Geologic Time Correlation and Dating of the Rock Record.
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Transcript of Geologic Time Correlation and Dating of the Rock Record.
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Geologic Time
Correlation and Dating of the Rock Record
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Time
• Relative– Order of deposition of a body of rock based on
position
• Absolute– A number representing the time a body of rock
was deposited
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Relative Time
• Determining of sequence of events
• Which came first?
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In what order did these events occur in American History?
A B C
ED
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Relative Time
• Tools– Smith
• Fossil Succession
– Steno• Superposition
• Original horizontality
– Lyell• Cross-cutting relationships
• Intrusions
• Inclusions
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Principle of fossil succession
• Fossils occur in a consistent vertical order in sedimentary rocks all over the world. (William"Strata Bill" Smith, late 1700's, England).
• This principle is valid and does not depend on any pre-existing ideas of evolution. (In fact, Charles Darwin's ideas on evolution did not appear until 50 years later - 1858).
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Principle of fossil succession
Geologists interpret fossil succession to be the result of evolution - the natural appearance and disappearance of species through time.
"Fossil species succeed one another in a definite and recognizable order"
Fossils at the base of a thick sequence of sediments (so older, by previous principles) are less like present-day species than those near the top
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Principle of fossil succession
* Fossils unlike present-day species, but like each other, are found in widely separated sites
* A fossil species which is observed to occur above (and so younger than, by previous principles) a second fossil species in one locality will always occur above that second species, wherever found.
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Principle of fossil succession
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Unconformities
• Unconformities are buried surfaces of erosion or non-deposition
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Unconformities1.Angular unconformities
Implies tectonic deformation and erosion of underlying strata.
2.Nonconformity Sedimentary strata overlying igneous or metamorphic rocks
(in an erosional - not intrusive- contact)
3.Disconformity An irregular surface of erosion between two units of parallel
strata
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DisconformityBig Brook
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Angular Unconformity
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NonconformityBrahma Schist underlies Tapeats Sandstone
http://www.physci.mc.maricopa.edu/Geology/FieldTrips/ColoradoRiver/ColoradoRiver_2006_Summer/ColoradoRiver_2006_Summer_Images_1024/DSC00512a_1024c.jpg
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NonconformityBrahma Schist underlies Tapeats Sandstone
http://www.physci.mc.maricopa.edu/Geology/FieldTrips/ColoradoRiver/ColoradoRiver_2006_Summer/ColoradoRiver_2006_Summer_Images_1024/DSC00512a_1024c.jpg
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Siccar Point
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Relative Dating
• Principle of Cross-cutting relationships
• Principle of Intrusions
• Principle of Inclusions
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Principle of Cross-cutting relationships
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Faulting
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Principle of Inclusions
In which picture is the Granite older?
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Principle of Intrusions
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Intrusions vs Unconformities
• A xenolith is a fragment of country rocks which has been broken off during an intrusion, and has become surrounded by magma. The xenolith is older than the igneous rock which contains it.
• Through erosion and resedimentation, younger rocks will often have pieces of the older rock included (sedimentary).
