2006
DOI: 10.1016/j.epsl.2006.04.005
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Topographic controls on dike injection in volcanic rift zones

Abstract: Abstract:Dike emplacement in volcanic rift zones is often associated with the injection of "bladelike" dikes, which propagate long distances parallel to the rift, but frequently remain trapped at depth and erupt only near the tip of the dike. Over geologic time, this style of dike injection implies that a greater percentage of extension is accommodated by magma accretion at depth than near the surface. In this study, we investigate the evolution of faulting, topography, and stress state in volcanic rift zones … Show more

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Cited by 46 publications
(53 citation statements)
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“…The greater width of the active zone of faulting, shown from the maximum in seismicity intensity, than the width of the zone of vents is consistent with formation of 60-degree dipping normal faults that dip inwards and towards a central zone of diking (Rubin and Pollard, 1988;Behn et al, 2006). Along the western margin of the rift valley the correlation between vents and earthquakes is relatively poor.…”
Section: Spatial Distributionmentioning
confidence: 81%
“…The greater width of the active zone of faulting, shown from the maximum in seismicity intensity, than the width of the zone of vents is consistent with formation of 60-degree dipping normal faults that dip inwards and towards a central zone of diking (Rubin and Pollard, 1988;Behn et al, 2006). Along the western margin of the rift valley the correlation between vents and earthquakes is relatively poor.…”
Section: Spatial Distributionmentioning
confidence: 81%
“…These propagating dikes are sometimes accompanied by fissural eruptions (e.g., Einarsson & Brandsdóttir 1980). Dikes are characterized by uplift adjacent to the dike intrusion zone; faulted dikes show subsidence on the hanging-wall side, but the asymmetry is smaller than that predicted by fault slip (e.g., Rubin & Pollard 1988, Behn et al 2006. Thus, parallel zones of uplift, comparatively small seismic moment release, and slowly migrating swarms of volcano-tectonic earthquakes characterize dike intrusions.…”
Section: Insarmentioning
confidence: 99%
“…(b) Magmatic and faulting processes achieving plate boundary deformation in response to far-field extensional forces and buoyancy forces of lateral density contrasts (magma, topography, crustal thinning, mantle thinning). Vertical crustal movements predicted by dike intrusion alone are shown above the rift valley topography (vertical scale in meters; after Behn et al 2006). Interstitial mantle melt percolates upward along pressure gradients and then ponds in magma chambers.…”
Section: Introductionmentioning
confidence: 99%
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“…Fractional crystallization of basaltic magma rather than anatexis of continental crust was the major source for the silicic magmas of the Afar and rift valley margins Peccerillo et al, 2003;Peccerillo et al, 2007;Ayalew and Gibson, 2009;Rooney et al, 2012b). A lessened magma supply rate, resulting in magmatic intrusion at greater depths and slower cooling (Behn et al, 2006), fostered crystal fractionation processes together with lithospheric assimilation. Additionally, rift faulting and fissuring within the continental crust facilitated shallow-level magmatic intrusion and differentiation (Antonellini and Cambray, 1992), together with stagnation of laterally migrating magma in the footwall of the faults (Bonini et al, 2001).…”
Section: Stage 2: Tectonic Stretchingmentioning
confidence: 99%