Journal ArticleDOI
Volatile Abundances in Basaltic Magmas and Their Degassing Paths Tracked by Melt Inclusions
Nicole Métrich,Paul J. Wallace +1 more
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The abundances of CO2, H2O, S and halogens dissolved in basaltic magmas are strongly variable because their solubilities and ability to be fractionated in the vapor phase depend on several parameters such as pressure, temperature, melt composition and redox state as mentioned in this paper.Abstract:
The abundances of CO2, H2O, S and halogens dissolved in basaltic magmas are strongly variable because their solubilities and ability to be fractionated in the vapor phase depend on several parameters such as pressure, temperature, melt composition and redox state. Experimental and analytical studies show that CO2 is much less soluble in silicate melts compared to H2O (e.g., Javoy and Pineau 1991; Dixon et al. 1995). As much as 90% of the initial CO2 dissolved in basaltic melts may be already degassed at crustal depths, whereas H2O remains dissolved because of its higher solubility such that H2O contents of basaltic magmas at crustal depths may reach a few percents. Most subduction-related basaltic magmas are rich in H2O (up to 6–8 wt%; Sisson and Grove 1993; Roggensack et al. 1997; Newman et al. 2000; Pichavant et al. 2002; Grove et al. 2005) compared to mid-ocean ridge basalts (<1 wt%; Sobolev and Chaussidon 1996; Fischer and Marty 2005; Wallace 2005).
During magma movement towards the surface, exsolution of major volatile constituents (CO2, H2O) causes gas bubble nucleation, growth, and possible coalescence that exert a strong control on the dynamics of magma ascent and eruption (Anderson 1975; Sparks 1978; Tait et al. 1989). Gas bubbles have the ability to move faster than magma (Sparks 1978), particularly in low viscosity basaltic magmas. Bubble accumulation, coalescence and foam collapse give rise to differential transfer of gas slugs and periodic gas bursting (Strombolian activity; Jaupart and Vergniolle 1988, 1989) or periodic lava fountains (Vergniolle and Jaupart 1990; Philips and Wood 2001) depending on magma physical properties and ascent rate. It is also thought that strombolian and lava …read more
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Journal ArticleDOI
Petrologic Reconstruction of Magmatic System Variables and Processes
Jon D Blundy,Kathy Cashman +1 more
TL;DR: In this article, the authors present some of the current petrological techniques that can be used for studying eruptive products and for constraining key magmatic variables such as pressure, temperature, and volatile content.
Journal ArticleDOI
Rapid reequilibration of H2O and oxygen fugacity in olivine-hosted melt inclusions
TL;DR: In this paper, it was shown that, contrary to the widely held view, H 2 O loss or gain in melt inclusions is not limited by redox reactions and significant fluxes of H + through the host olivine are possible on very short time scales.
Journal ArticleDOI
Magmatic–hydrothermal origin of Nevada’s Carlin-type gold deposits
TL;DR: In this paper, the authors integrate microanalyses of ore minerals, experimental data that describe metal partitioning, and published age and isotopic data to suggest that the Carlin-type gold deposits in Nevada are sourced from magma.
Journal ArticleDOI
The Sulfur Budget in Magmas: Evidence from Melt Inclusions, Submarine Glasses, and Volcanic Gas Emissions
Paul J. Wallace,Marie Edmonds +1 more
TL;DR: The major magmatic volatile components (H2O, CO2, S, Cl, and F) play an important role in the formation, evolution, and eruption of magma as mentioned in this paper.
Journal ArticleDOI
Melt Inclusions in Basaltic and Related Volcanic Rocks
TL;DR: Melt inclusions are small parcels of melt trapped in crystals within magmatic systems, and are analogous to fluid inclusions formed by trapping of hydrothermal and other fluids during mineral growth in fluid-mineral systems as mentioned in this paper.
References
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Journal ArticleDOI
Magnesian andesite and dacite lavas from Mt. Shasta, northern California: products of fractional crystallization of H 2 O-rich mantle melts
Timothy L. Grove,Michael B. Baker,Richard C. Price,Stephen W. Parman,Linda T. Elkins-Tanton,Nilanjan Chatterjee,Othmar Müntener +6 more
TL;DR: In this paper, the major and trace element compositions of the Mt. Shasta stratocone lavas were investigated and it was found that the major element composition of the lavas can be explained through fractional crystallization, with subsequent mixing of a parent magma mixing of an H2O-rich primitive magnesian andesite (PMA).
Journal ArticleDOI
Silicate melt properties and volcanic eruptions
TL;DR: In this article, the role of speciation in the solubility and diffusivity of H2O and CO2 in silicate melts has been investigated, and the results showed that the complexity in the diffusion behavior of H 2O and the simplicity of CO2 are due to differences in the speciation reaction.
Journal ArticleDOI
The exsolution of magmatic hydrosaline chloride liquids
TL;DR: In this article, the authors identify the minimum volatile contents and the values of (Cl/H2O) at which a hydrosaline chloride liquid exsolves from any CO2- or SO2-poor silicate melt.
Journal ArticleDOI
Role of H2O in subduction-zone magmatism: New insights from melt inclusions in high-Mg basalts from central Mexico
Pablo Cervantes,Paul J. Wallace +1 more
TL;DR: This paper showed that fluxing of the wedge with an H 2 O-rich component from the subducted slab is important in formation of large ion lithophile (LILE) and light rare earth (LREE) elements relative to high field strength elements (HFSE).
Journal ArticleDOI
Numerical models for diagenesis and the Neogene Sr isotopic evolution of seawater from DSDP Site 590B
TL;DR: In this article, a numerical model for the diagenetic exchange of Sr between carbonates and their pore fluids during sedimentation and compaction has been developed and applied to data from DSDP Site 590B in order to assess the accuracy with which the Sr isotope record in the carbonate sediment reflects that of seawater.
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