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Principle of Inclusions
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Principle of Inclusions
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Principle of Inclusions
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History of Geologic Time• Geologic Systems
– Body of rock that contains fossils of diverse animal life
– Corresponds to geologic period
• Sedgewick– Named Cambrian
• Murchison– Named Silurian
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Stratigraphy• Study of stratified rocks, especially their geometric
relations, compositions, origins, and age relations• Stratigraphic units
– Strata• Distinguished by some physical, chemical, or paleontological
property• Units of time based on ages of strata
– Geologic Systems
• Correlation– Demonstrate correspondence between geographically
separated parts of a stratigraphic unit• Lithologic • Temporal
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Units of Time
• Time-rock unit– Chronostratigraphic unit– All the strata in the world deposited during a particular interval
of time• Erathem, System, Series, Stage
• Time unit– Geochronologic unit– Interval during which a time-rock unit is formed
• Eras, Period, Epoch, Age
• Boundary stratotype– Boundary between two systems, series or stages, formally
defined at a single locality
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Geologic Time Scale
• Chronologic units - Time/Age
– Eons (largest): – Era– Periods– Epochs– Ages
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Geologic Time Scale
• Geochronologic Units = Place
– Eon (largest) = Eon– Era = Era– System = Period– Series = Epoch– Stage = Age
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Biostratigraphy
• Biostratigraphic unit– Defined and characterized by their fossil content
• Stratigraphic range– Total vertical interval through which that species
occurs in strata, from lowermost to uppermost occurrence
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Biostratigraphy• Index fossil
– Abundant enough in the stratigraphic record to be found easily
– Easily distinguished from other taxa– Geographically widespread and thus can be used to
correlate rocks over a large area– Occurs in many kinds of sedimentary rocks and
therefore can be found in many places– Has a narrow stratigraphic range, which allows for
precise correlation if its mere presence is used to define a zone
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Magnetic Stratigraphy
• Use of magnetic properties of a rock to characterize and correlate rock units
• Magnetic field– Reversals in polarity of
field are recorded in rocks when they crystallize or settle from water
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Magnetic Stratigraphy
• Chron– Polarity time-rock unit
– Period of normal or reversed polarity
• Normal interval– Same as today
– Black
• Reversed interval– Opposite to today
– White
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Lithostratigraphy
• Subdivision of the stratigraphic record on the basis of physical or chemical characteristics of rock
• Lithostratigraphic units– Formation
• Local three-dimensional bodies of rock– Group– Member
• Stratigraphic section– Local outcrop of a formation that displays a continuous vertical
sequence
• Type section– Locality where the unit is well exposed, that defines the unit
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Lithologic Correlation
• Cross-sections of strata– Establish geometric
relationships
– Interpret mode of origin
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Lithologic Correlation
• Grand Canyon– McKee
– Used Trilobite biostratigraphy to determine age relationships
– Eastern portion of units is younger than western
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Facies• Transgression
– Landward migration of shoreline
– Grand Canyon• Cambrian transgression
• Facies– Set of characteristics of a body
of rock that presents a particular environment
• Facies changes– Later changes in the
characteristics of ancient strata
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Absolute Age
• 4.6 billion years old• Early estimates
– Salts in the ocean• 90 million years old
– Accumulation of sediment• 100 m.y. or less• Gaps in stratigraphic record• Unconformities represent large breaks in accumulation• Didn’t include metamorphosed sedimentary rocks
– Earth’s temperature• Kelvin• 20-40 million years old
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Absolute Ages
• How old is the Earth?
• 4.6 billion years (4,600,000,000 years)
• Radiometric dating (Uranium, Thorium). Mass spectrometer.
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Early Attempts
• 1654 Archbishop Usher (Ireland), genealogy in Bible Earth was created October 22, 4004 BC,
• 9:00 am was added later• Earth was 6000 years old.• Led to the Doctrine of Catastrophism:• Earth was shaped by series of giant disasters. • Many processes fit into a short time scale.
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Early Attempts
• 1770's, 1780's "Revolution"
• James Hutton, Father of Geology (Scotland) 1726-1797.
• Published Theory of the Earth in 1785.
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Hutton• Hadrian's Wall built by Romans,
after 1500 years no change. Suspected that Earth was much older.
• Slow processes shape earth.
• Mountains arise continuously as a balance against erosion and weathering
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Hutton• Doctrine of Uniformitarianism: "Present is key to
the past".
• The physical and chemical laws that govern nature are uniform
• • Unconformity at Siccar Point, Scotland
• "No vestige of a beginning, no prospect of an end"
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Charles Lyell
• Charles Lyell 1800's compared amount of evolution shown by marine mollusks in the various series of the Tertiary System with the amount that had occurred since the beginning of the Pleistocene.
• Estimated 80 million years for the Cenozoic alone.
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Various Geologists• Thickness of total sedimentary record
divided by average sedimentation rates (in mm/yr).
