Numerical simulations of seismicity-induced fluid flow in the Tjörnes Fracture Zone, Iceland

Lupi, Matteo; Geiger, Sebastian; Graham, Colin M.

doi:10.1029/2010jb007732

Cited by 33 publications

(17 citation statements)

References 78 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…exponentially) dependent on the effective normal stress acting on steeply dipping fractures (e.g. Sibson (1990); Rice (1992) ;Miller et al (2004);Sibson (2007)) and vertical diffusion and advection of fast-migrating deep fluids further decrease the effective normal stress at shallower crustal depths (Sibson, 1992;Cox and Ruming, 2004;Lupi et al, 2011). Our Coulomb study provides a first estimate of the variations of normal and shear stresses imposed by the mega-thrust slip.…”

Section: Discussionmentioning

confidence: 92%

Short-lived tectonic switch mechanism for long-term pulses of volcanic activity after mega-thrust earthquakes

Lupi

Miller

2014

Solid Earth

Self Cite

View full text Add to dashboard Cite

Abstract. Eruptive rates in volcanic arcs increase significantly after subduction mega-thrust earthquakes. Over short to intermediate time periods the link between mega-thrust earthquakes and arc response can be attributed to dynamic triggering processes or static stress changes, but a fundamental mechanism that controls long-term pulses of volcanic activity after mega-thrust earthquakes has not been proposed yet.Using geomechanical, geological, and geophysical arguments, we propose that increased eruption rates over longer timescales are due to the relaxation of the compressional regime that accompanies mega-thrust subduction zone earthquakes. More specifically, the reduction of the horizontal stress σ h promotes the occurrence of short-lived strike-slip kinematics rather than reverse faulting in the volcanic arc. The relaxation of the pre-earthquake compressional regime facilitates magma mobilisation by providing a short-circuit pathway to shallow depths by significantly increasing the hydraulic properties of the system. The timescale for the onset of strike-slip faulting depends on the degree of shear stress accumulated in the arc during inter-seismic periods, which in turn is connected to the degree of strain-partitioning at convergent margins.We performed Coulomb stress transfer analysis to determine the order of magnitude of the stress perturbations in present-day volcanic arcs in response to five recent megathrust earthquakes; the 2005 M8.6, 2007 M8.5, and 2007 M7.9 Sumatra earthquakes; the 2010 M8.8 Maule, Chile earthquake; and the 2011 M9.0 Tohoku, Japan earthquake. We find that all but one the shallow earthquakes that occurred in the arcs of Sumatra, Chile and Japan show a marked lateral component. We suggests that the long-term response of volcanic arcs to subduction zone mega-thrust earthquakes will be manifested as predominantly strike-slip seismic events, and that these future earthquakes may be followed closely by indications of rising magma to shallower depths, e.g. surface inflation and seismic swarms.

show abstract

Section: Discussionmentioning

confidence: 92%

Short-lived tectonic switch mechanism for long-term pulses of volcanic activity after mega-thrust earthquakes

Lupi

Miller

2014

Solid Earth

Self Cite

View full text Add to dashboard Cite

show abstract

“…First, several lines of evidence indicate that high permeability is localized in the upper crust and has a limited lifetime, ranging 10 0~1 0 3 years (Ingebritsen and Manning, 2010). This short-lived high permeability is the key to form ore deposits (Cathles and Shannon, 2007;Ingebritsen and Appold, 2012;Liu, 2011;Lupi et al, 2011;Weatherley and Henley, 2013), and therefore…”

Section: Key Assumptionsmentioning

confidence: 99%

Fluid focusing and its link to vertical morphological zonation at the Dajishan vein-type tungsten deposit, South China

