Melt Inclusions in Volcanic Systems: Methods, Applications and Problems

Other | July 1, 2003

byDe Vivo, B., B. De Vivo

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Melt inclusions provide a unique record of the physical and chemical processes operating in active magma chambers associated with volcanic systems. This book includes a summary of modern techniques used to study and interpret melt inclusions in volcanic rocks, as well as descriptive studies of specific volcanoes. These various studies document the enormous potential for melt inclusions to provide a window into the dynamics of active magma chambers.



'Melt Inclusions in Volcanic Systems' gives the most up-to-date summary of research on the application of melt inclusions in studies of active and fossil volcanic systems, as well as suggestions for future research in this area.

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Melt inclusions provide a unique record of the physical and chemical processes operating in active magma chambers associated with volcanic systems. This book includes a summary of modern techniques used to study and interpret melt inclusions in volcanic rocks, as well as descriptive studies of specific volcanoes. These various studies ...

Format:OtherDimensions:274 pages, 1 × 1 × 1 inPublished:July 1, 2003Publisher:Elsevier ScienceLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:0080536107

ISBN - 13:9780080536101

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Table of Contents

Introduction (R. Bodnar, B. De Vivo). Presentation of the Inaugural Roedder Medal to Edwin Roedder. Significance of melt inclusions (E. Roedder). Melt inclusions come of age: volatiles, volcanoes, and Sorby's legacy (J.B. Lowenstern). Estimating the time scales of magmatic processes (C. Hawkesworth, R. Georgeet al.). Liquid to glass: quantifying properties and structure of melts across the glass transition (D.B. Dingwell).
Magmatic inclusions in the search for natural silicate-salt melt immiscibility: methodology and examples (V.S. Kamenetsky, B. De Vivoet al.). Analyzing hydrogen (H2O) in silicate glass by secondary ion mass spectrometry and reflectance Fourier transform infrared spectroscopy (R.L. Hervig, F.K. Mazdabet al.). From mantle to atmosphere: magma degassing, explosive eruptions, and volcanic volatile budgets (P.J. Wallace). Volatile evolution of Satsuma-Iwojima volcano: degassing process and
mafic-felsic magma interaction (G. Saito, K. Kazahaya, H. Shinohara). Degassing process of Miyakejima volcano: implications of gas emission rate and melt inclusion data (H. Shinohara, K. Fukuiet al.). Chemistry and origin of zoned Haüyne in Tahitian phonolite, with implications for magmatic fractionation
(R.J. Tracy). Magma ascent rates and depths of crustal magma reservoirs beneath the Aeolian volcanic Arc (Italy): inferences from fluid and melt inclusions in xenoliths (M.L. Frezzotti, A. Peccerillo, R. Bonelli). Volatiles, magmatic degassing and eruptions of Mt. Somma-Vesuvius: constraints from silicate melt inclusions, Cl and H2O solubility experiments and modeling
(J.D. Webster, B. De Vivo, C. Tappen). A model for the evolution of Mt. Somma¿Vesuvius magmatic system based on fluid and melt inclusion investigations (A. Lima, L.V. Danyushevskyet al.). Author index./inca/publications/misc/672807subjectindex.docSubject index.