• In 1860, calculated to be about 3 million years old.
• In 1910, calculated to be about 1.6 billion years old.
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Lord Kelvin
• In 1897, Lord Kelvin assumed that the Earth was originally molten and calculated a date based on cooling through conduction and radiation.
• Age of Earth was calculated to be about 24-40 million years.
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Lord Kelvin
• Problem: Earth has an internal heat source (radioactive decay)
• Discovery of radioactivity by Henri Becquerel in 1896.
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John Joly• In 1899 - 1901, John Joly (Irish) calculated the rate
of delivery of salt to the ocean. River water has only a small concentration of salts. Rivers flow to the sea.
• Evaporative concentration of salts.
• Age of Ocean = Total salt in oceans (in grams) divided by rate of salt added (grams per year)
• Age of Earth = 90-100 million years.
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John Joly
• Problems: no way to account for recycled salt, salt incorporated into clay minerals, salt deposits.
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von Helmholtz and Newcomb
The German physicist Hermann von Helmholtz and the American astronomer Simon Newcomb joined in by independently calculating the amount of time it would take for the Sun to condense down to its current diameter and brightness from the nebula of gas and dust from which it was born.
100 million years, consistent with Thomson's calculations. However, they assumed that the Sun was only glowing from the heat of its gravitational contraction. They knew of no other ways for it to produce its energy.
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Rutherford and Boltwood
• In 1905, they used radioactive decay to measure the age of rocks and minerals.
• Uranium decay produces He, leading to a date of 500 million years.
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Rutherford and Boltwood
In 1907, Boltwood suspected that lead was the stable end product of the decay of uranium. Published the age of a sample of urananite based on Uranium-Lead dating.
Date was 1.64 billion years.
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Age of Earth• So far, oldest dated Earth rocks are 3.96 billion
years. • Canadian Shield. (NW Territories near Great
Slave Lake, 3.96 byr).• Detrital Zircons in sedimentary rocks are 4.1 - 4.4
byr• Older rocks include meteorites and moon rocks
with dates on the order of 4.6 billion years.
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Geologic Time Scale. The age for the base of
each division is in accordance with
recommendations of the International
Commission on Stratigraphy for the
year 2000.
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Geologic Time Scale
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The standard geologic time scale for the
Paleozoic and other eras developed without
benefit of a grand plan. Instead, it developed by the compilation of “type sections” for each of the
systems.
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Ordovician
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Silurian
Murchison
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Silurian - Murchison
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Jurassic - Jura Mountains
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• Cretaceous
• Kreta = Chalk
• White Cliffs of Dover
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Absolute Age
• Radioactive decay– Becquerel, 1895
• Uranium undergoes spontaneous decay
• Atoms release subatomic particles and energy
• Change to another element
– Parent isotope decays/daughter isotope produced
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Principles of Radiometric Dating
• Naturally-occurring radioactive materials break down into other materials at known rates. This is known as radioactive decay.
• Radioactive parent elements decay to stable daughter elements.
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What is an Isotope?
• Nuclide of an element with different masses
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Absolute Age
• Three modes of decay– Loss of alpha particle
• Convert parent into element that has nucleus containing two fewer protons
– Loss of beta particle• Convert parent into
element whose nucleus contains one more proton by losing an electron
– Capture of beta particle• Convert parent into
element whose nucleus has one less proton
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Absolute Age• Radiometric dating
– Radioactive isotopes decay at constant geometric rate
• After a certain amount of time, half of the parent present will survive and half will decay to daughter
• Half-life– Interval of time for half
of parent to decay
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Absolute Age• Useful isotopes
– Uranium 238 and thorium 232• Zircon grains
– Uranium 238 and lead 206• Fission track dating
– Rubidium-Strontium– Potassium-Argon, Argon-Argon– Radiocarbon dating
• Produced in upper atmosphere• Half life = 5730 years• Maximum age for dating: 70,000 years• Bone, teeth, wood
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Absolute Age
• Fission-Track Dating– Measure decay of
uranium 238 by counting number of tracks
– Tracks formed by subatomic particles that fly apart upon decay
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Radioactive parent isotopes and their stable daughter products
Each radioactive isotope has its own unique half-life.
