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Historical Geology Lecture 6 Absolute Time and Dating Geochronology.

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Presentation on theme: "Historical Geology Lecture 6 Absolute Time and Dating Geochronology."— Presentation transcript:

1 Historical Geology Lecture 6 Absolute Time and Dating Geochronology

2 Historical Geology IEarly Dating Attempts IIIsotopic Dating A)Radioactive Decay 1)Isotopes 2)Types of Decay 3)Half-life 4)Decay Series 5)Uses B)Fission Track Dating C)Effect of Metamorphism IIICombining Relative and Absolute Dating Outline

3 Historical Geology Estimating Earth’s Age

4 Historical Geology Estimating Earth’s Age

5 Historical Geology Early Dating Attempts Quantitative William Thomson, Lord Kelvin (1824-1907) method: cooling rate of molten Earth through conduction and radiation result: 24-40 million years John Joly (1857-1933) method: rate of delivery of salt to the ocean result: 90-100 million years Total salts in ocean / rate of addition = age

6 Historical Geology Early Dating Attempts Quantitative Archibald Geikie (1835-1924); many others method: sedimentation rates result: 3-1500 million years Charles Lyell (1797-1895) method: evolution of marine mollusks result: Cenozoic Era - 80 million years

7 Historical Geology The Discovery of Radioactivity Henri Becquerel (1852-1908) Marie Curie (1867-1934) Pierre Curie (1859-1906)

8 Historical Geology Isotopes isotopes - atoms of the same element that have different numbers of neutrons but the same number of protons

9 Historical Geology Radioactive Decay Types

10 Historical Geology Half-Life

11 Historical Geology Radionuclides Radioactive (parent) Radiogenic (daughter) Radioactive and Radiogenic Cosmogenic

12 Historical Geology Radioactive Decay Systems

13 Historical Geology Radioactive Decay Systems 87 Rb 87 Sr Half -life: 49 billion years Effective Range: >10 million years Source Materials: Potassium mica, Potassium feldspar, biotite, glauconite, whole metamorphic or igneous rock Uses:Igneous rocks Carbonates - Sr composition of sea water through time Meteorites

14 Half -life: 14 billion years Effective Range: >10 million years Source Materials: thorite, monazite, thorogummite, huttonite in granites and basalts Uses:stellar ages sea floor nodules Historical Geology Radioactive Decay Systems 232 Th 208 Pb

15 Historical Geology Radioactive Decay Systems 238 U 206 Pb

16 Half -life: 4.5 billion years Effective Range: >10 million years Source Materials: Zircon, uraninite, pitchblende Uses:age of Earth meteorites Historical Geology Radioactive Decay Systems 238 U 206 Pb

17 Historical Geology Radioactive Decay Systems 40 K 40 Ar Half -life: 1.25 billion years Effective Range: >100,000 years Source Materials: Muscovite, biotite, hornblende, volcanic rock, glauconite, potassium feldspar Uses: very old archaeological materials

18 Half -life: 700 million years Effective Range: >10 million years Source Materials: zircon, urananite, monazite, apatite Uses: dinosaur fossil dating Historical Geology Radioactive Decay Systems 235 U 207 Pb

19 Half -life: 5,730 years Effective Range: 100-40,000 years Source Materials: Organic Matter Uses: Radiocarbon Dating Historical Geology Radioactive Decay Systems 14 C 14 N

20 Historical Geology Fission Track Dating

21 Historical Geology Effect of Metamorphism

22 Historical Geology Using Absolute and Relative Dating

23 Historical Geology Using Absolute and Relative Dating

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