Journal ArticleDOI
Exhumation of high-pressure rocks: a review of concepts and processes
TLDR
The exhumation of high-pressure metamorphic rocks requires either the removal of the overburden that caused the high pressures, or the transport of the metamorphics rocks through the over-burden Exhumation cannot be achieved simply by thrusting or strike-slip faulting as discussed by the authors.Abstract:
The exhumation of high-pressure metamorphic rocks requires either the removal of the overburden that caused the high pressures, or the transport of the metamorphic rocks through the overburden Exhumation cannot be achieved simply by thrusting or strike-slip faulting It may be caused by erosion of shortened and thickened crust, but this is unlikely to be the only mechanism for exhuming rocks from depths greater than about 20 km One or more of the following additional mechanisms may be involved
1 Corner flow of low-viscosity material trapped between the upper and lower plates in a subduction zone can cause upward flow of deeply buried rock, and may explain some occurrences of high-pressure tectonic blocks in melange This process does not, however, appear to be adequate to explain the exhumation of regional high-pressure terrains
2 Buoyancy forces acting directly on metamorphic rock bodies may cause them to rise relative to more dense surroundings This is likely to be the most important mechanism of exhumation of crustal rocks subducted into the mantle, but cannot explain the emplacement of coherent tracts of high-density metamorphic rock into shallow crustal levels Some high-pressure blocks emplaced at shallow levels in accretionary terrains may have been entrained in diapiric intrusions of low-density mud or serpentinite
3 Extension driven by the forces associated with contrasts in surface elevation may explain the exhumation and structural setting of many high-pressure terrains Extension may occur in the upper part of an accretionary wedge thickened by underplating; or it may affect the whole lithosphere in a region of intracontinental convergence, if surface elevation has been increased by the removal of a lithospheric root In the second case extension may be accompanied by magmatism and an evolution towards higher temperature during decompression of the metamorphic terrainread more
Citations
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Journal ArticleDOI
The origin and pre-Cenozoic evolution of the Tibetan Plateau
Di-Cheng Zhu,Zhidan Zhao,Yaoling Niu,Yaoling Niu,Yildirim Dilek,Yildirim Dilek,Zengqian Hou,Xuanxue Mo +7 more
TL;DR: This paper reviewed and reevaluated these hypotheses in light of new data from Tibet including the distribution of major tectonic boundaries and suture zones, basement rocks and their sedimentary covers, magmatic suites, and detrital zircon constraints from Paleozoic metasedimentary rocks.
Journal ArticleDOI
Mediterranean extension and the Africa‐Eurasia collision
Laurent Jolivet,Claudio Faccenna +1 more
TL;DR: A number of tectonic events occurred contemporaneously in the Mediterranean region and the Middle East 30-25 Myr ago as discussed by the authors, which are contemporaneous to or immediately followed a strong reduction of the northward absolute motion of Africa.
Journal ArticleDOI
Late Cenozoic exhumation of the Cascadia accretionary wedge in the Olympic Mountains, northwest Washington State
TL;DR: In this paper, the apatite fission track data was used to determine the exhumation history of the Olympic subduction complex, an uplifted part of the modern Cascadia accretionary wedge.
Journal ArticleDOI
Exhumation of high-pressure metamorphic rocks in a subduction channel: A numerical simulation
TL;DR: In this article, numerical simulations provide insight into the self-organizing large-scale flow patterns and temperature field of subduction zones, primarily controlled by rheology, phase transformations, fluid budget, and heat transfer.
Journal ArticleDOI
Geophysical‐geological transect and tectonic evolution of the Swiss‐Italian Alps
TL;DR: In this paper, a complete Alpine cross section integrates numerous seismic reflection and refraction profiles, across and along strike, with published and new field data, while structural features at intermediate levels are largely depicted according to the results of three-dimensional models making use of seismic and field geological data.
References
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Journal ArticleDOI
Mechanics of fold-and-thrust belts and accretionary wedges
TL;DR: In this article, a simple analytical theory that predicts the critical tapers of subaerial and submarine Coulomb wedges is developed and tested quantitatively in three ways: First, laboratory model experiments with dry sand match the theory.
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Extensional collapse of orogens
TL;DR: The extensional collapse of orogens offers a partial explanation for why oceans cyclically close and reopen in roughly the same places, preservation of very high pressure metamorphic rocks, for the return of orogenic large crustal thicknesses to normal without very much erosional denudation.
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Dynamics of orogenic wedges and the uplift of high-pressure metamorphic rocks
TL;DR: In this paper, the authors model a sink-shaped continua with a rigid buttress behind and a subducting litho-spheric slab beneath, where the gravity forces generated by the wedge geometry balance the traction exerted on its underside by the sink.
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Finite strain calculations of continental deformation .2. comparison with the india-asia collision zone
TL;DR: In this article, a thin viscous sheet model for deformation of continental lithosphere subjected to an indenting boundary condition yield distributions of crustal thickness, of stress and strain rate, and of latitudinal displacements that may be compared with observations in the India-Asia collision zone.