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Vesiculation and Crystallization of Magma: Fundamentals of the Volcanic Eruption Process PDF

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Advances in Volcanology Atsushi Toramaru Vesiculation and Crystallization of Magma Fundamentals of the Volcanic Eruption Process Advances in Volcanology fi An Of cial Book Series of the International Association of Volcanology and Chemistry ’ of the Earth s Interior Series Editor Karoly Nemeth, Institute of Natural Resources, Massey University, Palmerston North, New Zealand More information about this series at https://link.springer.com/bookseries/ 11157 Atsushi Toramaru Vesiculation and Crystallization of Magma Fundamentals of the Volcanic Eruption Process 123 Atsushi Toramaru Department ofEarth andPlanetarySciences Kyushu University Fukuoka,Japan TheJapaneseversionofthisbookwassupportedbyJSPSKAKENHIGrantNumber JP18HP5236 (Grant-in-Aid for Publication of Scientific Research Results) in FY2018.TheEnglishversionwassupportedbyKyushuUniversityPracticalVolcano SpecialEducationBaseProjectoftheMinistryofEducation,Culture,Sports,Science andTechnology,Japan inFY2019. ISSN 2364-3277 ISSN 2364-3285 (electronic) Advances in Volcanology ISBN978-981-16-4208-1 ISBN978-981-16-4209-8 (eBook) https://doi.org/10.1007/978-981-16-4209-8 Translation from the Japanese language edition: Magma no Happo to Kesshoka by Atsushi Toramaru, © Atsushi Toramaru 2019. Published by University of Tokyo Press. All Rights Reserved. ©TheEditor(s)(ifapplicable)andTheAuthor(s),underexclusivelicensetoSpringerNature SingaporePteLtd.2022 Thisworkissubjecttocopyright.AllrightsaresolelyandexclusivelylicensedbythePublisher, whetherthewholeorpartofthematerialisconcerned,specificallytherightsofreprinting,reuse ofillustrations,recitation,broadcasting,reproductiononmicrofilmsorinanyotherphysicalway, andtransmissionorinformationstorageandretrieval,electronicadaptation,computersoftware, orbysimilarordissimilarmethodologynowknownorhereafterdeveloped. Theuseofgeneraldescriptivenames,registerednames,trademarks,servicemarks,etc.inthis publication does not imply, even in the absence of a specific statement, that such names are exemptfromtherelevantprotectivelawsandregulationsandthereforefreeforgeneraluse. Thepublisher,theauthorsandtheeditorsaresafetoassumethattheadviceandinformationin thisbookarebelievedtobetrueandaccurateatthedateofpublication.Neitherthepublishernor the authors or the editors give a warranty, expressed or implied, with respect to the material containedhereinorforanyerrorsoromissionsthatmayhavebeenmade.Thepublisherremains neutralwithregardtojurisdictionalclaimsinpublishedmapsandinstitutionalaffiliations. ThisSpringerimprintispublishedbytheregisteredcompanySpringerNatureSingaporePteLtd. Theregisteredcompanyaddressis:152BeachRoad,#21-01/04GatewayEast,Singapore 189721,Singapore To Y. T. Preface for English Version This book is the English version of Vesiculation and Crystallization of Magma—Fundamentals of Volcanic Eruption Process—which was pub- lished in Japanese in 2018. This book aims at advancing the comprehensive understanding of fundamental processes, vesiculation and crystallization of magmas,forresearchersandgraduatestudents.AsImentionintheprefacein the Japanese version, I feel the need for the detailed illustration of those fundamental processes in magmatism, because the related works have been produced at a high rate, covering a wider area. In such circumstances, it is difficult for the researchers of the field (including the graduate students) to understandthebaseofthestudiesbygettingbacktofundamentalphysicsand chemistrybehindthose.Manyerrorsandtypos intheJapaneseversionhave been corrected in the English version through careful reading by Mizuki Nishiwaki (Kyushu University), and members of Volcanology seminar of Earthquake Research Institute, University of Tokyo. Unfortunately, because of limited number of cited articles, I could not cite a number of important articles in the reference. Fukuoka, Japan Atsushi Toramaru vii Preface Studying volcanic phenomena and elucidating their mechanisms and laws require various types of approaches, including geophysical observation, geological surveys, geochemical analyses, and modeling. Note that analysis basedonmaterialsscienceisonesuchapproach,andresearchinthisareahas been actively