Kīlauea summit eruption—Lava returns to Halemaʻumaʻu

2017 ◽  
Author(s):  
Janet L. Babb ◽  
Stephen M. Wessells ◽  
Christina A. Neal
Keyword(s):  
Summit Eruption

scholarly journals Rheological control on the dynamics of explosive activity in the 2000 summit eruption of Mt. Etna

Solid Earth ◽  
2010 ◽  
Vol 1 (1) ◽  
pp. 61-69 ◽  
Author(s):  
D. Giordano ◽  
M. Polacci ◽  
P. Papale ◽  
L. Caricchi
Keyword(s):  
Solid Particles ◽  
Magma Ascent ◽  
Explosive Activity ◽  
Summit Eruption ◽  
Intermediate Phases ◽  
Strombolian Eruption ◽  
Mt Etna ◽  
Order Of Magnitude ◽  
Crystal Content ◽  
Fire Fountain

Abstract. In the period from January to June 2000 Mt. Etna exhibited an exceptional explosive activity characterized by a succession of 64 Strombolian and fire-fountaining episodes from the summit South-East Crater. Textural analysis of the eruptive products reveals that the magma associated with the Strombolian phases had a much larger crystal content (>55 vol%) with respect to the magma discharged during the fire-fountain phases (~35 vol%). Rheological modelling shows that the crystal-rich magma falls in a region beyond a critical crystal content where small addition of solid particles causes an exponential increase of the effective magma viscosity. When implemented into the modeling of steady magma ascent dynamics (as assumed for the fire-fountain activity), a large crystal content as the one found for products of Strombolian eruption phases results in a one order of magnitude decrease of mass flow-rate, and in the onset of conditions where small heterogeneities in the solid fraction carried by the magma translate into highly unsteady eruption dynamics. We argue that crystallization on top of the magmatic column during the intermediate phases when magma was not discharged favoured conditions corresponding to Strombolian activity, with fire-fountain activity resuming after removal of the highly crystalline top. The numerical simulations also provide a consistent interpretation of the association between fire-fountain activity and emergence of lava flows from the crater flanks.

scholarly journals Remobilization of silicic intrusion by mafic magmas during the 2010 Eyjafjallajökull eruption

Solid Earth ◽  
2011 ◽  
Vol 2 (2) ◽  
pp. 271-281 ◽  
Author(s):  
O. Sigmarsson ◽  
I. Vlastelic ◽  
R. Andreasen ◽  
I. Bindeman ◽  
J.-L. Devidal ◽  
...  
Keyword(s):  
Mixing Process ◽  
Summit Eruption ◽  
Magma Mingling ◽  
Dependent Change ◽  
Basaltic Magmas ◽  
Time Dependent Change ◽  
Mafic Magmas ◽  
Deep Seismicity ◽  
Compositional Changes ◽  
Binary Mixing

Abstract. Injection of basaltic magmas into silicic crustal holding chambers and subsequent magma mingling or mixing is a process that has been recognised since the late seventies as resulting in explosive eruptions. Detailed reconstruction and assessment of the mixing process caused by such intrusion is now possible because of the exceptional time-sequence sample suite available from the tephra fallout of the 2010 summit eruption at Eyjafjallajökull volcano in South Iceland. Fallout from 14 to 19 April contains three glass types of basaltic, intermediate, and silicic compositions recording rapid magma mingling without homogenisation, involving evolved FeTi-basalt and silicic melt with composition identical to that produced by the 1821–1823 AD Eyjafjallajökull summit eruption. The time-dependent change in the magma composition suggests a binary mixing process with changing end-member compositions and proportions. Beginning of May, a new injection of primitive basalt was recorded by deep seismicity, appearance of Mg-rich olivine phenocrysts together with high sulphur dioxide output and presence of sulphide crystals. Thus, the composition of the basaltic injection became more magnesian and hotter with time provoking changes in the silicic mixing end-member from pre-existing melt to the solid carapace of the magma chamber. Finally, decreasing proportions of the mafic end-member with time in the erupted mixed-magma demonstrate that injections of Mg-rich basalt was the motor of the 2010 Eyjafjallajökull explosive eruption, and that its decreasing inflow terminated the eruption. Significant quantity of silicic magma is thus still present in the interior of the volcano. Our results show that detailed sampling during the entire eruption was essential for deciphering the complex magmatic processes at play, i.e. the dynamics of the magma mingling and mixing. Finally, the rapid compositional changes in the eruptive products suggest that magma mingling occurs on a timescale of a few hours to days whereas the interval between the first detected magma injection and eruption was several months.

scholarly journals Dynamic magma mixing revealed by the 2010 Eyjafjallajökull eruption

2011 ◽  
Vol 3 (2) ◽  
pp. 591-613 ◽  
Author(s):  
O. Sigmarsson ◽  
I. Vlastelic ◽  
R. Andreasen ◽  
I. Bindeman ◽  
J.-L. Devidal ◽  
...  
Keyword(s):  
Magma Mixing ◽  
Mixing Process ◽  
Summit Eruption ◽  
Magma Mingling ◽  
Dependent Change ◽  
Basaltic Magmas ◽  
Time Dependent Change ◽  
Deep Seismicity ◽  
Compositional Changes ◽  
Binary Mixing

