Magmatic Systems
- 1st Edition, Volume 57 - August 26, 1994
- Editors: Michael P. Ryan, James R. Holton, Renata Dmowska
- Language: English
- eBook ISBN:9 7 8 - 0 - 0 8 - 0 9 5 9 9 1 - 7
With its integrated and cohesive coverage of the current research, Magmatic Systems skillfully explores the physical processes, mechanics, and dynamics of volcanism. The text u… Read more
With its integrated and cohesive coverage of the current research, Magmatic Systems skillfully explores the physical processes, mechanics, and dynamics of volcanism. The text utilizes a synthesized perspective--theoretical, experimental, and observational--to address the powerful regulatory mechanisms controlling the movement of melts and cooling, with emphasis on mantle plumes, mid-ocean ridges, and intraplate magmatism. Further coverage of subduction zone magmatism includes:Fluid mechanics of mixed magma migrationInternal structure of active systemsGrain-scale melt flowRheology of partial meltsNumerical simulation of porous media melt migrationNonlinear (chaotic and fractal) processes in magma transportIn all, Magmatic Systems will prove invaluable reading to those in search of an interdisciplinary perspective on this active topic.
@introbul:Key Features@bul:* Fluid mechanics of magma migration from surface region to eruption site* Internal structure of active magmatic systems* Grain-scale melt flow in mantle plumes and beneath mid-ocean ridges* Physics of magmatic systems and magma dynamics
Researchers in volcanology, igneous petrology, tectonophysics, seismology, geodesy, and planetology.
P. Olson, Mechanics of Flood Basalt Magmatism. T.T. Gribb, S. Zhang, and R.F. Cooper, Melt Migration and Related Attenuation in Equilibrated Partial Melts. D.L. Kohlstedt and P.N. Chopra, Influence of Basaltic Melt on the Creep of Polycrystalline Olivine under Hydrous Conditions. D.W. Sparks and E.M. Parmentier, The Generation and Migration of Partial Melt beneath Oceanic Spreading Centers. A. Nicolas, F. Boudier, and B. Ildefonse, Dike Patterns in Diapirs beneath Oceanic Ridges: The Oman Ophiolite. M.P. Ryan, Neutral-Buoyancy Controlled Magma Transport and Storage in Mid-ocean Ridge Magma Reservoirs and Their Sheeted-Dike Complex: A Summary of Basic Relationships. J.P. Morgan, A. Harding, J. Orcutt, G. Kent, and Y.J. Chen, An Observational and Theoretical Synthesis of Magma Chamber Geometry and Crustal Genesis along a Mid-ocean Spreading Center. A. Hasegawa and D. Zhao, Deep Structure of Island Arc Magmatic Regions as Inferred from Seismic Observations. J.H. Davies, Lateral Water Transport across a Dynamic Mantle Wedge: A Model for Subduction Zone Magmatism. M. Heimpel and P. Olson, Buoyancy-Driven Fracture and Magma Transport through the Lithosphere: Models and Experiments. A. Takada, Accumulation of Magma in Space and Time by Crack Interaction. H. Sato and M.P. Ryan, Generalized Upper Mantle Thermal Structure of the Western United States and Its Relationship to Seismic Attenuation, Heat Flow, Partial Melt, and Magma Ascent and Emplacement. G.W. Bergantz and R. Dawes, Aspects of Magma Generation and Ascent in Continental Lithosphere. C.R. Carrigan, Two-Component Magma Transport and the Origin of Composite Intrusions and Lava Flows. J.A. Whitehead and P. Kelemen, Fluid and Thermal Dissolution Instabilities in Magmatic Systems. Author Index. Geographic Index. SubjectIndex.
- Edition: 1
- Volume: 57
- Published: August 26, 1994
- Language: English
MR
Michael P. Ryan
Affiliations and expertise
U.S. Geological SurveyJH
James R. Holton
James R. Holton was Professor of Atmospheric Sciences at the University of Washington until his death in 2004. A member of the National Academies of Science, during his career he was awarded every major honor available in the atmospheric sciences including AGU’s Revelle Medal.
Affiliations and expertise
University of Washington, Seattle, WA, USARD
Renata Dmowska
Renata Dmowska works in the School of Engineering and Applied Sciences at Harvard University in Cambridge, MA, USA.
Affiliations and expertise
School of Engineering and Applied Sciences, Harvard University, Cambridge, MA, USARead Magmatic Systems on ScienceDirect