Rate-and-state friction of epidote gouge under hydrothermal conditions and implications for the stability of subducting faults under greenschist metamorphic conditions

Epidote is a common hydrous mineral present in subduction zones subject to greenschist metamorphic conditions – and potentially an important control on the fault stability-instability transition observed under greenschist facies. We explore controls on this transition through shear experiments on si...

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Published inTectonophysics Vol. 890; p. 230497
Main Authors An, Mengke, Yin, Zhen-Yu, Zhang, Fengshou, Huang, Rui, Elsworth, Derek
Format Journal Article
LanguageEnglish
Published Elsevier B.V 07.11.2024
Subjects
Epidote gouge
Fault stability transition
Greenschist metamorphism
Rate-and-state friction
Subduction faults
Greenschist metamorphism
Rate-and-state friction
Epidote gouge
Fault stability transition
Subduction faults
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Abstract Epidote is a common hydrous mineral present in subduction zones subject to greenschist metamorphic conditions – and potentially an important control on the fault stability-instability transition observed under greenschist facies. We explore controls on this transition through shear experiments on simulated epidote gouge at temperatures of 100–500 °C, effective normal stresses of 100–300 MPa and pore fluid pressures of 30–75 MPa. We use rate-and-state friction to define these controls of temperature, effective stress and pore fluid pressure on gouge stability. Experimental results indicate that the epidote gouge is frictionally strong (μ ∼ 0.73) and the frictional strength is insensitive to variations in temperature or pressure. With increasing temperature, the epidote gouge exhibits a first transition from velocity-strengthening to velocity-weakening at sub-greenschist conditions (T < 100 °C) before transitioning to velocity-strengthening under greenschist metamorphic conditions (T > 300 °C). Elevating the pore fluid pressure or decreasing the effective stress promotes unstable sliding. The transition in gouge rheology at varied temperatures and pressures is explained by the competition between granular flow-induced gouge dilation and pressure solution-induced gouge compaction. Our results demonstrate that the rate-and-state frictional stability of epidote gouges support the potential for a fault stability-instability-stability transition for subduction under greenschist metamorphic conditions. •Epidote gouge is velocity-strengthening at T < 100 °C and > 400 °C but velocity-weakening at T = 200–300 °C.•Elevating the pore pressure or otherwise lowering the effective stress both enhance the velocity-weakening response.•Evolution of epidote gouge stability regimes are interpreted to result from competing granular flow and pressure solution.•Rate-and-state friction of epidote gouges support a stability-instability transition under subduction as greenschist facies.
AbstractList Epidote is a common hydrous mineral present in subduction zones subject to greenschist metamorphic conditions – and potentially an important control on the fault stability-instability transition observed under greenschist facies. We explore controls on this transition through shear experiments on simulated epidote gouge at temperatures of 100–500 °C, effective normal stresses of 100–300 MPa and pore fluid pressures of 30–75 MPa. We use rate-and-state friction to define these controls of temperature, effective stress and pore fluid pressure on gouge stability. Experimental results indicate that the epidote gouge is frictionally strong (μ ∼ 0.73) and the frictional strength is insensitive to variations in temperature or pressure. With increasing temperature, the epidote gouge exhibits a first transition from velocity-strengthening to velocity-weakening at sub-greenschist conditions (T < 100 °C) before transitioning to velocity-strengthening under greenschist metamorphic conditions (T > 300 °C). Elevating the pore fluid pressure or decreasing the effective stress promotes unstable sliding. The transition in gouge rheology at varied temperatures and pressures is explained by the competition between granular flow-induced gouge dilation and pressure solution-induced gouge compaction. Our results demonstrate that the rate-and-state frictional stability of epidote gouges support the potential for a fault stability-instability-stability transition for subduction under greenschist metamorphic conditions. •Epidote gouge is velocity-strengthening at T < 100 °C and > 400 °C but velocity-weakening at T = 200–300 °C.•Elevating the pore pressure or otherwise lowering the effective stress both enhance the velocity-weakening response.•Evolution of epidote gouge stability regimes are interpreted to result from competing granular flow and pressure solution.•Rate-and-state friction of epidote gouges support a stability-instability transition under subduction as greenschist facies.
ArticleNumber 230497
Author Huang, Rui
Yin, Zhen-Yu
Elsworth, Derek
Zhang, Fengshou
An, Mengke
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  organization: Department of Energy and Mineral Engineering, EMS Energy Institute and G3 Center, The Pennsylvania State University, University Park, PA 16802, USA
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Keywords Greenschist metamorphism
Rate-and-state friction
Epidote gouge
Fault stability transition
Subduction faults
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Snippet Epidote is a common hydrous mineral present in subduction zones subject to greenschist metamorphic conditions – and potentially an important control on the...
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elsevier
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Publisher
StartPage 230497
SubjectTerms Epidote gouge
Fault stability transition
Greenschist metamorphism
Rate-and-state friction
Subduction faults
Title Rate-and-state friction of epidote gouge under hydrothermal conditions and implications for the stability of subducting faults under greenschist metamorphic conditions
URI https://dx.doi.org/10.1016/j.tecto.2024.230497
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