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Page 1: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Geologic Time and Stratigraphic Correlation

Geology 200Geology for Environmental ScientistsGeology for Environmental Scientists

Page 2: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Relative TimeRelative Time

• Geologists first worked out the sequence ofGeologists first worked out the sequence of events recorded in the rock record using the principles of relative time:principles of relative time:– original horizontality

i i l l l i i– original lateral continuity– superposition– fossil succession– cross-cutting and intrusive relationshipscross cutting and intrusive relationships– unconformities

Page 3: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Original Horizontality - Sediments usually form flat lying deposits on the earth’s surfaceflat-lying deposits on the earth’s surface.

Page 4: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Original Horizontality - Sedimentary rocks are horizontal because the original

sediments were horizontalsediments were horizontal.

Page 5: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Original Lateral Continuity: a logical extension of original horizontality Individual bedsextension of original horizontality. Individual beds

are the same age along an outcrop.

Page 6: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Unconformities: They are significant in that they aresignificant in that they are

indicators of missing time in the rock record.

Page 7: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

8_9

(a)Layeredsedimentaryrocks

NonconformityNonconformityMetamorphicrock

Igneousi i k (b)intrusive rock

Youngersedimentaryrocks

Angularunconformity

Older, foldedsedimentary

(c)

rocks

Disconformity

Brachiopod(290 million years old)

Trilobite (490 million years old)

Page 8: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly
Page 9: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

James Hutton, 18th Century founder of Geology

Page 10: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Siccar Point, Scotland, where Hutton discovered the meaning of unconformities.g

Page 11: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly
Page 12: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Siccar Point, Scotland, June 2004

Page 13: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly
Page 14: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly
Page 15: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Angular Unconformity in the Grand Canyon bet een Protero oic and Cambrian Rocksbetween Proterozoic and Cambrian Rocks. 100s of million years (MY) are missing.

Page 16: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Nonconformity between metamorphic and sedimentary rocks in the Grand Canyony y

Page 17: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly
Page 18: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Disconformity within Pennsylvanian age rocks, West Virginia The disconformity shows an olderVirginia. The disconformity shows an older

topography. Maybe only 1000s of years are missing from the rock recordfrom the rock record.

Page 19: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Can you interpret the sequence of geologic events using superposition, intrusive relationships, andusing superposition, intrusive relationships, and

cross-cutting relationships?

a

Page 20: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

What is the sequence of events?

Dike and Sill

Page 21: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

What is the sequence of events?

Page 22: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

These various principles wereThese various principles were used to construct the Geologic Time Scale (p. 199 in Text), which was done without anywhich was done without any knowledge of the number of

years involved.

Page 23: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Fig. 8.8. The standard geologic time scale

Page 24: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Time Units of the GeologicTime Units of the Geologic Time Scale

• Time can be separated into “pure” time and “rock” time. Rock time is divided into time stratigraphic units. Pure time g pis divided into geochronologic units.

• Time stratigraphic units sometimes• Time stratigraphic units sometimes parallel formation boundaries, but f h f i b d ioften they cross formation boundaries.

Page 25: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Time Units

• Geochronologic• Era

• Time Stratigraphic• (Erathem)• Era

–Period• (Erathem)

–System• Epoch

Age• Series

Stage–Age• Devonian Period

–Stage• Devonian System

Page 26: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Rock Units, not a part of theRock Units, not a part of the Geologic Time Scale

• Sedimentary rocks are divided into f iformations.

• Formations can be divided into members.F ti b bi d i t• Formations can be combined into groups.

Page 27: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Rock Units, cont’d,• Formation name consists of two parts:p

–Geographic namei h l i l i–Lithology or simply Formation

• Examples:p–Burlington Limestone–Waynesburg Sandstone–Juniata Formation (no dominantJuniata Formation (no dominant

lithology)

Page 28: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Rock Units, cont’d

• Example of rock unit divisions:• Conemaugh Group: 2 formations• Conemaugh Group: 2 formations

–Casselman Formation–Glenshaw Fm.: several members

• Ames Member• Ames Member• Harlem Coal Mbr.• Pittsburgh Red Shale Mbr.