Liu

Xing

Zhang

2014

Ore Geology Reviews

View full text Add to dashboard Cite

Five-floor vertical zonation in vein morphology is a common phenomenon in exo-contact vein-type tungsten deposits of South China and has been widely applied for practical exploration, but the causative mechanisms are poorly understood. We combine fractal methods and finite element based numerical analysis to investigate the link between the fluid focusing and the vertical morphological characteristics at the Dajishan tungsten deposit and to determine vein growth mechanisms. Fractal analysis of vein morphology indicates that the growth mechanisms of veins in the lower part of ore bodies were mainly controlled by growth rate. Anisotropic permeability tensor method is applied to evaluate the anisotropic flow behaviours in joints. Numerical experiments on permeability ratio and aspect ratio controlled by stress state indicate that the NWW-striking joints in the host rock significantly affect the fluid focusing in these joints and the other potential conduits.The higher permeability and aspect ratios in the lower levels of the joint systems lead to the more fluid focusing in the lower part of ore bodies, which delivers more fluids required for precipitating silica. The five-floor zonation at this deposit is related to the regional tectonic evolution from the Indosinian (257~205 Ma) to Yanshanian (205~135 Ma) in South China. This paper may also help to better understand the vertical morphological zonation in this type of tungsten deposits in China.

show abstract

“…14), a close association with fracturing and regional evidence of a Pennsylvanian-Permian timing for hydrothermal fluids (Gregg 1985;Leach & Rowan 1986;Shelton et al 1986;Brannon et al 1996) all support an idea that fluid flow could be tectonically valved (e.g. Sibson 1981Sibson , 1987Sibson , 2003Sibson et al 1988;Cox 2010;Lupi et al 2011) during deformation of the Ouachita foreland (Arkoma Basin).…”

Section: Hydrothermal Systemmentioning

confidence: 71%

What controls porosity in cherty fine-grained carbonate reservoir rocks? Impact of stratigraphy, unconformities, structural setting and hydrothermal fluid flow: Mississippian, SE Kansas

Ramaker

Goldstein

Franseen

et al. 2014

View full text Add to dashboard Cite

The localization and heterogeneity of carbonate oil and gas reservoirs are commonly controlled by extensive diagenetic alteration. Mississippian (Osagean-Meramecian) strata in SE Kansas are investigated to determine structural, relative sea-level, diagenetic and depositional controls on stratigraphy, lithofacies distribution and reservoir character. This project shows how karst horizons and fractured zones can provide preferred conduits for hydrothermal porosity enhancement. Thus, enhanced porosity in karst horizons may have a late origin, with chemically aggressive hydrothermal fluids following preferred pathways of fluid flow.Lithofacies include echinoderm-rich bioclastic wacke-packstone, sponge-spicule-rich packstone, dolomitic bioclastic wackestone, argillaceous dolomite, tripolitic chert and chert breccia. Four cores are used to construct a 10 mile-long SW-NE-trending cross-section, showing three genetic units deposited on a mostly south-facing distally steepened ramp, with periods of upwelling.Paragenesis reveals that early and late dissolution enhances porosity in chert and carbonate facies. Fluid inclusion microthermometry from megaquartz and baroque dolomite reveals variable but increasing homogenization temperatures (70-160 8C) and increasing salinity through time. The best reservoirs may be controlled by depositional setting that led to large amounts of chert, alteration associated with subaerial exposure, and a hydrological and structural setting that led to enhanced hydrothermal fluid flow for later dissolution.

show abstract

Numerical simulations of seismicity-induced fluid flow in the Tjörnes Fracture Zone, Iceland

Cited by 33 publications

References 78 publications

Short-lived tectonic switch mechanism for long-term pulses of volcanic activity after mega-thrust earthquakes

Short-lived tectonic switch mechanism for long-term pulses of volcanic activity after mega-thrust earthquakes

Fluid focusing and its link to vertical morphological zonation at the Dajishan vein-type tungsten deposit, South China

What controls porosity in cherty fine-grained carbonate reservoir rocks? Impact of stratigraphy, unconformities, structural setting and hydrothermal fluid flow: Mississippian, SE Kansas

Contact Info

Product

Resources

About