A half-life is the time it takes for half of the parent radioactive element to decay to a daughter product.
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Radioactive parent isotopes and their stable daughter products
Radioactive Parent Stable Daughter Half Life
Potassium 40 Argon 40 1.25 billion yrs
Rubidium 87 Strontium 87 48.8 billion yrs
Thorium 232 Lead 208 14 billion years
Uranium 235 Lead 207 704 million years
Uranium 238 Lead 206 4.47 billion years
Carbon 14 Nitrogen 14 5730 years
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Radioactive Decay
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Radioactive Decay
• Radioactive decay occurs by releasing particles and energy.
• Alpha particles
• Beta particles
• Neutrons
• Gamma rays (high energy X-rays) are also produced.
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Radioactive Decay
• Alpha particles (He)
• large, easily stopped by paper
• charge = +2
• mass = 4
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Radioactive Decay
• Beta particles
• penetrate hundreds of times farther than alpha particles, but easily stopped compared with neutrons and gamma rays.
• charge = -1
• mass = negligible
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Radioactive decay series of uranium-238 (238U) to lead-
206 (206Pb).
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Datable Minerals
• Most minerals which contain radioactive isotopes are in igneous rocks. The dates they give indicate the time the magma cooled.
• Potassium 40 is found in: • potassium feldspar (orthoclase) • muscovite • amphibole • glauconite (greensand; found in some
sedimentary rocks; rare) •
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Datable Rocks • Radioactive elements tend to become
concentrated in the residual melt that forms during the crystallization of igneous rocks. More common in SIALIC rocks (granite, granite pegmatite) and continental crust.
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Datable Rocks • Radioactive isotopes don't tell much about
the age of sedimentary rocks (or fossils). The radioactive minerals in sedimentary rocks are derived from the weathering of igneous rocks. If the sedimentary rock were dated, the age date would be the time of cooling of the magma that formed the igneous rock. The date would not tell anything about when the sedimentary rock formed.
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Carbon 14
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How does 14Carbon dating work?
• Cosmic rays from the sun strike Nitrogen 14 atoms in the atmosphere and cause them to turn into radioactive 14C, which combines with oxygen to form radioactive CO2.
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How does 14Carbon dating work?
• Living things are in equilibrium with the atmosphere, and the radioactive CO2 is absorbed and used by plants. The radioactive CO2 gets into the food chain and the carbon cycle.
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How does 14Carbon dating work?• All living things contain a constant ratio of 14C to 12C
(1 in a trillion).
• At death, 14C exchange ceases and any 14C in the tissues of the organism begins to decay to Nitrogen 14, and is not replenished by new 14C.
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How does 14Carbon dating work?• The change in the 14C to 12C ratio is the basis for dating.
• The half-life is so short (5730 years) that this method can only be used on materials less than 50,000 years old.
• Assumes that the rate of 14C production (and hence the amount of cosmic rays striking the Earth) has been constant.
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Deviation of carbon-14 ages to true ages from the present back to about 5000 B.C. Data are
obtained from analysis of bristle cone pines from the western United States. Calculations of carbon-
14 are based on half-life of 5730 years.(Adapted from Ralph, E. K., Michael, H. N., and Han, M. C. 1973. Radiocarbon
dates and reality. MASCA Newsletter 9:1.)
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Absolute Age
• Best candidates for most radiometric dating are igneous– Not necessarily useful
for sediments
• Error in age estimate can be sizable
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Absolute Age
• Absolute ages change– Error increases in older
rocks– Techniques change
• Biostratigraphic correlations are usually more accurate – Radiometric dates used
when fossils not present
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How old is the Old Red Sandstone?a. Older than 425 myrb. Younger than 370 myrc. Between 425 and 370 myrd. Have no idea