I Introduction to Structural Geology Ge 106 Instructor
- Slides: 37
I. Introduction to Structural Geology -Ge 106 Instructor: Jean-Philippe Avouac (301 NM; avouac@gps, caltech. edu) Teaching Assistant: Erika Swanson (eswanson@caltech. edu) Administrative Assistant: Heather Steele (302 NM, heatherg@gps. caltech. edu) Meetings: Location: MN 215 Lectures: Tuesdays, Wenesdays and Thursdays, 3: 00 -4: 00 p. m.
I. Introduction to Structural Geology -Ge 106 Synopsis: - This course is an introduction to the fundamentals of structural geology. It is designed mainly for students with an elementary background in mathematics and physics at the sophomore level. - The components of the course include lectures, problem sets, a lab and a final exam. -Each student will have to make a presentation during the last week of instruction. Grading: • Problem Sets 40% • Participation to class and labs 40% • Final Exam 30%
Textbooks
Sources used in Class Material The material in the presentions was • kindly provided by coleagues; – John Suppe (for a great deal) • downloaded from the ‘web’; • or extracted from publications. Hopefully sources from the web and literature ar appropriately credited (my apologies to the authors if not)
What’ the purpose of Structural Geology? Structural Geology provides techniques to help interpret geological and geophysical data in 3 D and 4 D (‘what is the current geometry and how did we get there? ) Data: – Surface geology (intersection of 3 -D bodies with the 2 -D topographic surface) – Subsurface data: seismic, gravity, well logs… (hardly scratching the uppermost layers of the Earth. . )
What is Structural Geology? • A descriptive, but quantitative, discipline. • Output: – Geometric model – Kinematic model • Structural geology concerns all scales. • Some amount of structural geology is necessary in nearly all areas of geology. • ‘Structural Geology’ and ‘Tectonics’ are intimately linked
• In some instances, determining the geometry of rock structures is an end in itself. For example for geological resources exploration (oil and gas, ore deposits, ground water ressources …) • In Tectonic studies the objective is generally a kinematic mode, that is intended to provide insight on the mechanisms governing deformation. • In some other instances it provide a geometric and kinematic framework to help interpret nonstructural data (Seismic Hazard studies, most academic studies).
Class Outline I. III. IV. V. VII. Deformation of the lithosphere, an overview Basic Techniques in Structural Geology and Tectonics Basic of Continuum mechanics Geological strain Deformation Mechanism Joints and Fault mechanics Architecture and structural evolution of orogenic belts
Deformation of the Lithosphere, an overview • Basics of Plate Tectonics. A convenient framework.
World seismicity (data source: USGS) and velocities relative to ITRF 1997 at Geodetic sites (Sella et al, 2000)
The distribution of seismicity, quaternary faulting and geodetic displacement shows, to fisrt order a ‘plate-like’ behavior.
• Why do we have tectonics on Earth and how does it relate to Earth internal structure and dynamics?
(Mackwell et al. , 1998)
‘Strength envelopes’ as inferred from laboratory laws. - The ‘plate like behavior’ of the lithosphere results from its strength at shallow depth - The Lithosphere deforms as a result of both brittle and ductile processes. (Jackson, 2001) NB: Plate tectonics could develop on Earth due to 1 -the strong viscosity contrast between the Lithosphere and the underlying mantle. This contrast is due to low surface temperature and presence of water in mantle 2 - strain weakening behvior of the lithosphere itself (again water is key)
The Earth Structure as seen from seismic tomography Due to chemical and temperature induced variations of density, the Earth is not in an hydrostatic equilibrium. This results in viscous convective flow in the mantle (where temperature is high enough to promote advection). -The Lithosphere is a thermal boundary layer across which heat is transferred by conduction. - Due its low temperature it exhibits a plastic like behavior with localized zone of deformation separating ‘rigid’ plates. Plates move due to the tectonic forces induced by internal load (gravity), and forces applied along plate edges and bottom.
World seismicity (data source: USGS) and velocities relative to ITRF 1997 at Geodetic sites (Sella et al, 2000)
Transform fault A system of connected plate boundaries: • Subduction Zones (converging) • Mid-Oceanic Ridges (diverging) • Transform Faults (horizontal shear)
Transform fault Mantle convection and plate tectonics are coupled processes but probably not as as this cartoon suggests (there is no evidence for mantle upwelling beneath mid-oceanic ridges). ….
I. Deformation of the Lithosphere, an overview • Basics of Plate Tectonics. A convenient kinematic framework. – Current Kinematics
12 major lithospheric plates USGS
I. Deformation of the Lithosphere, an overview • Basics of Plate Tectonics. A convenient kinematic framework. – Current Kinematics – Structures related to plate boundary processes and longer term kinematics
Ocean-ocean convergence • Subduction – one oceanic plate subducts (dives) beneath the other • Volcanic island arc is formed
Ocean-continent convergence During ocean-continent convergence, oceanic lithosphere subducts beneath continental lithosphere Continental volcanic arc formed The continental margin often deforms ‘Active continental margin’
‘Mantle wedge’ ‘Active continental margin’
Passive continental margin From continental rifting to the development of a an oceanic basin
Continental shelf Continental slope Continental rise Structure of a passive margin (rifted continental margin)
12 major lithospheric plates USGS
At this point we have described Solid Earth surface dynamics in terms of rigid bodies, ‘Plates’, undergoing tangential displacements on the sphere and separated by narrow plate boundaries. • Are plate interiors really rigid bodies? • What about radial displacements?
The Earth topography is highly bimodal Oceans Continents
NB: the computation in b ignores isostasy and crustal flow. -The fact that continental topography is not even despite erosion, is clear evidence for radial displacements within continents. - Mountain range are a clear demonstration that the continental crust can experience distributed ‘regional’ deformation.
(courtesy of James Jackson)
(courtesy of James Jackson)
World topography and bathymetry
- Geology
- Geological structures
- Cassie de lisla
- Stereographic projection structural geology
- Name of structure
- Structural geology
- Structural geology
- Structural geology
- Introduction to geology ppt
- 106 spelled out
- Fahrenheit 451 pages 76-89 summary
- Nick troccoli
- Irig 106 chapter 10 sample data
- Mae 106
- Plt 106
- 106 pal
- 106 signal brigade
- N 106
- Section 106 compliance
- Salmo 106
- Fas112
- Kj 106
- Iec tc 106
- Iat 106
- Answers
- Roberts building 106
- Round the factors to estimate the products
- 生命聖詩106
- 101 102 103 104 105 106 107 108
- Is 109 a prime number
- Sqte-106
- 105×106
- Valori metabolismo glucidico
- Col 106 amit kumar
- 107 108 109
- Lusíadas canto v estância 92 a 100 recursos expressivos
- Nur 106
- Marcus cicero death