Startseite Volatiles in magmas related to the Campanian Ignimbrite eruption: Experiments vs. natural findings
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Volatiles in magmas related to the Campanian Ignimbrite eruption: Experiments vs. natural findings

  • Sara Fanara EMAIL logo , Roman E. Botcharnikov , Danilo M. Palladino , Franziska Adams , Julia Buddensieck , Andreas Mulch und Harald Behrens
Veröffentlicht/Copyright: 30. September 2015
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American Mineralogist
Aus der Zeitschrift American Mineralogist Band 100 Heft 10

Abstract

The solubility of H2O- and CO2-bearing fluids in trachytic and trachybasaltic melts from erupted magmas of the Campi Flegrei Volcanic District has been investigated experimentally at 1100 and 1200 °C, respectively, and at 100, 200, 300, 400, and 500 MPa. The solubility of H2O in the investigated melts varies between 3.48 ± 0.07 wt% at 100 MPa to 10.76 ± 0.12 wt% at 500 MPa in trachytic melts and from 3.49 ± 0.07 wt% at 100 MPa to 9.10 ± 0.11 wt% at 500 MPa in trachybasaltic melts. The content of dissolved CO2 in melts coexisting with the most CO2-rich fluid phase increases from 281 ± 24 ppm at 100 MPa to 2710 ± 99 ppm at 500 MPa in trachyte, and from 727 ± 102 ppm at 100 MPa to 3565 ± 111 ppm at 500 MPa in trachybasalt.

Natural samples from the Campanian Ignimbrite eruption (trachyte) and from the Solchiaro eruption (trachybasalt) were collected around the city of Naples and on Procida Island. Deuterium/hydrogen (D/H) ratios were analyzed in natural pumices pre-heated at different temperatures to remove water adsorbed and/or imprinted by glass alteration processes. It has been determined that heating of the glass to 350 °C efficiently removes most of secondary water and the remaining concentrations represent primary magmatic water preserved in the erupted material. Hydrogen isotope composition (with δD values ranging between -70‰ and -110‰) and its correlation with bulk water content in selected pumice samples of the Campanian Ignimbrite eruption are consistent with isotopic fractionation between magmatic fluid and melt during degassing of erupting magma. Hence, the H2O and CO2 contents in natural glasses from pumice samples are considered as minimum estimates on volatile concentrations in the melt just prior to the eruption or at the fragmentation event. The water contents in natural glasses vary from 0.83 ± 0.07 to 3.74 ± 0.06 wt% for trachytes from the Campanian Ignimbrite eruption and from 1.96 ± 0.06 to 3.47 ± 0.07 wt% for trachybasalts from the Solchiaro eruption. The CO2 contents vary from 78 ± 120 ppm CO2 to 1743 ± 274 ppm for trachytes from the Campanian Ignimbrite eruption and from 240 ± 293 to 1213 ± 250 ppm for trachybasalts from the Solchiaro eruption.

A combination of natural and experimental data provides minimum pressure estimates for the storage and ascent conditions of magmas. The Campanian Ignimbrite magma could have been stored or ponded during its rising path at two different levels: a deeper one corresponding to depth of about 8 to 15 km and a shallower one at about 1 to 8 km. Trachybasalts from Solchiaro erupted from the deepest level of about 11 km with a storage or ponding level at around 2 to 8 km depth. Although an uncertainty of at least a kilometer has to be considered in estimating storage or ponding depths, these estimates point to significantly deeper magmatic sources for both eruptions as those considered previously.

