Localization of shear along a lithospheric strength discontinuity: Application of a continuous deformation model to the boundary between Tibet and the Tarim Basin
A marked contrast in strength (or viscosity) within a continuously deforming zone can lead to concentration of shear strain in the weaker material adjacent to the boundary between them, but localization comparable to the width of the Altyn Tagh shear zone requires an additional weakening process. During numerical experiments on a thin viscous sheet indented by a rigid object, a shear zone develops adjacent to a strong region mimicking the Tarim Basin, when the boundary between the weak and strong regions is oblique to the orientation of convergence. The width of this shear zone narrows with increased strain, and for comparable penetration by the indenter, the strain is more concentrated for larger values of n, the exponent that relates strain rate to a power of stress, and for smaller values of the Argand number Ar, a measure of buoyancy-induced stress relative to viscous stress. Increasing concentration of shear occurs as the indentation develops without weakening because of a change in material properties. Additional localization develops with the inclusion of strain-dependent weakening associated with, for instance, a temperature increase due to shear heating. For such localization to scale to the width of the Altyn Tagh fault zone of Tibet, the initial temperature near the Moho must be relatively low (&\#8764;600∞C), and a large value of n (&\#8764;10) is required. This suggests that deformation there is described by a high-strength flow law, such as that proposed by Evans and Goetze (1979), in which the lithosphere would deform approximately plastically.
%0 Journal Article
%1 Dayem:2009
%A Dayem, Katherine E.
%A Houseman, Gregory A.
%A Molnar, Peter
%D 2009
%I AGU
%J Tectonics
%K 3225 8110 8159 9320 Altyn Asia Continental Geographic Geophysics: Location: Mathematical Numerical Rheology: Tagh Tectonophysics: analysis; and approximations continental crust deformation; fault; general; lithosphere; sheet; tectonics: thin viscous
%N 3
%T Localization of shear along a lithospheric strength discontinuity: Application of a continuous deformation model to the boundary between Tibet and the Tarim Basin
%U http://dx.doi.org/10.1029/2008TC002264
%V 28
%X A marked contrast in strength (or viscosity) within a continuously deforming zone can lead to concentration of shear strain in the weaker material adjacent to the boundary between them, but localization comparable to the width of the Altyn Tagh shear zone requires an additional weakening process. During numerical experiments on a thin viscous sheet indented by a rigid object, a shear zone develops adjacent to a strong region mimicking the Tarim Basin, when the boundary between the weak and strong regions is oblique to the orientation of convergence. The width of this shear zone narrows with increased strain, and for comparable penetration by the indenter, the strain is more concentrated for larger values of n, the exponent that relates strain rate to a power of stress, and for smaller values of the Argand number Ar, a measure of buoyancy-induced stress relative to viscous stress. Increasing concentration of shear occurs as the indentation develops without weakening because of a change in material properties. Additional localization develops with the inclusion of strain-dependent weakening associated with, for instance, a temperature increase due to shear heating. For such localization to scale to the width of the Altyn Tagh fault zone of Tibet, the initial temperature near the Moho must be relatively low (&\#8764;600∞C), and a large value of n (&\#8764;10) is required. This suggests that deformation there is described by a high-strength flow law, such as that proposed by Evans and Goetze (1979), in which the lithosphere would deform approximately plastically.
%@ 0278-7407
@article{Dayem:2009,
abstract = {A marked contrast in strength (or viscosity) within a continuously deforming zone can lead to concentration of shear strain in the weaker material adjacent to the boundary between them, but localization comparable to the width of the Altyn Tagh shear zone requires an additional weakening process. During numerical experiments on a thin viscous sheet indented by a rigid object, a shear zone develops adjacent to a strong region mimicking the Tarim Basin, when the boundary between the weak and strong regions is oblique to the orientation of convergence. The width of this shear zone narrows with increased strain, and for comparable penetration by the indenter, the strain is more concentrated for larger values of n, the exponent that relates strain rate to a power of stress, and for smaller values of the Argand number Ar, a measure of buoyancy-induced stress relative to viscous stress. Increasing concentration of shear occurs as the indentation develops without weakening because of a change in material properties. Additional localization develops with the inclusion of strain-dependent weakening associated with, for instance, a temperature increase due to shear heating. For such localization to scale to the width of the Altyn Tagh fault zone of Tibet, the initial temperature near the Moho must be relatively low (\&{\#}8764;600∞C), and a large value of n (\&{\#}8764;10) is required. This suggests that deformation there is described by a high-strength flow law, such as that proposed by Evans and Goetze (1979), in which the lithosphere would deform approximately plastically.},
added-at = {2010-08-12T23:06:12.000+0200},
author = {Dayem, Katherine E. and Houseman, Gregory A. and Molnar, Peter},
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bdsk-url-1 = {http://dx.doi.org/10.1029/2008TC002264},
biburl = {https://www.bibsonomy.org/bibtex/2f61aa317dba1f6f78e3e7d07a2d8240a/jkmacc},
date-added = {2010-04-02 18:08:53 -0600},
date-modified = {2010-04-02 18:08:53 -0600},
do = {10.1029/2008TC002264},
interhash = {860da7522e4f3edc6cce1835f4e55543},
intrahash = {f61aa317dba1f6f78e3e7d07a2d8240a},
isbn = {0278-7407},
journal = {Tectonics},
keywords = {3225 8110 8159 9320 Altyn Asia Continental Geographic Geophysics: Location: Mathematical Numerical Rheology: Tagh Tectonophysics: analysis; and approximations continental crust deformation; fault; general; lithosphere; sheet; tectonics: thin viscous},
month = {05},
number = 3,
publisher = {AGU},
sp = {TC3002},
timestamp = {2010-08-12T23:06:15.000+0200},
title = {Localization of shear along a lithospheric strength discontinuity: Application of a continuous deformation model to the boundary between Tibet and the Tarim Basin},
ty = {JOUR},
url = {http://dx.doi.org/10.1029/2008TC002264},
volume = 28,
year = 2009
}