REVIEW
REVIEW
hangingwall ramp A-Ramps and flats hangingwall B- Hangingwall ramp and footwall footwall ramp footwall ramp C-? thrust sequence New thrusts develop in the footwall D-? thrust sequence New thrusts develop in the Hangingwall E- Thrust duplex roof thrust imbricate thrust slices are contained between a floor imbricate zone floor thrust thrust and a roof thrust F-Pop-up structure frontal ramp back thrust G- Triangle zone
A - Ramps and flats B – Hangingwall ramp and footwall ramp C – ? thrust sequence New thrusts develop in the footwall D – ? thrust sequence New thrusts develop in the Hangingwall E – Thrust duplex: imbricate thrust slices are contained between a floor thrust and a roof thrust F - Pop -up structure G – Triangle zone ? ? ?
Extensional Fault Systems Mylonites forming in delamination z A- Evolutionary model illustrating progressive extension accommodated by block rotation above a low-angle Rumple detachment taunts matay extensional fault Kinematic aotive meloni B- Listric fault with hangingwall rollover Youngest detachment faull A Hall-graben anticline. Area A and b are equal granite气 eC-Flat/ramp geometry of fault produces geometrically necessary folding in Hollow hangingwall hangingwall bloc Ramp I D- Antithetic faults in hangingwall E-Synthetic faults in footwall forming Litre fan listric fan hangingwall Hangingwall F- Extensional duplex with listric fan and Listne tan Counter fan antithetic counter fan G- Two listric faults linked by a transfer fault all three detach on the same sole fault
Extensional Fault Systems A- Evolutionary model illustrating progressive extension accommodated by block rotation above a low-angle extensional fault. B- Listric fault with hangingwall rollover anticline. Area A and B are equal. C – Flat/ramp geometry of fault produces geometrically necessary folding in hangingwall. D- Antithetic faults in hangingwall. E – Synthetic faults in footwall forming listric fan. F- Extensional duplex with listric fan and antithetic counter fan. G- Two listric faults linked by a transfer fault;all three detach on the same sole fault
Lecture 10 Strike-Slip Fault Systems
Lecture 10 Strike-Slip Fault Systems
R R S) Fractures Generated During Strike-Slip Faulting
Fractures Generated During Strike-Slip Faulting
Stress Concentrations at Ends of strike-Slip Fault Compression Dilation Dilation Compression
Compression Dilation Compression Dilation Stress Concentrations at Ends of Strike-Slip Fault
Strike-slip fault system A- Local compressional Fault termination and extensional struc tures produced by fault terminations and fault Fault overlap overlaps B-Formation of raised Before movement After movement and depressed wedge shaped blocks by local transpression and transtension T2[34 Positive and negative flower structures produ Positive flower structure ced by convergence and divergence respectively in strike-slip motion Out of page Negative flower structure 3 D-Strike-slip duplex