Page 29: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

The Grand Canyon of the Colorado River in Arizona Sedimentary rocks are divided intoArizona. Sedimentary rocks are divided into

formations, which can be combined into groups.

Page 30: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly
Page 31: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Absolute Time: G h lGeochronology

Radiometric Dating: the source of the dates on the Geologicof the dates on the Geologic

Time Scale

Page 32: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Radiometric Dating

• Actually a simple technique.• Only two measurements are needed:• Only two measurements are needed:• 1. The parent:daughter ratio measured

with a mass spectrometer.• 2 The decay constant measured by a2. The decay constant measured by a

scintillometer.

Page 33: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Basis of the Technique

• Radioactive elements “decay.” Decay occurs as an element changes tooccurs as an element changes to another element, e.g. uranium to lead.

h l i di i h• The parent element is radioactive, the daughter element is stable.

• The decay rate is constant.

Page 34: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

What is Radioactivity?What is Radioactivity?• Radioactivity occurs when certainRadioactivity occurs when certain

elements literally fall apart.U ll d• Usually protons and neutrons are emitted by the nucleus.

• Sometimes an electron is emitted by the nucleus which changes a neutronthe nucleus, which changes a neutron to a proton.S i l i d• Sometimes an electron is captured.

Page 35: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Electron emissionAlpha particle emission

Page 36: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

What causes radioactivity?

• Carbon-14 is produced by cosmic ray bombardment of Nitrogen-14 in thebombardment of Nitrogen 14 in the atmosphere.All h di i l• All other radioactive elements were produced by supernova explosions before our solar system formed. This is called explosive nucleosynthesis.p y

Page 37: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Common Radioactive ElementsCommon Radioactive Elements, Parents and Daughters

• Carbon-14, C14 Nitrogen-14, N14, g ,• Uranium-235, U235 Lead-207, Pb207

40 40• Potassium-40, K40 Argon-40, Ar40

• Uranium-238, U238 Lead-206, Pb206Uranium 238, U Lead 206, Pb• Rubidium-87, Rb87 Strontium-87, Sr87

Page 38: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Basis of the Technique

• As the parent element decays, its amount decreases while the amount ofamount decreases while the amount of the daughter element increases. This gives us a ratio of parent:daughtergives us a ratio of parent:daughter elements.

• The decay rate is geometric rather than linear. Unaffected by heat or pressure.U y p

Page 39: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Key Term

• Half-Life: the amount of time for half the atoms of a radioactive element tothe atoms of a radioactive element to decay. Doesn’t matter how many atoms started half will decayatoms started, half will decay.

Page 40: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly
Page 41: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly
Page 42: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Radioactive Decay

80

100

clid

e

40

60

rcen

t Nuc Parent

Daughter

0

20

0 2 4 6 8 10

Per

0 2 4 6 8 10

Half Lives

Page 43: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

On a log scale geometric depletion plots as aOn a log scale, geometric depletion plots as a straight line.

Decay of Parent Nuclide

100

10

100

rcen

t

1

10

Scal

e, P

e

Parent

0 1

10 2 4 6 8 10

Half LivesLog

S

0.1

Page 44: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Radioactive decay for an isotope that has a decay f 2% (2 0 10 2) Th h lf lif iconstant of 2% a year (2.0x10-2). The half life is

35 years.Radioactive Decay, λ=0.02/yr

100

60

80

100

uclid

e

20

40

60

erce

nt N

u ParentDaughter

0

20

0 50 100 150 200 250 300 350

Pe

Years

Page 45: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Radioactive decay is the opposite of geometric growth by compound interest. At 2% interest the

money doubles every 35 years.