Abstract. Injection of basaltic magmas into silicic crustal holding chambers and subsequent mixing of the two components is a process that has been recognised since the late seventies to have resulted in explosive eruptions. Detailed reconstruction and assessment of the mixing process caused by such intrusion is now possible because of the exceptional time-sequence sample suite available from the tephra fallout of the 2010 summit eruption at Eyjafjallajökull volcano in South Iceland. From 14 to 19 April the tephra contains three glass types of basaltic, intermediate, and silicic compositions recording rapid magma mingling without homogenisation, involving evolved FeTi-basalt and dacite with composition identical to that produced by the 1821–1823 AD Eyjafjallajökull summit eruption. The time-dependent change in the magma composition suggests a binary mixing process with changing end-member compositions and proportions, or dynamic magma mixing. Beginning of May, a new injection of deep-derived basalt was recorded by deep seismicity, appearance of magnesium-rich olivine phenocrysts together with high sulphur output and presence of sulphide crystals. Thus the composition of the basaltic injection became more primitive and hotter with time prowoking changes in the silicic mixing end-member from pre-existing melt to the solid carapace of the magma chamber. Decreasing proportions of the mafic end-member with time in the erupted mixed-magma, demonstrate that injections of Mg-rich basalt was the motor of the 2010 Eyjafjallajökull explosive eruption, and that its decreasing inflow terminated the eruption. Significant quantity of silicic magma is thus still present in the interior of the volcano. Our results show that detailed sampling during the entire eruption was essential for deciphering the complex magmatic processes at play, namely the dynamic magma mixing. Finally, the rapid compositional changes in the eruptive products suggest that magma mingling occurs on a timescale of few hours to days whereas the interval between the first detected magma injection and eruption was several months.

scholarly journals Rheological control on the dynamics of explosive activity in the 2000 summit eruption of Mt. Etna

2010 ◽  
Vol 2 (1) ◽  
pp. 19-42 ◽  
Author(s):  
D. Giordano ◽  
M. Polacci ◽  
P. Papale ◽  
L. Caricchi
Keyword(s):  
Solid Particles ◽  
Magma Ascent ◽  
Explosive Activity ◽  
Summit Eruption ◽  
Intermediate Phases ◽  
Strombolian Eruption ◽  
Mt Etna ◽  
Order Of Magnitude ◽  
Crystal Content ◽  
Fire Fountain

Abstract. In the period from January to June 2000 Mt. Etna exhibited an exceptional explosive activity characterised by a succession of 64 Strombolian and fire-fountaining episodes from the summit South-East crater. Textural analysis of the eruptive products reveals that the magma associated with the Strombolian phases had a much larger crystal content >55 vol% with respect to the magma discharged during the fire-fountain phases (~35 vol%). Rheological modelling shows that the crystal-rich magma falls in a region beyond a critical crystal content where the small addition of solid particles causes an exponential increase of the effective magma viscosity. When implemented into the modelling of steady magma ascent dynamics, the large crystal content of the Strombolian eruption phases results in a one order of magnitude decrease of mass flow-rate, and in the onset of conditions where small heterogeneities in the solid fraction carried by the magma translate into highly unsteady eruption dynamics. Therefore, we argue that crystallization on top of the magmatic column during the intermediate phases when magma was not discharged caused the conditions to shift from fire-fountain to Strombolian activity. The numerical simulations also provide a consistent interpretation of the association between fire-fountain activity and emergence of lava flows from the crater flanks.

scholarly journals Simulations and parameterisation of shallow volcanic plumes of Piton de la Fournaise, Réunion Island, using Méso-NH version 4-9-3

2015 ◽  
Vol 8 (5) ◽  
pp. 1427-1443 ◽  
Author(s):  
S. G. Sivia ◽  
F. Gheusi ◽  
C. Mari ◽  
A. Di Muro
Keyword(s):  
Lower Troposphere ◽  
Air Entrainment ◽  
Eddy Diffusivity ◽  
Specific Humidity ◽  
Volcanic Plume ◽  
Summit Eruption ◽  
Piton De La Fournaise ◽  
Volcanic Plumes ◽  
Eddy Simulation ◽  
Convective Motions

Abstract. In mesoscale models (resolution ~ 1 km) used for regional dispersion of pollution plumes the volcanic heat sources and emissions of gases and aerosols, as well as the induced atmospheric convective motions, are all sub-grid-scale processes (mostly true for weak effusive eruptions) which need to be parameterised. We propose a modified formulation of the EDMF scheme (eddy diffusivity/mass flux) proposed by Pergaud et al. (2009) which is based on a single sub-grid updraft model. It is used to represent volcano induced updrafts tested for a case study of the January 2010 summit eruption of Piton de la Fournaise (PdF) volcano. The validation of this modified formulation using a reference large eddy simulation (LES) focuses on the ability of the model to transport tracer concentrations up to 1–2 km above the ground in the lower troposphere as is the case of majority of PdF eruptions. The modelled volcanic plume agrees reasonably with the profiles of SO2 (sulfur dioxide) tracer concentrations and specific humidity found from the reference LES. Sensitivity tests performed for the modified formulation of the EDMF scheme emphasise the sensitivity of the parameterisation to ambient fresh air entrainment at the plume base.

scholarly journals Catalog of Tephra samples from Kilauea's summit eruption, March-December 2008

2009 ◽  
Author(s):  
Kelly M. Wooten ◽  
Carl R. Thornber ◽  
Tim R. Orr ◽  
Jennifer F. Ellis ◽  
Frank A. Trusdell
Keyword(s):  
Summit Eruption

scholarly journals The first five years of Kīlauea’s summit eruption in Halema‘uma‘u Crater, 2008–2013

Fact Sheet ◽  
2013 ◽  
Author(s):  
Matthew R. Patrick ◽  
Tim R. Orr ◽  
A.J. Sutton ◽  
Tamar Elias ◽  
Donald A. Swanson
Keyword(s):  
Summit Eruption
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