the age of rocks 10_es1_age_2018... · 2020. 6. 10. · mountain belts • rate of beach erosion...
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The age of rocks
FUNDAMENTALS OF EARTH SCIENCE I FALL SEMESTER 2018
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• A few minutes or less
• Hours to days
• Months to years
• 10s to 100s of years
• 1000s to 10,000s of years
• 1000,000s of years
• 10,000,000s of years and longer
The rate of geological processes
Different processes, different timescales:
Earthquakes, meteorite impacts
Floods, typhoons, volcanic eruptions
Δ in sediment discharge, beach erosion
Filling of embayments by sediments
Glacioeustatic sea level changes
Speciation, carving of large canyons
Opening of ocean basins, formation of mountain belts
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• Rate of beach erosion
• Seasonal variations in sediment discharge by rivers
• Motion of glacier and tectonic plates using GPS
Direct measurements
Historical documents
BUT HOW DO WE KNOW THE PACE OF VERY SLOW PROCESSES AND THE CHRONOLOGY OF GEOLOGIC EVENTS THAT ARE VERY OLD…
…AND HOW DO WE KNOW WHAT “VERY OLD” MEANS?
Frequency of earthquakes, tsunamis, volcanic eruptions
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⚫
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Relative ages Absolute ages
B
C
A
C younger than B
B younger than A
B older than C
A older than B
B
C
A 126,450 years
75,400 years
25,150 years
vs.
This information was not available before the 20th century!
This information began to be available at the end of the 17th century
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Nicolas Steno (1638-1686)
◼ Fossils can be used to reconstruct pastenvironments.
Berkeley
→ first proof of the biological origin of fossils
Understanding Earth
Stratigraphy: the study of sedimentary layers (strata)
◼ Glossopetrae (tongue stones) identical to modern shark teeth.
https://en.wikipedia.org/wiki/Nicolas_Steno
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TECTONIC DEFORMATION
Understanding Earth
1. Principle of original horizontality
◼ BASIC PRINCIPLES OF STRATIGRAPHY:
2. Principle of superposition
3 IMPORTANT ISSUES
CORRELATION BETWEEN LAYERS AT DIFFERENT LOCATIONS
TIME GAPS (PERIODS OF NON-DEPOSITION OR EROSION)= UNCONFORMITIES
⚫
⚫
⚫
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Importance of understanding the rocks’ deformation history
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Biostratigraphy
Sereno (1999)
Since life evolves, different organisms have lived at different times.
→ Principle of faunal succession
Biostratigraphy: Study of the fossil content of rock layers to find out their relative ages
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Understanding Earth
Fossils are useful to determine the relative age of sedimentary rocks and correlate sections that distant from each other.
Jean-Andre Deluc (1727-1817); Georges Cuvier (1769-1832); Alexandre Brongniart (1770-1847); William Smith (1769-1839)
Pioneers in biostratigraphy:
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Index fossils = “forms of life which existed during limited periods of geologic timeand thus are used as guides to the age of the rocks in which they are preserved”(definition of USGS)
USGS
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⚫ Chemical stratigraphy
◼ Stratigraphic correlations based on the chemical composition of sedimentary rocks (e.g. concentration of Fe, Mn) which reflects the composition of the ocean when sediments were deposited.
⚫ Paleomagnetic stratigraphy
◼ The direction of the magnetic field preserved in volcanic rocks and in some sedimentary rocks can be used as a tool for correlation and dating.
Understanding Earth
Other means of stratigraphic correlations
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Understanding Earth (p. 389)
The magnetic polarity time scale
Normal Reversed
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Rev
erse
d
Scardia et al. (2006)
Rev
erse
d
Rev
erse
d
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⚫ Tephrostratigraphy
◼ Method for correlating geological rock sequences based on volcanic ash layers (tephra means ashes in Greek). This method requires to be able to recognize specific ash layers using criteria such as their mineralogical and chemical compositions (used as “fingerprints”).
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DISCONFORMITY
1.
2.
3.
Unconformities: time gaps in the stratigraphic record
(1)
Sea level fall
Sea level rise
Emergence/erosion
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Lea et al. (2002)
0 m
-50 m
-100 m
20,000 years agoLast Glacial Maximum (LGM)
Sea level
120-125 m!!!
Continental shelf
Emergence/erosionCoral reefs (e.g., Great Barrier Reef of Australia)
Today 20,000 years ago
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Compression
ANGULAR UNCONFORMITY
1. 2.
3. 4.
Understanding Earth (modified)
(2)Uplift
Emergence/erosion
Deposition
Subsidence/deposition
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DISCONFORMITYANGULAR
UNCONFORMITY NONCONFORMITY
Rock strata above and below the unconformity are parallel.
Rock strata above and below the unconformity are not parallel.
Sedimentary rock strata in contact with unstratified metamorphic or igneous rocks.
