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Subduction Tectonics/Active Margin Evolution Peter Clift
Subduction Tectonics/Active Margin Evolution
Peter Clift
Philippine Sea Plate, Subduction Initiation
Casey and Dewey (1984)
Bloomer et al. (1995)
Subduction Initiation
Initiation at a fracture zone
Casey and Dewey (1984)
Collapse at the ridge crest?
Callovian; 166 MaAsymmetric ridge collapseMetamorphic sole formed
Late Callovian-Oxfordian; 163 MaSupra-subduction spreading Boninite volcanism
Vourinos & PindosOphiolites
Ophiolite obduction
Kimmeridgian; 153 MaMigdhalitsa & OthrisOphiolites
Forces that resist subduction initiation
McKenzie, 1977
Flow of asthenosphere into a crack?
Turcotte et al. (1977)
Boninites
Pearce and Parkinson (1993)
Metamorphic soles
Jones et al. (1991)Pindos Mountains, Greece
Anatomy of an intra-oceanic arc
Subduction seismicity
Subduction polarity flip
Aegean Seismicity- backarc extension
Angle of descent, controling factors?
Isacks and Molnar (1971)
Stresses in the descending slab.
Isacks and Molnar (1969)
Backarc rifting-Izu-Bonin Arc
(B) Extension of the arc
Flow of depletedupper mantle
Basinal basaltic volcanism and voluminous high silica volcanic centers
(D) Spreading starts on backarc spreading center. New Arc begins activity
Subsiding forearc
low-K tholeiites
Rifted arc basement ?
(A) Steady state subduction
Forearc Basin
(C) Continued extension and seamount volcanism
Backarc rifting-Tonga: location of rift axis?
(B) Extension of the arc
Flow of depletedupper mantle
Basinal basaltic volcanism and voluminous high silica volcanic centers
(D) Spreading starts on backarc spreading center. New Arc begins activity
Subsiding forearc
Minor alkalibasalts and Hawaiites
low-K tholeiites
Rifted arc basement ?
(A) Steady state subduction
Forearc Basin
(C) Continued extension and seamount volcanism
Magmatic variations during backarc rifting
En-echelon spreading axes, Havre Trough
Rift-drift transition in backarcs
Propagating rifts in backarc basins
Hydrothermalism in backarc basins
Different basement types and styles of hydrothermalism
Effect of seamount collision on arc magmatism. Magmatic gap?
Subduction erosion in
Tonga.
120
100
80
60
40
20
0
0 10 20 30 40
Age (Ma)
B
-20
A
-2
0
2
4
6
8
0 10 20 30 40
Arcwardtilting
Trenchwardtilting
?
Tonga Forearc Subsidence
.
0
-1
1
2
3
4
6
Age (Ma)0 10 20 30 40 50
Oceaniccrust
Modern depthMinimum subsidencerelated to crustalthinning
Perched basins on an erosive plate margin
Tonga fore-arc trench slope basin.
E
5.5
6.0
1 km
W
1
2
3
4
1
1
Paired metamorphic belts
![Active tectonics of the Beichuan and Pengguan faults at the eastern margin …wpg.forestry.oregonstate.edu/sites/wpg/files/seminars/... · 2015. 1. 7. · Margin [6] The present-day](https://static.documents.pub/doc/80x56/60226db8e705505e342cd984/active-tectonics-of-the-beichuan-and-pengguan-faults-at-the-eastern-margin-wpg.jpg)
