fossils.
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Principle of Original HorizontalitySedimentary rock layers (and lava
flows) are formed in a horizontal
orientation. Any folding or tilting
must have happened sometime
after the layers were originally
formed.
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The Law of Superposition is one of
the most basic principles of geology
. This law states that younger rock
layers will be deposited on top of
older layers, during normal
conditions of deposition. This law is
the basic principle of stratigraphy,
the study of sedimentary rock
layers. Stratigraphy is still the single
best method that geologists have for
determining the relative ages of
rock sequences.
Law of Superposition
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The Principle of Cross-Cutting Relationshipsstates that an igneous intrusion (or a fault) is always younger than the rock it cuts across.
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In the diagram at the left, the
igneous intrusion (E) must be
younger than rock layers A,
B, C, and D because it
contains inclusions from
those layers.
The Principle of Inclusions states that the rock unit
that contains inclusions is younger than the rock
that the inclusions came from.
Gneiss in Granite
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CRITERIA FOR STRATIGRAPHIC
CLASSIFICATION & CORRELATION:
Non – Paleontological:
i. Order of Superposition.
ii. Petrographic Characters.
iii. Structures and Tectonics.
iv. Geophysics.
Paleontological.
i. Index Fossils.
ii. Fossil Assemblages.
iii. Micro Palaentology.
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PALAEONTOLOGY:The study of fossil records to discover
the history of life, ancient climates and
environments.
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THE FORMATION OF
MINERALISED FOSSILS
Fossils are formed in a number of different ways:
Most are formed when a plant or animal dies in a
watery environment.
And is buried in mud and silt.
Soft tissues quickly decompose leaving the hard
bones or shells behind.
Over time sediment builds over the top
And hardens into rock.
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THE FORMATION OF MINERALISED FOSSILS
continuous
As the encased bones decay, minerals seep in
replacing the organic material, cell by cell in a
process called "petrification."
Alternatively the bones may completely decay
leaving a cast of the organism.
The void left behind may then fill with minerals
making a stone replica of the organism.
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THE FORMATION OF MINERALISED FOSSILS CONTINUOUS
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FOSSIL DATING:
Method used to determine the age of fossils or the strata(layer of sediment) in which they are found.
Example of methods;
o Relative dating methods
o Absolute dating methods like Radioactive dating.
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ELEMENTS OF CORRELATION:
Units : Time and Rock Units.
Time
Era
Period
Epoch
Age
Rock Units.
Group
System
Series
Stages.
Methods:
Lithological and Structural Control.
Biostratigraphically.
Radioactive dating control.
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Lithostratigraphic Units
Supergroup
Group A
Formation A
Member A
Member B
Member C
Formation B
Member D
Member E
Member F
Formation CMember G
Member H
Group B
Formation D
Member I
Member J
Member K
Member L
Member M
Formation E
Member N
Member O
Member P
Member Q
Formation F
Member R
Member S
Member T
Supergroup
|
Group
|
Formation|
Member
|
Bed
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GEOLOGICTIME
SCALE
Era Age (Myrs) Epoch
0.01Holocene
1.8Pleistocene
5.3Pliocene
23.8Miocene
33.6Oligocene
54.8Eocene
65Paleocene
144
206
248
290
323
354
417
443
490
543
2500
3800
P
r
e
c
a
m
b
r
i
a
n
P
h
a
n
e
r
o
z
o
i
c
Eon
Proterozoic
Archean
Hadean
Period
Quaternary
Tertiary
Neogene
Paleocene
Mississippian
C
e
n
o
z
o
i
c
M
e
s
o
z
o
i
c
P
a
l
e
o
z
o
i
c
Cretaceous
Jurassic
Age of the Earth 4600 Myrs (4.6 Byrs)Source: Geological Society of America (1999)
Geologic Time Scale
Devonian
Silurian
Ordivician
Cambrian
Triassic
Permian
Pennsylvanian
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FOSSIL RECORD
The dating of all fossilsis included in theGeological Time Scale.This scale divides thetime that the earth hasexisted into 4 eras.
Eras are then dividedinto periods based oncommon events in thattime period.
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RELATIVE DATING
The science determining the relative order of past
events, without necessarily determining their absolute
age.
Determines which fossils are older or younger.
Easy to determine based on which geological deposit
they come from and the Law of Superposition.