John Grotzinger & Thomas H. Jordan (2010) Understanding earth 6th edition W H Freeman & Co
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Understanding Earth
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Dike
Pluton
Sediments and sedimentary rocks
Intrusive igneous rocks
Younger geologic features cut older ones
Fault Dike
Cross-cutting relationships
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East Aichi Prefecture (Touei-chou,東栄町)
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Sedimentary rocks
Sedimentary rocks
Sill
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NASA (Galileo image of Ganymede)
Smooth terrain
Grooved terrain
Dark terrain
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Understanding Earth
The geologic time scale « divides Earth History into intervals marked by distinct sets of fossils »
Several boundaries coincide with a mass extinction (short interval during which a large proportion of species disappears)
The geologic time scale based on relative ages
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◼ Age based on religious believes
◼ Early scientific calculations
◼ Radiometric dating and the correct age of the Earth
Archbishop James Ussher (1581-1656): 6000 yrs, based on a careful study of the Old Testament
Comte de Buffon (1707-1788): 75,000 yrs, based on the time it takes for red-hot cannon balls to cool down extrapolated to an iron ball the size of the Earth
Jean Fourier (1768-1830): 100,000,000 yrs, based on a set of mathematical equations taking into account the insulating effect of the Earth’s crust
Lord Kelvin (1824-1907): between 20,000,000 and 400,000,000yrs, based on more advanced calculations in thermodynamics
John Joly (1857-1933): between 80,000,000 and 90,000,000 yrs for the oceans, based on their sodium content and assuming a constant supply rate by rivers
Henri Becquerel (1852-1908) discovers radioactivity in 1896.
Ernest Rutherford (1871-1937) came up with a technique to measure the age of rocks based on radioactive decay. He was the first to date a mineral and came up with an age of 500,000,000 years.
Clair C. Patterson (1922-1995): 4,550,000,000 yrs, currently accepted age of the Earth based on the age of meteorites
The absolute age of rocks
⚫ How old is the Earth?
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Understanding Earth
Half-life = time it takes for one half of the parent atoms to be transformed into daughter atoms
The rate of radioactive decay is constant (independent of T, P, chemistry)
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Parent atom: 87Rb Daughter atom: 87Sr
Remaining fraction of parent atoms(P)
Time t (in half lives)
Example: Rubidium-Strontium system
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Parent atom: 87Rb Daughter atom: 87Sr
Remaining fraction of parent atoms(P)
Time t (in half lives)
P = 1/2t (1)
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Parent atom: 87Rb Daughter atom: 87Sr
Fraction of daughter atoms produced
D = 1-(1/2t)
Time t (in half lives)
3/4
7/8(2)
P = 1/2t (1)
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Exchange of matterwith surrounding rocks
Exch
ange
of
mat
ter
wit
h o
ther
mag
mas
CRYSTALLIZATION
The age of the rock is the time elapsed since crystallization
No exchange of matterwith surroundings
CLOSED SYSTEM
Example: the age of an igneous rock
John Grotzinger & Thomas H. Jordan (2010) Understanding earth 6th edition W H Freeman & Co
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What we can measure is the concentration (number of atoms) of 87Rb and 87Sr present in our sample at the present time t: [87Rb]t and [87Sr]t
We need an equation that links [87Rb]t and [87Sr]t with time:
This is the equation of a straight line independent of [87Rb]t=0 with a slope = 2t-1
(2)
(1)
Let’s assume there is NO daughter atoms in the system at time t=0
(3)
Amount of parent atoms remaining
Amount of daughter atoms produced = initial amount of parent atoms minus the amount of parent atoms remaining
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tan(α) = 2t-1
t
Time
α
t0 = 0
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t
Time
Daughter atoms were likely incorporated in the minerals when they crystallized…
PROBLEM:
(4)
tan(α) = 2t-1α
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?
?
?
?????
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M1
M2
M3
M4
Each minerals of our rock sample can incorporate any amount of Sr and Rb at time t=0
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We need a stable (non-radioactive) isotope that has properties similar to 87Srso that their initial ratio is the same in all the minerals of the rock sample.
Say we have 1000 atoms of 87Sr and 1200 atoms of 86Sr initially present in a magma:
For the rubidium-strontium system, the stable isotope is 86Sr
We assume that all the minerals of the sample we want to date have crystallized from a melt with a uniform Sr isotope ratio and that all minerals have incorporated Sr with the same initial ratio [87Sr]/[86Sr].
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M1
M2
M3t
Isochron
Important condition: each minerals must have remained a closed system since the time of magma crystallization
(5)
tan(α) = 2t-1
t0 = 0
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Papanastassiou et al. (1970)
Radiometric dates of moon rocks
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1. The sample is ionized.
2. The ions are acceleratedusing a potential difference.
3. A magnetic field bends thebeam of ions.
4. The lighter ions are deflectedmore than the heavier ones.
5. The relative abundance of eachisotope can be measured from the intensity of the current produced by each stream of ions.
Mass spectrometer
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The geologic time scale based on absolute ages
Understanding Earth