ongoing, particularly over the last 20 years. For example, correspondence between eruption styles, changes in eruption styles, and eruptive materials have been investigated; moreover, eruption parameters, suchastheascentvelocityofmagma,havebeenquantitativelyestimated.For their chemical composition and texture, volcanic products record the vesic- ulation, crystallization, and movement magma experiences in all their pro- cesses from generation to accumulation to ascent to eruption. To quantitativelydeciphertherecordofmagmamovement,anunderstandingof its key process, i.e., the vesiculation and crystallization of magma, is nec- essary. However, there isno book comprehensively explaining the scientific procedure and background for achieving such an understanding; therefore, I have felt the need for a book such as this. Using conventional observational research on volcanos, such as geo- physical monitoring, we can obtain data about the occurrence of volcanic earthquakes and volcano deformation. However, to interpret these data, knowledge about the state of magma under the ground is necessary. More- over,formodelingvolcanicconduitflowusingcomputationalsimulationand calculating convection and fractional crystallization in magma chambers, a basic knowledge of materials science is necessary. Furthermore, before conducting individual observations and developing simulation strategies, coolingofthemagmaandsolubilityofvolatilesinthemagmaareextremely fundamental aspects that we should have learned in advance. This book focuses on the vesiculation and crystallization processes of magma. Vesiculation and crystallization of magma are basic processes that appear at every scene of volcanic eruption. In magma chambers deep underground where cooling crystallization occurs, water as well as other volatilesthathavenotbeenincorporatedintocrystalsgetconcentratedintoa liquid and then vesiculate at a certain time point, leading to overpressur- ization in magma chambers and supply of buoyancy for magma ascent. In magma that is ascending in a volcanic conduit, decompression-induced ix x Preface vesiculation occurs and expansion of the generated gas governs the ascent and exit velocities from the vent. Moreover, as a result of the decrease in water content in liquid caused by decompression-induced vesiculation, the melting point of minerals increases and decompression-induced crystalliza- tionoccurs.Theformationofbubblesandcrystalschangestheviscosityand magma structure, thus providing feedback to magma movement. In eruptive materials on the surface, temperature and pressure paths the magma has experienced as well as the rate of changes are recorded as the texture of bubbles and crystals. Therefore, the appropriate use of a methodology by which such information is read out from the texture of eruptive materials allows the estimation of magma movement along with eruption. Developing this methodology requires both encyclopedic knowledge of materials such as rocks and minerals and fundamental approaches for interpreting data obtained by analyzing such materials. For example, New- tonian mechanics, which we learned in high school, is a fundamental approach for interpreting data on ball trajectories. Thus, the fundamental approachesforinterpretingdataonvolcanicmaterialscanberoughlydivided intotwoconcepts.Oneconceptisreferredtoas“equilibriumtheory,”which is based on thermodynamics and is integrated into equilibrium phase dia- grams.Thisconceptisbasedonassumingtheconceptofanequilibriumstate and discusses the state without motion. “Disequilibrium theory” is the other concept that discusses motion from one state to another state. It is called “kinetics.” Focusing on these two concepts, this book explains the founda- tions offundamental approaches by which we interpret natural materials. In the fields of applied physics and materials science, a number of text- books have been published on equilibrium phase diagrams and kinetics. However, it is somewhat difficult to apply the context of such books to volcanic materials because they only explain generalities or deal with materialsandsituationsdifferentfromthoseofvolcanicmaterials.Moreover, Iamunawareofanybookthatcomprehensivelyexplainskinetictheoriesthat have been independently developed for magma. This seems to be a major barrier to advancing research and education to the