Rheological controls on the eruption potential and style of an andesite volcano: A case study from Mt. Ruapehu, New Zealand

Kilgour, Geoffrey N; Mader, Heidy M; Blundy, Jon; Brooker, Richard A.

doi:10.1016/j.jvolgeores.2016.08.001

Cited by 9 publications

(4 citation statements)

References 93 publications

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“…Unfortunately, there were no geodetic measurements made prior to the eruption, nor was there adequate gas monitoring (we might expect an increase in CO 2 flux during this period), which could confirm this hypothesis. In addition, one would normally expect a commensurate increase in volcano seismicity during dike ascent; however, Kilgour et al () show that magma ascent at Ruapehu is unlikely to generate any significant volume expansion due to gas exsolution until very shallow depths—possibly as shallow as 1 km beneath the vent area—due to the low H 2 O content (<2 wt %) of the magmas.…”

Section: Discussionmentioning

confidence: 99%

“…The two largest historical eruptions, in 1945 and 1995–1996, were each of the order of 0.1 km 3 of erupted material (Johnston et al, ), while other historical eruptions were significantly smaller, for example, 2007 (Kilgour et al, ). This means that small volumes of magma are able to ascend and erupt within the volcano, and clues to the controls on the high rate of activity are detailed in Kilgour et al (, ).…”

Section: Introductionmentioning

confidence: 99%

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Magmatic Triggering of Earthquakes on Distal Faults as a Potential Medium‐Term Warning Signal From Ruapehu Volcano

Hurst

Kilgour

Hamling

2018

Geophysical Research Letters

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A major eruption sequence of Ruapehu volcano began on 17 September 1995, with only hours of local precursory seismicity. However, from about 10 to 5 months prior to the eruption, an unusually high number of tectonic earthquakes occurred between 15 and 20 km west of Ruapehu. Diffusion chronometry of zoned crystals within erupted scoria from the 1995 eruptions of Ruapehu provide a petrological timescale of magmatic processes before the eruption. This timescale coincides with the seismicity to the west of Ruapehu. Stress modeling shows that stress changes due to movement of newly mixed magma from a sill under Ruapehu would have significantly added to the stress on preexisting faults, thereby providing a mechanism to explain the observed pre‐eruption seismicity. This shows that tectonic earthquakes in the vicinity of an active volcano may be an indication of magma movement and should be viewed as a possible eruption precursor.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Magmatic Triggering of Earthquakes on Distal Faults as a Potential Medium‐Term Warning Signal From Ruapehu Volcano

Hurst

Kilgour

Hamling

2018

Geophysical Research Letters

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“…In addition, the tectonics of southwestern New Zealand are dominated by oblique convergence at the Puysegur subduction interface, where the Mw 7.8 Dusky Sound earthquake occurred on July 15, 2009 . New Zealand's tectonics are incredibly active, and interseismic accumulated strain is released by various mechanisms such as instantaneous earthquake ruptures Elliott et al 2012), volcanic explosions (Chardot et al 2015;Kilgour et al 2016), ongoing postseismic mechanisms (Motagh et al 2014), and aseismic slow-slip events (SSEs; McCaffrey et al 2008;Wallace and Beavan 2006).…”

Section: Introductionmentioning

confidence: 99%

Coseismic and postseismic deformation associated with the 2016 Mw 7.8 Kaikoura earthquake, New Zealand: fault movement investigation and seismic hazard analysis

Jiang

Huang

Yuan

et al. 2018

Earth Planets Space

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The 2016 moment magnitude (Mw) 7.8 Kaikoura earthquake demonstrated that multiple fault segments can undergo rupture during a single seismic event. Here, we employ Global Positioning System (GPS) observations and geodetic modeling methods to create detailed images of coseismic slip and postseismic afterslip associated with the Kaikoura earthquake. Our optimal geodetic coseismic model suggests that rupture not only occurred on shallow crustal faults but also to some extent at the Hikurangi subduction interface. The GPS-inverted moment release during the earthquake is equivalent to a Mw 7.9 event. The near-field postseismic deformation is mainly derived from rightlateral strike-slip motions on shallow crustal faults. The afterslip did not only significantly extend northeastward on the Needles fault but also appeared at the plate interface, slowly releasing energy over the past 6 months, equivalent to a Mw 7.3 earthquake. Coulomb stress changes induced by coseismic deformation exhibit complex patterns and diversity at different depths, undoubtedly reflecting multi-fault rupture complexity associated with the earthquake. The Coulomb stress can reach several MPa during coseismic deformation, which can explain the trigger mechanisms of afterslip in two high-slip regions and the majority of aftershocks. Based on the deformation characteristics of the Kaikoura earthquake, interseismic plate coverage, and historical earthquakes, we conclude that Wellington is under higher seismic threat after the earthquake and great attention should be paid to potential large earthquake disasters in the near future.

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“…Note that under the condition of Φ ~ Φ m or Φ m = 1; Equation (6.65) reduces to the Phan-Thien and Pham (1997) model (see below). This approach was applied for example in Kilgour et al (2016) and Beckett et al (2014) where η l is the viscosity of the liquid phase and η r,c (Φ c ) is the relative viscosity of the crystal suspension and Φ b and Φ c are calculated with Equations (6.57) and (6.58). This approach was applied to estimate the viscosity of basaltic lava ows, using the crystal suspension as the effective medium (Rhéty et al 2017;Dietterich et al 2018;Chevrel et al 2019b).…”

Section: Three-phase Suspensions (Crystal + Bubble + Melt)mentioning

confidence: 99%

Magma / Suspension Rheology

Kolzenburg

Chevrel

Dingwell

2022

Reviews in Mineralogy and Geochemistry

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Rheological controls on the eruption potential and style of an andesite volcano: A case study from Mt. Ruapehu, New Zealand

Cited by 9 publications

References 93 publications

Magmatic Triggering of Earthquakes on Distal Faults as a Potential Medium‐Term Warning Signal From Ruapehu Volcano

Magmatic Triggering of Earthquakes on Distal Faults as a Potential Medium‐Term Warning Signal From Ruapehu Volcano

Coseismic and postseismic deformation associated with the 2016 Mw 7.8 Kaikoura earthquake, New Zealand: fault movement investigation and seismic hazard analysis

Magma / Suspension Rheology

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