GLG310 Structural Geology

May 6, 2023 GLG310 Structural Geology

Description of faults

Normal Thrust/reverse Strike-slipHorizontal stretch

>1 <1 >1 in one direction and < 1 in another

Crustal thickness

Thin Thicken No change

Regional elevation

Usually lower Usually higher No change

Regional character

Rifting, Mid Ocean ridges, gravitational collapse, local accommodation along strike-slip faults

Subduction zones/accretionary prisms, continent/continent collision, back arc fold thrust belts, local accommodation along strike-slip faults

Transforms, oblique convergence (i.e., Sumatra), continental collision, Transfers in other fault systems

Issues Detachments, Listric, rotation, rifted margins

Layered rocks, reverse versus thrust

Transforms, bends and stepovers

Normal faults

http://www.tectonics.caltech.edu/taiwan/regional.htm

• Put younger over older

• Often in “rifts”

Normal faults in Iran (http://www.imaggeo.net/view/807)

Global Spreading Ridges from http://topex.ucsd.edu/marine_topo/globe.html

May 6, 2023 GLG310 Structural Geology

Comparative “riftology”

East African Rift

Gulf of California

Eastern North America

T. Rooney

Significant variation in fault array geometry along the system

Development of extensional systems

Clay cake on a rubber sheet: analogy for brittle upper crust (clay) over ductile and uniformly extending lower crust

horstgraben

Upper part of system has steep, Andersonian dips, but lower portion has a detachment (salt horizon or other ductile level) into which the faults “root”

The down dip curving or shallowing of dip is “listric”

http://archives.datapages.com/data/bulletns/2009/04apr/BLTN08117/BLTN08117.HTM

Experimental development of a normal fault system

1983 M7.3 Borah Peak Earthquake

Classic study by Stein and Barrientos

Borah Peak earthquakeDisplacements and long term offset

Top map showings discontinuous rupture trace and several zones of complex faulting, such as near Arentson Gulch, West Spring, and Elkhorn Creek. Displacement along strike shows greatest vertical offset near Rock Creek (where the highest peak is also found in the footwall), overlapping offsets where decreasing displacement on one fault is compensated for by increasing displacement on another fault (Arentson Gulch to West Splay Junction), and a broadly bow-shaped displacement pattern (dashed line) along this succession of fault traces that is similar to the pattern seen on individual normal . Double arrows depict orientation of striae on the fault plane and indicate oblique dip-slip on this fault. The location of the levelling line survey runs approximately perpendicular to the rupture trace. Modified after Crone and Machette (1984). --Burbank and Anderson

Normal arrays, their displacement profiles, and relays

May 6, 2023 GLG310 Structural Geology

Burbank and Anderson

Burbank and Anderson

Sedimentaryfills

Rift basin architecture

Sedimentary Rift BasinsSedimentary Rift Basins

What are rift basins and why are they important?

Depositional environments

Process

- elongate crustal depressions- variety of tectonic settings- economically important

Project Focus: Inverse problem – extract process from structure

and fills

3Withjack and Schlische, 2002

Faunal Evolution

?J. Gurche

DiMaggio

26 October 2004 GLG310 Structural Geology

Normal faults

Rotating faults become less well oriented and a second set forms

Rotating faults become less well oriented and a second set forms

http://blog.summitkwan.com/?p=182

Normal fault geometries

May 6, 2023 GLG310 Structural Geology

Idealized diagram of a metamorphic core complex or detachment system--these are common in Arizona

26 October 2004 GLG310 Structural Geology

Development of extensional systems

Normal faults

26 October 2004 GLG310 Structural Geology

Inversion tectonics and fault reactivation

May 6, 2023 GLG310 Structural Geology

Description of faults

Normal Thrust/reverse Strike-slipHorizontal stretch

>1 <1 >1 in one direction and < 1 in another

Crustal thickness

Thin Thicken No change

Regional elevation

Usually lower Usually higher No change

Regional character

Rifting, Mid Ocean ridges, gravitational collapse, local accommodation along strike-slip faults

Subduction zones/accretionary prisms, continent/continent collision, back arc fold thrust belts, local accommodation along strike-slip faults

Transforms, oblique convergence (i.e., Sumatra), continental collision, Transfers in other fault systems

Issues Detachments, Listric, rotation, rifted margins

Layered rocks, reverse versus thrust

Transforms, bends and stepovers

May 6, 2023 GLG310 Structural Geology

Description of faults

Normal Thrust/reverse Strike-slipHorizontal stretch

>1 <1 >1 in one direction and < 1 in another

Crustal thickness

Thin Thicken No change

Regional elevation

Usually lower Usually higher No change

Regional character

Rifting, Mid Ocean ridges, gravitational collapse, local accommodation along strike-slip faults

Subduction zones/accretionary prisms, continent/continent collision, back arc fold thrust belts, local accommodation along strike-slip faults

Transforms, oblique convergence (i.e., Sumatra), continental collision, Transfers in other fault systems

Issues Detachments, Listric, rotation, rifted margins

Layered rocks, reverse versus thrust

Transforms, bends and stepovers