The Siwalik Fold Belt along the Himalayan piedmont 10 km Main Frontal Thrust Main Boundary Thrust.
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Transcript of The Siwalik Fold Belt along the Himalayan piedmont 10 km Main Frontal Thrust Main Boundary Thrust.
![Page 1: The Siwalik Fold Belt along the Himalayan piedmont 10 km Main Frontal Thrust Main Boundary Thrust.](https://reader034.fdocuments.us/reader034/viewer/2022050714/56649c785503460f9492e073/html5/thumbnails/1.jpg)
The Siwalik Fold Belt along the Himalayan piedmont
10 km
Main Frontal Thrust
Main Boundary Thrust
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Structural Section Along Bagmati River. A Simple Fault Bend Fold.
![Page 3: The Siwalik Fold Belt along the Himalayan piedmont 10 km Main Frontal Thrust Main Boundary Thrust.](https://reader034.fdocuments.us/reader034/viewer/2022050714/56649c785503460f9492e073/html5/thumbnails/3.jpg)
Uplifted Fluvial Terrace along Bagmati River.
Strath surfaceTop of terrace tread
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Inferring paleo-river bed from terrace remnants
9.2 kaBP 6.2 kaBP 2.2 kaBP
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![Page 6: The Siwalik Fold Belt along the Himalayan piedmont 10 km Main Frontal Thrust Main Boundary Thrust.](https://reader034.fdocuments.us/reader034/viewer/2022050714/56649c785503460f9492e073/html5/thumbnails/6.jpg)
![Page 7: The Siwalik Fold Belt along the Himalayan piedmont 10 km Main Frontal Thrust Main Boundary Thrust.](https://reader034.fdocuments.us/reader034/viewer/2022050714/56649c785503460f9492e073/html5/thumbnails/7.jpg)
River incision and terrace formation across an active fold
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Folded abandoned terraces along Bagmati river• Only the MFT is active along that section• Incision rate correlates with the fold geometry suggesting
that it reflects primarily tectonic uplift.
![Page 9: The Siwalik Fold Belt along the Himalayan piedmont 10 km Main Frontal Thrust Main Boundary Thrust.](https://reader034.fdocuments.us/reader034/viewer/2022050714/56649c785503460f9492e073/html5/thumbnails/9.jpg)
• The two major terrace T0 (9.2ka) and T3(2.2ka) show similar pattern of incision although their ratio is not exactly constant nore exactly equal to the ratio of their ages (0.19).
Should incision be stationary if the fold is growing at a constant rate?
![Page 10: The Siwalik Fold Belt along the Himalayan piedmont 10 km Main Frontal Thrust Main Boundary Thrust.](https://reader034.fdocuments.us/reader034/viewer/2022050714/56649c785503460f9492e073/html5/thumbnails/10.jpg)
Converting Incision into Uplift
u(x,t): uplift relative to the undeformed footwalli(x,t): river incisionb(t): sedimentation at front of the fold (local base level change)
u(x,t)= i(x,t) + b
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Comparison of Uplift and Incision profiles
The various terraces yield very similar uplift profiles.
![Page 12: The Siwalik Fold Belt along the Himalayan piedmont 10 km Main Frontal Thrust Main Boundary Thrust.](https://reader034.fdocuments.us/reader034/viewer/2022050714/56649c785503460f9492e073/html5/thumbnails/12.jpg)
How do we convert that information into horizontal shortening of slip rate on the thrust fault?
Uplift relative to footwall basement
![Page 13: The Siwalik Fold Belt along the Himalayan piedmont 10 km Main Frontal Thrust Main Boundary Thrust.](https://reader034.fdocuments.us/reader034/viewer/2022050714/56649c785503460f9492e073/html5/thumbnails/13.jpg)
Determination of shortening from conservation of area
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• Note that the ‘excess area’ is a linear function of depth only if there is no backshear.
(Bernard et al, 2006)
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It is assumed here that:- area is preserved during deformation (no compaction nor dilatancy)- deformation is plane (no displacement out of plane)
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Determination of shortening from conservation of area
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Relationships between fold shape and shortening depend on folding mechanism…
Fault-Bend Fold Detachment FoldPure-shearFault-Bend Fold
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Collocatedproportional uplift
Non-Collocateduplift
Incremental deformation recorded by terraces or growth strata can be used to test fold models.
(courtesy of John Suppe)
Fault-Bend Fold Detachment Fold
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Constant bed length v1=v2No backshear v1 constant with depthConstant bed thickness u(x) = v1.sinθ(x)
Fault-bend folding
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Folded abandoned terraces along Bagmati river• Is the uplift pattern consistent with Fault-bend Folding
as has been assumed to construct the section?
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Comparing uplift derived from river incision with uplift predicted by fault-bend folding
It is possible to estimate the cumulative shortening since the abandonment of each terrace.
The uplift pattern is consistent with fold-bend folding with no back-shear.
(Lave and Avouac, 2000)
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Comparing uplift derived from river incision with uplift predicted by fault-bend folding
The shortening rate across the fold is estimated to 21 +/-1.5 mm/yr(taking into account the fact that slip is probably stick slip)
(Lave and Avouac, 2000)
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Constant bed length v1=v2No backshear v1 constant with depthConstant bed thickness u(x) = v1.sinθ(x)
Fault-bend folding