Strain localization at the margins of strong lithospheric domains: Insights from analog models

Strain localization at the margins of strong lithospheric domains: Insights from analog models

The lateral variation of the mechanical properties of continental lithosphere is an important factor controlling the localization of deformation and thus the deformation history and geometry of intraplate mountain belts. A series of three‐layer lithospheric‐scale analog models, with a strong domain...

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Published in:Tectonics (Washington, D.C.) Vol. 34; no. 3; pp. 396 - 412
Main Authors: Calignano, Elisa, Sokoutis, Dimitrios, Willingshofer, Ernst, Gueydan, Frédéric, Cloetingh, Sierd
Format: Journal Article
Language:English
Published: Washington Blackwell Publishing Ltd 01-03-2015
American Geophysical Union (AGU)
Subjects:
analog modeling
Analog models
continental lithosphere
Deformation
Earth Sciences
Heterogeneity
Lithosphere
lithosphere heterogeneity
Localization
Magma
Sciences of the Universe
Strain
Tarim Basin
Tectonics
Topography
China, People's Rep., Xinjiang, Tarim Basin
lithosphere heterogeneity
continental lithosphere
analog modeling
topography
Tarim Basin
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Summary:The lateral variation of the mechanical properties of continental lithosphere is an important factor controlling the localization of deformation and thus the deformation history and geometry of intraplate mountain belts. A series of three‐layer lithospheric‐scale analog models, with a strong domain (SD) embedded at various depths, are presented to investigate the development of topography and deformation patterns by having lateral heterogeneities within a weak continental lithosphere. The experiments, performed at a constant velocity and under normal gravity, indicate that the presence or absence of the SD controls whether deformation is localized or distributed at a lithospheric scale. Deformation and topography localize above the edges of the SD, while the SD region itself is characterized by minor amounts of surficial deformation and topography. The depth of the SD (within the ductile crust, ductile mantle lithosphere, or both) controls the pattern of deformation and thus the topography. The presence of a SD in the ductile crust or in the mantle results in limited surficial topographic effects but large variations in the Moho topography. Strong Moho deflection occurs when the SD is in the ductile crust, while the Moho remains almost flat when the SD is in the mantle. When the SD occupies the ductile lithosphere, the SD is tilted. These analog experiments provide insights into intraplate strain localization and could in particular explain the topography around the Tarim Basin, a lithospheric‐scale heterogeneity north of the India‐Asia collision zone. Key Points Analog models investigate strain localization in intraplate settings Strain localizes at the margins of strong lithospheric domains Narrow orogenic belts delimit a stable, low‐relief region
Bibliography:ark:/67375/WNG-5QD5L96F-P
European Union FP and Marie Curie ITN "Topomod" - No. 264517
ArticleID:TECT20250
istex:C8D4A294913714F7B899C44E0DDFFE7BFF4AFE78
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0278-7407
1944-9194
DOI:10.1002/2014TC003756