Fault architecture and deformation processes within poorly lithified rift sediments, Central Greece

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• 作者：Sian  ; Loveless  ; ;   ; ^{s.loveless@uea.ac.uk} ; Victor  ; Bense ; Jenni  ; Turner
• 关键词：Mixed zone ; Fault architecture ; Poorly lithified sediment ; Particulate flow ; Cataclasis ; Grain rotation
• 刊名：Journal of Structural Geology
• 出版年：2011
• 出版时间：November 2011
• 年：2011
• 卷：33
• 期：11
• 页码：1554-1568
• 全文大小：4069 K

文摘

Deformation mechanisms and resultant fault architecture are primary controls on the permeability of faults in poorly lithified sediments. We characterise fault architecture using outcrop studies, hand samples, thin sections and grain-size data from a minor (1?0 m displacement) normal-fault array exposed within Gulf of Corinth rift sediments, Central Greece. These faults are dominated by mixed zones with poorly developed fault cores and damage zones. In poorly lithified sediment deformation is distributed across the mixed zone as beds are entrained and smeared. We find particulate flow aided by limited distributed cataclasis to be the primary deformation mechanism. Deformation may be localised in more competent sediments. Stratigraphic variations in sediment competency, and the subsequent alternating distributed and localised strain causes complexities within the mixed zone such as undeformed blocks or lenses of cohesive sediment, or asperities at the mixed zone/protolith boundary. Fault tip bifurcation and asperity removal are important processes in the evolution of these fault zones. Our results indicate that fault zone architecture and thus permeability is controlled by a range of factors including lithology, stratigraphy, cementation history and fault evolution, and that minor faults in poorly lithified sediment may significantly impact subsurface fluid flow.