next step. On the other hand, textbooks published in Japan, and not only those on volcanology, are generally compact and often do not contain detailed explanations of the derivation of equations and the underlying fundamental physics. In particular, in recent years, while easy-to-understand books are valued and popular, difficult-to-understand books tend to be avoided. I have been worrying that this tendency obscures the detailed processes of inquiry and prevents the understanding of underlying assumptions and fundamental principles. Aimed at overcoming these demerits, I have attempted to write thisbookinasmuch detailaspossible andinaneasy-to-understandmanner as possible. Although Torahiko Terada (physicist in Japan 1878–1935) commentedonRayleigh'sTheoryofSound,whichcouldbecasuallyglanced throughwhileensuringhis handsinhispockets,Igained noconfidencethat this work has turned out to be such a book. Preface xi Based on this thinking, this book has the following structure. Part I introduces instances the author has experienced, to share volcanic phenom- ena for understanding with readers. Moreover, it contains motivation and inspiration that we gained from natural phenomena to learn about vesicula- tionandcrystallizationofmagma.PartIIexplainsthevesiculationofmagma, whereas Part III describes the crystallization of magma. In both Parts II and III, the equilibrium theory is first explained, followed by the explanation of the disequilibrium theory. Note that the equilibrium theory of crystal- lization isnotexplainedbecause it overlapswith discussion onvesiculation, andtherearealreadyseveraltextbooksavailableonthesubject,andspaceis limited. The chapters on the vesiculation process of magma deal with the conditions of magma vesiculation, mechanism of bubble formation, growth of bubbles, temporal development of bubble size distribution, and various processes related to bubbles (secondary growth, coalescence, deformation, detachment, ascent, as well as shrinkage, collapse, and oscillation of bub- bles). The chapters on the crystallization process explain the cooling crys- tallization of magma, crystallization triggered by vesiculation (decompression-inducedcrystallization), andcrystal sizedistribution (CSD). PartIV,thelastchapteronapplication,introducesattemptstounderstandthe behaviorofmagmabyapplyingthediscussioninearlierchapterstoeruptive materials and rocks obtained from actual volcanos. In Appendix, several points—derivation and calculation of equations, useful concepts and sum- maries, an outline of physical properties, and a conceptual basis for textural analysis—required to understand the contents of the primary text are explained. Although a number of symbols appear in this book, I have attempted to not use the same symbol with different meanings and have provided a list of symbols to help avoid confusion. Unfortunately, this book cannot cover multiple points that are indis- pensable to understanding volcanic phenomena from a materials science viewpoint, and that (one feels) should be comprehensively explained else- where. These points include a comprehensive introduction to and examina- tion ofthechemical composition ofobserved crystals, theorigins of various crystal forms, a detailed explanation of and data on the relevant physical properties (although they are partly discussed), and the coupling of phase change and fluid mechanics. I would like to express my gratitude to Mie Ichihara (University of Tokyo), Masatoshi Ohashi (University of Tokyo), Kazuya Yamakawa (University of Tokyo), Takafumi Maruishi (Kyoto University), and Mizuki Nishiwaki (Kyushu University) who verified the physics and derivation of equations, thus reporting fundamental mistakes and inappropriate expres- sionsandprovidingcountlesssuggestionsandpiecesofadviceintworeview campsthatcoveredcomplete8daysintotal.Withouttheirsupport,thisbook wouldcertainlyhavebeenafarlessaccurateone;however,itisimpossibleto deny that many mistakes remain regardless of my best, and the author takes fullresponsibilityforthisbook.Moreover,IwouldliketothankDr.Ichihara for useful discussions on the energetics of nucleation, Dr. Ohashi for useful discussions on the coalescence and deformation of bubbles, Mr. Nishiwaki for the calculation of viscosity in Appendix, and a technical associate,

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