Growth of money at 2% compound interest

400

500

200

300

Dolla

rs

Money

0

100

0 20 40 60 800 20 40 60 80

Years

Page 46: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Half-Lives

• Counting half-lives:• Half lives: 1 2 3 4• Half-lives: 1 2 3 4• Parent :1/2, 1/4, 1/8, 1/16, etc.• Daughter :1/2, 3/4, 7/8, 15/16, etc.• P:D Ratio: 1:1 1:3 1:7 1:15• P:D Ratio: 1:1, 1:3, 1:7, 1:15

Page 47: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Measuring Half-Lives

• Ratios of 1:3, 1:7, 1:15, etc. are for whole half lives but any ratios can bewhole half lives, but any ratios can be measured; e.g. 1:4.2, or 8.6:1

Page 48: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

The Decay Constant, λ

• The rate of decay is called the decay constant It determines the half-life ofconstant. It determines the half life of a radioactive element.

h d i i f h• The decay constant is unique for each radioactive element.

• Measured with a scintillometer.

Page 49: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

The Decay Constant, λ

• Some values of the decay constant:• C14: 1 21x10-4 atoms per year• C14: 1.21x10 4 atoms per year• U235: 9.72x10-10 atoms per year• K40: 5.34x10-10 atoms per year

Page 50: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Calculating a Radiometric Date

• t = ln (P+D)/P

λ• What is the half life of Carbon-14?What is the half life of Carbon 14?• t = (ln ((1+1)/1))/1.21x10-4

• t = (ln 2)/1.21x10-4

• t = 5 728 yearst 5,728 years

Page 51: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Some Half Lives

• Carbon-14: 5,728 years• Uranium 235: 713 MY• Uranium-235: 713 MY• Potassium-40: 1.3 BY• Uranium-238: 4.5 BY• Rubidium 87: 48 8 BY• Rubidium-87: 48.8 BY

Page 52: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Setting the Radiometric Clock

• When an igneous melt crystallizes, parent and daughter elements areparent and daughter elements are chemically separated into different crystalscrystals.

• Further radioactive decay keeps the parent and daughter elements in the same crystal.y

Page 53: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Setting the Radiometric Clock

• Individual crystals of the same mineral are dated to give the age ofare dated to give the age of crystallization or cooling. Examples include zircon muscovite and biotiteinclude zircon, muscovite, and biotite.

• Note that whole rock analysis would not give the age of cooling.

Page 54: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Setting the Radiometric ClockSetting the Radiometric Clock• Carbon-14 is different in that it occurs

in organic remains rather than in rocks.• Clock is set when an organism dies• Clock is set when an organism dies.• Carbon-14 is absorbed by all living

organisms from the atmosphere or the food they eat.ood t ey eat.

• Useful for about 10 half lives, or only b t 57 000about 57,000 years.

Page 55: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Fig. 8.12. Carbon-14 radiometric clock

Page 56: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly
Page 57: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Charcoal, wood, twigs and seeds. Bone. Marine, estuarine and riverine shell. Leather. Peat Coprolites. S ilSoil. Pollen. Hair. Pottery

Materials dated using the Carbon-14

th d Pottery. Wall paintings and rock art works. Avian eggshell. Corals and foraminifera

method

Corals and foraminifera. Speleothems. Blood residues. Textiles and fabrics. Paper and parchment. Fish remains. Insect remains. Resins and glues. Antler and horn. Water.

Page 58: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Calibrating the Geologic TimeCalibrating the Geologic Time Scale

• Radiometric dates from igneous rocks can be used to indirectly datecan be used to indirectly date sedimentary rocks and their fossils. Principles such as superposition andPrinciples such as superposition and cross-cutting relationships come into

lplay.• Thousands of radiometric dates have

been obtained.

Page 59: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

8_21

Lava flow 1200,000 years old80 MY oldy80 MY old

Layer ?What we wantto date

La a flo 2

Cretaceous fossils

Lava flow 2400,000 years old90 MY old

Page 60: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly
Page 61: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Examples of conodonts, the teeth of primitiveteeth of primitive chordates

Page 62: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

The conodont animal from the Mississippian of Scotlandpp

1 cm1 cm

Page 63: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Age of the Earth: 4.6 BYTh ld k f d h 4 0 BY• The oldest rocks found on earth are 4.0 BY from NW Canada.

• 4.3 BY detrital zircons have been found in younger sandstones in Australiayounger sandstones in Australia.

• Meteorites and moon rocks are 4.6 BY.• Rocks older than 4.0 BY on earth have

apparently been destroyed by weathering pp y y y gand plate tectonics.

