Igneous Petrology John Winter.

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Presentation transcript:

Igneous Petrology John Winter

The Earth’s Interior Crust: Oceanic crust Continental Crust Thin: 10 km Relatively uniform stratigraphy = ophiolite suite: Sediments pillow basalt sheeted dikes more massive gabbro ultramafic (mantle) Continental Crust Thicker: 20-90 km average ~35 km Highly variable composition Average ~ granodiorite

The Earth’s Interior Mantle: Peridotite (ultramafic) Upper to 410 km (olivine ® spinel) Low Velocity Layer 60-220 km Transition Zone as velocity increases ~ rapidly 660 spinel ® perovskite-type SiIV ® SiVI Lower Mantle has more gradual velocity increase Figure 1-2. Major subdivisions of the Earth. Winter (2001) An Introduction to Igneous and Metamorphic Petrology. Prentice Hall.

The Earth’s Interior Core: Fe-Ni metallic alloy Outer Core is liquid No S-waves Inner Core is solid Figure 1-2. Major subdivisions of the Earth. Winter (2001) An Introduction to Igneous and Metamorphic Petrology. Prentice Hall.

Figure 1-3. Variation in P and S wave velocities with depth Figure 1-3. Variation in P and S wave velocities with depth. Compositional subdivisions of the Earth are on the left, rheological subdivisions on the right. After Kearey and Vine (1990), Global Tectonics. © Blackwell Scientific. Oxford.

Figure 1-5. Relative atomic abundances of the seven most common elements that comprise 97% of the Earth's mass. An Introduction to Igneous and Metamorphic Petrology, by John Winter , Prentice Hall.

The Pressure Gradient P increases = rgh Nearly linear through mantle ~ 30 MPa/km » 1 GPa at base of ave crust Core: r incr. more rapidly since alloy more dense Figure 1-8. Pressure variation with depth. From Dziewonski and Anderson (1981). Phys. Earth Planet. Int., 25, 297-356. © Elsevier Science.

Heat Sources in the Earth 1. Heat from the early accretion and differentiation of the Earth still slowly reaching surface

Heat Sources in the Earth 1. Heat from the early accretion and differentiation of the Earth still slowly reaching surface 2. Heat released by the radioactive breakdown of unstable nuclides

Heat Transfer 1. Radiation 2. Conduction 3. Convection 1. Radiation Requires transparent medium Rocks aren’t (except perhaps at great depth) 2. Conduction Rocks are poor conductors Very slow 3. Convection Material movement (requires ductility) Heat-induced expansion and buoyancy Much more efficient than conduction

The Geothermal Gradient Continental Gradient higher than Oceanic Gradient Range for both Highest at Surface water and cold surface In the future we will often use average values rather than the ranges Figure 1-9. Estimated ranges of oceanic and continental steady-state geotherms to a depth of 100 km using upper and lower limits based on heat flows measured near the surface. After Sclater et al. (1980), Earth. Rev. Geophys. Space Sci., 18, 269-311.

Plate Tectonic - Igneous Genesis 1. Mid-ocean Ridges 2. Intracontinental Rifts 3. Island Arcs 4. Active Continental Margins 5. Back-arc Basins 6. Ocean Island Basalts 7. Miscellaneous Intra- Continental Activity kimberlites, carbonatites, anorthosites...