Keywords: Water; carbon dioxide; solubility; hydrogen isotopes; trachyte; trachybasalt; Campi Flegrei Volcanic District; Campanian Ignimbrite eruption; Solchiaro eruption
Received: 2014-5-5
Accepted: 2015-3-18
Published Online: 2015-9-30
Published in Print: 2015-10-1

© 2015 by Walter de Gruyter Berlin/Boston

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https://doi.org/10.2138/am-2015-5033
Schlagwörter für diesen Artikel
Water; carbon dioxide; solubility; hydrogen isotopes; trachyte; trachybasalt; Campi Flegrei Volcanic District; Campanian Ignimbrite eruption; Solchiaro eruption

Artikel in diesem Heft

  1. Reaching new boundaries for in-situ U-Th geochronology
  2. Normal to inverse transition in martian spinel: Understanding the interplay between chromium, vanadium, and iron valence state partitioning through a crystal-chemical lens
  3. Accuracy of timescales retrieved from diffusion modeling in olivine: A 3D perspective
  4. Phosphoran olivine overgrowths: Implications for multiple impacts to the Main Group pallasite parent body
  5. Diffusion of phosphorus in olivine and molten basalt
  6. Oceanic lavas sampling the high-3He/4He mantle reservoir: Primitive, depleted, or re-enriched?
  7. U-Th baddeleyite geochronology and its significance to date the emplacement of silica undersaturated magmas
  8. Polycrystallinity of green rust minerals and their synthetic analogs: Implications for particle formation and reactivity in complex systems
  9. Fe pre-enrichment: A new method to counteract iron loss in experiments on basaltic melts
  10. Fe-Mg diffusion in spinel: New experimental data and a point defect model
  11. Age, petrochemistry, and origin of a REE-rich mineralization in the Longs Peak-St. Vrain batholith, near Jamestown, Colorado (U.S.A.)
  12. Laser-induced breakdown spectroscopy (LIBS) as a tool for in situ mapping and textural interpretation of lithium in pegmatite minerals
  13. Evidence for Nb2+ and Ta3+ in silicate melts under highly reducing conditions: A XANES study
  14. Elastic softening of leucite and the lack of polar domain boundaries
  15. New thermobarometers for martian igneous rocks, and some implications for secular cooling on Mars
  16. An updated calibration of the plagioclase-liquid hygrometer-thermometer applicable to basalts through rhyolites
  17. Water effects on the anharmonic properties of forsterite
  18. Synthesis and structure of a stuffed derivative of α-quartz, Mg0.5AlSiO4
  19. Equation of state and elasticity of the 3.65 Å phase: Implications for the X-discontinuity
  20. Ca-Zn solid solutions in C2/c pyroxenes: Synthesis, crystal structure, and implications for Zn geochemistry
  21. Aluminum environments in synthetic Ca-Tschermak clinopyroxene (CaAlAlSiO6) from Rietveld refinement, 27Al NMR, and first-principles calculations
  22. Trioctahedral Fe-rich micas: Relationships between magnetic behavior and crystal chemistry
  23. High-pressure compressibility and phase stability of Mn-dolomite (kutnohorite)
  24. Composition dependence of spin transition in (Mg,Fe)SiO3 bridgmanite
  25. Oriented multiphase needles in garnet from ultrahigh-temperature granulites, Connecticut, U.S.A.
  26. Solubility and solution mechanisms of chlorine and fluorine in aluminosilicate melts at high pressure and high temperature
  27. Volatiles in magmas related to the Campanian Ignimbrite eruption: Experiments vs. natural findings
  28. Aluminosilicate melts and glasses at 1 to 3 GPa: Temperature and pressure effects on recovered structural and density changes
  29. Role of volatiles (S, Cl, H2O) and silica activity on the crystallization of haüyne and nosean in phonolitic magmas (Eifel, Germany and Saghro, Morocco)
  30. P-V-T equation of state and high-pressure behavior of CaCO3 aragonite
  31. A possible new Al-bearing hydrous Mg-silicate (23 Å phase) in the deep upper mantle
  32. Synthesis of large wadsleyite single crystals by solid-state recrystallization
  33. Decagonite, Al71Ni24Fe5, a quasicrystal with decagonal symmetry from the Khatyrka CV3 carbonaceous chondrite
  34. Earth’s “missing” minerals
  35. Magnetite-rutile symplectite derived from ilmenite-hematite solid solution in the Xinjie Fe-Ti oxide-bearing, mafic-ultramafic layered intrusion (SW China)
  36. New Mineral Names
  37. Book Review: Arsenic: Environmental Geochemistry, Mineralogy, and Microbiology, RIMG Volume 79.
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