Page 64: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

4.40 BY zircon grain from Australia, found in 3 BY sandstonefound in 3 BY sandstone

Page 65: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Stratigraphic Correlation

Page 66: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

The Grand Canyon of the Colorado River in Ari onain Arizona

Page 67: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Fig 5 1 Layered sedimentary rocks exposed inFig. 5.1. Layered sedimentary rocks exposed inthe Grand Canyon, AZ

Page 68: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly
Page 69: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Stratigraphic correlation between Grand Canyon, Zion,

d Band Bryce Canyon national parks allowsparks allows construction of a composite pstratigraphic column.

Page 70: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Stratigraphic correlation Grand Canyon Zion Canyon Bryce Canyonbetween Grand Canyon, Zion,

d B

Grand Canyon, Zion Canyon, Bryce Canyon

and Bryce Canyon national parks allows

Top of Navaho Ss.

parks allows construction of a composite

Top of Kaibab Ls.

pstratigraphic column.

Page 71: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Zion Canyon National Park, Jurassic Sedimentary RocksSedimentary Rocks

Page 72: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Jurassic Navaho Sandstone, Zion National Park wind-blown cross-beddingPark, wind-blown cross-bedding.

Page 73: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Bryce Canyon, Utah, Cretaceous sedimentary rocks

Page 74: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

CorrelationCorrelation• Determination of the equivalence of• Determination of the equivalence of

bodies of rock at different locations. Th t ki d f l tiThere are two kinds of correlation:

• Lithostratigraphic - matching up g p g pcontinuous formations.

• Chronostratigraphic matching up• Chronostratigraphic - matching up rocks of the same age. Usually done

ith f il i bi t ti hwith fossils using biostratigraphy.

Page 75: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

CorrelationCorrelation• Over short distances lithostratigraphic• Over short distances lithostratigraphic

correlation is the same as h t ti hi l tichronostratigraphic correlation.

• Over medium distances they are not ythe same.

• Over long distances only• Over long distances only chronostratigraphic correlation can be

dused.

Page 76: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Original Lateral Continuity: permits lithostratigraphic correlationlithostratigraphic correlation

Page 77: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Lithostratigraphic andLithostratigraphic and Chronostratigraphic

l i hiRelationships

Page 78: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Sedimentary Facies

Page 79: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Time LinesModern Barrier Island

Sedimentary Facies in the subsurface

Time LinesWire line logs

Page 80: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Modern Barrier Island

Sedimentary Facies in the subsurfaceWire line logsLewis Shale

Parkman Ss

Cody Shale

Page 81: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Simple Lithostratigraphicg pCorrelation: Facies Boundaries, not ,Time Lines

Page 82: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Grand CanyonGrand Canyon Stratigraphy

Page 83: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Cambrian strata of the Grand Canyon: Tapeats Ss., Bright Angel Sh., and Muav Ls. Note the two time lines from biostratigraphy.

Page 84: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly
Page 85: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Correlated Bed contactsCorrelated Bed contacts

Page 86: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Detailed lithostratigraphic correlation of the Cambrian strata of the Grand Canyon Note the facies interfingering (Stanley Fig 6 5)Grand Canyon. Note the facies interfingering. (Stanley, Fig. 6.5)

Interfingering of stratadue to shifting of facies

during deposition

Zone of middle Cambrian trilobitesCambrian trilobitesZone of early Cambrian trilobites

Page 87: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Cambrian strata of the Grand Canyon: Note the two time lines from biostratigraphy.

Interfingering of stratate ge g o st atadue to shifting of facies

during deposition

Time lines establishedby biostratigraphyby biostratigraphy

Page 88: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Depositional Model for the Cambrian strata of the Grand Canyon: Tapeats Ss., Bright Angel

Sh., and Muav Ls.

Page 89: Geologic Time and Stratigraphic Correlation€¦ · Calibrating the Geologic TimeCalibrating the Geologic Time Scale • Radiometric dates from igneous rocks can be used to indirectly

Transgression, regression, and stratigraphic cycles Fig 5 26stratigraphic cycles. Fig. 5.26

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