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The Law of Superposition:
o States that the older layer lies underneath the younger layer in
undisturbed contexts.
o Deeper layers are older than fossils from layers closer to the surface
of the earth.
o The higher up you go in an undisturbed rock stratum (rock layer), the younger the
rock layers become and therefore it is believed the fossils within these layers, are
also younger than the fossils beneath them
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Undisturbed Sedimentary Rock and its Fossils in
Upper strata generally contain fossils of younger,
more complex organisms, whereas, the lower strata
contain fossils of simpler life forms
There is a tendency toward increasing complexity in
life forms over time
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STRATIGRAPHIC PRINCIPLES
Lithostratigraphy = subdivision of the stratigraphic record into sediments or
rocks by means of lithological characteristics and stratigraphic position
Biostratigraphy = subdivision of the stratigraphic record into sediments or
rocks by means of fossil content
Chronostratigraphy = subdivision of the stratigraphic record into bodies of
sediment or rock represented by a particular age, separated from underlying
and overlying units by isochronous surfaces
Geochronology = subdivision of Earth history into time intervals
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1. The principle of superposition - in a vertical sequence of
sedimentary or volcanic rocks, a higher rock unit is younger than a lower
one. "Down" is older, "up" is younger.
2. The principle of original horizontality - rock layers were originally
deposited close to horizontal.
3. The principle of original lateral extension - A rock unit continues
laterally unless there is a structure or change to prevent its extension.
4. The principle of cross-cutting relationships - a structure that cuts
another is younger than the structure that is cut.
5. The principle of inclusion - a structure that is included in another is
older than the including structure.
6. The principle of "uniformitarianism" - processes operating in the
past were constrained by the same "laws of physics" as operate today.
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STRATIGRAPHIC PRINCIPLES
Type sections (stratotypes) constitute the standard ofreference for definition and recognition of a stratigraphicunit or stratigraphic boundary; they are defined wherethese are representative and well developed
Stratigraphic relationships can be inferred from theprinciple of superposition, unconformities, cross-cuttingrelationships, ‘included fragments’, and ‘way-upindicators’
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STRATIGRAPHIC PRINCIPLES
Lithostratigraphy
Lithostratigraphic units are commonly diachronous, asopposed to chronostratigraphic units
Detailed geologic mapping is usually strongly based onlithostratigraphy, whereas overview geologic maps usuallyshow chronostratigraphic units
Although objective lithostratigraphic classification should beas simple and straightforward as possible, realitydemonstrates that this is not always the case; as a result, inmany areas revisions are frequently proposed which can leadto extremely complicated and confusing situations
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STRATIGRAPHIC PRINCIPLES
Biostratigraphy
A vast diversity of types of fossils exists; the followingcriteria are important in determining how useful they are forstrictly stratigraphic purposes of correlation:
• Abundance and size
• Degree of dispersal
• Preservation potential
• Rate of speciation
As a result, especially numerous marine microfossils (e.g.,forams) are stratigraphically highly useful, whereas othersare more valuable for paleoecologic purposes
Numerous pitfalls exist in the correlation of biozones (e.g.,Quaternary pollen zones)
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FOSSILS & THE GEOLOGIC TIME SCALE
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FOSSILS
Preserved remains or traces of an organism that lived in the past.
•Fossils are formed when organisms die and are buried in sediment. Eventually the sediment builds up and hardens to become sedimentary rock.
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Petrified - when minerals
replace the remains and theybecome rock
Mold when the shell remains
and the contents dissolve (hollow)
Cast - when the mold becomes
filled with minerals that are not a partof the original organism
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Sometimes whole animals become preservedintact, but this is very rare. If an organism issurrounded by ice or tar they might be discoveredlooking much the same as they did when theydied.
AETOSAUR
FOUND IN THE NATIONAL PETRIFIED FOREST
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RELATIVE DATING
Relative dating: looks at where the fossil is located to determine its age relative to other fossils. This only works if the area has been undisturbed.
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ABSOLUTE DATING
Uses radioactive elements near the fossils to determine the actual age of the fossils.
•By determining the age of the radioactive element, scientists can calculate the age of the fossil buried nearby.
The absolute age
of fossils is
estimated by
dating
associated
igneous rock and
lava flows.
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PRE-CAMBRIAN
Began with the formation of the Earth 4.6 billion years ago.
Bacteria appeared 3.5 billion years ago, followed by algae and fungi.
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PALEOZOIC ERA
Divided into 5 periods:
Cambrian period -Sponges, snails, clams and worms evolve
Ordovician period - First fishes evolved and other species become extinct
Silurian period - Land plants, insects and spiders appear
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Devonian period-Amphibians evolve and cone-bearing plants start to appear.
Carboniferous periodTropical forests appear and reptiles evolve.
Permian period- Seed plants become common and insects and retiles become widespread. Sea animals and some amphibians begin to disappear.
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MESOZOIC ERA
Divided into 3 periods:
Triassic period - Turtles and crocodiles evolve and dinosaurs appear.
Jurassic period - Large dinosaurs roam the world. First mammals and birds appear.
Cretaceous period - Flowering plants appear, mammals become more common dinosaurs
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CENOZOIC ERA
Divided into 2 periods:
Tertiary period - First primates appear and flowering plants become the most common.
Quaternary period -Humans evolve and large mammals like woolly mammoths become extinct.
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Cross Cutting Relationships in strata
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Stratigraphy
That’s all about the