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Structure of the Earth.

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Presentation on theme: "Structure of the Earth."— Presentation transcript:

1 Structure of the Earth

2

3 The upper part of the solid Earth
Crust Oceanic Continental Mantle Lithosphere Astenosphere

4

5 Plates and plate boundaries
Geological activity is concentrated on plate boundaries

6 Types of plate boundaries

7 Mid-Atlantic ridge

8 Chile subduction

9 Himalayan collision

10 San Andreas fault

11 Rifting of continental crust to form a new ocean basin

12 Collision – welding together of continental crust
Subducting oceanic lithosphere deforms sediment at edge of continental plate Collision – welding together of continental crust Post-collision: two continental plates are welded together, mountain stands where once was ocean

13 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

14 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. Winter, From Dziewonski and Anderson (1981). Phys. Earth Planet. Int., 25, © Elsevier Science.

15 The Geothermal Gradient
Pattern of global heat flux variations compiled from observations at over 20,000 sites and modeled on a spherical harmonic expansion to degree 12. From Pollack, Hurter and Johnson. (1993) Rev. Geophys. 31, Cross-section of the mantle based on a seismic tomography model. Arrows represent plate motions and large-scale mantle flow and subduction zones represented by dipping line segments. EPR =- East pacific Rise, MAR = Mid-Atlantic Ridge, CBR = Carlsberg Ridge. Plates: EA = Eurasian, IN = Indian, PA = Pacific, NA = North American, SA = South American, AF = African, CO = Cocos. From Li and Romanowicz (1996). J. Geophys. Research, 101, 22,

16 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

17 The Geothermal Gradient
Figure Winter, from Green and Falloon ((1998), Green & Ringwood (1963), Jaupart and Mareschal (1999), McKenzie et al. (2005 and personal communication), Ringwood (1966), Rudnick and Nyblade (1999), Turcotte and Schubert (2002). 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

18 How to melt? Increase T Decrease P Move the solidus

19 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...

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