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  • 1
    Monograph available for loan
    Monograph available for loan
    The Al2SiO5 polymorphs (1990)
    Washington, D.C. : Mineralogical Society of America
    Associated volumes
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    Call number: 11/M 94.0170
    In: Reviews in mineralogy
    Description / Table of Contents: This is a book exclusively devoted to three minerals: the Al2SiO5 polymorphs - andalusite, sillimanite, and kyanite. This may seem to be narrowly focused and esoteric. However, as discussed in Chapter 1, the aluminum silicate polymorphs are perhaps the most important mineral group to metamorphic petrologists. Because these minerals occur in anatectic migmatites and peraluminous granitoids, they are also important in igneous petrology. In spite of their geologic significance, there are a variety of experimental, theoretical, and field problems involving the aluminum silicates. Theoretical problems include the nature and energetics of lattice defects, order/disorder, crystalline (solid) solution, and interfacial energy. The aluminum silicates epitomize the importance of understanding the mechanisms and kinetics of heterogeneous metamorphic reactions. The difficulties in calibration of the pressure-temperature (P- T) phase equilibrium diagram illustrate the pitfalls of hydrothermal experimentation and the need to understand the methodology and uncertainties of calorimetric measurements of thermodynamic data of minerals. Thus, this book covers a wide variety of topics that must be considered in the analysis of metamorphic systems. In so doing, this volume illustrates the fact that modern metamorphic petrology demands an awareness of a wide spectrum of geologic variables and processes. In concert with the tenor of the Mineralogical Society of America Reviews in Mineralogy series, this volume is intended to provide a comprehensive review, summarizing the methods, theories and pitfalls of the various contributions on the aluminum silicates. Hopefully, this book will provide readers with a reasonably in-depth overview, and thus avoid the need for extensive, independent literature reviews. Although a concerted effort was made to give a balanced coverage of divergent theories regarding various problems involving the aluminum silicates, this critique nevertheless includes some of the author's biases. Several sections of this book present the chronological development of research on various topics, giving readers historical perspectives on the development of theories, models and biases on various problems regarding the aluminum silicates. As in all fields, several landmark studies have set the tone for the strategy of approach to problems. Although such studies have provided important steps forward in our understanding of natural phenomena, they have had the undesirable effect of entrenching biases and methodology. In this volume I have attempted to point out the deleterious effects of certain parochial approaches, an example being the aluminum immobility concept discussed in Chapter 10. In addition to their primary importance in metamorphic petrology, the aluminum silicates illustrate a wide variety of experimental, theoretical, and experimental problems. Because the Al2SiO5 polymorphs alone offer a pedagogic illustration of many important principles of modern metamorphic petrology.
    Type of Medium: Monograph available for loan
    Pages: xii, 406 S.
    ISBN: 0-939950-27-8 , 978-0-939950-27-0
    ISSN: 1529-6466
    Series Statement: Reviews in mineralogy 22
    Classification:
    Mineralogy
    Language: English
    Note: Chapter 1. Introduction p. 1 - 12 Chapter 2. Crystal Structures, Optical And Physical Properties p. 13 - 36 Chapter 3. Phase Equilibria p. 37 - 110 Chapter 4. Non-Stoichiometry p. 111 - 168 Chapter 5. Lattice Defects p. 169 - 186 Chapter 6. Al-Si Disorder In Sillimanite p. 187 - 206 Chapter 7. The Fibrolite Problem p. 207 - 222 Chapter 8. Metamorphic Reactions p. 223 - 256 Chapter 9. Reaction Kinetics And Crystal Growth Mechanisms p. 257 - 310 Chapter 10. Aluminum Metasomatism p. 311 - 252 Chapter 11. Anatectic Migmatites, Magmatic Pegmatites And Peraluminous Granitoids p. 353 - 362
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  • 2
    Monograph available for loan
    Monograph available for loan
    Mineral-water interface geochemistry (1990)
    Washington, D.C. : Mineralogical Society of America
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    Call number: 11/M 94.0171 ; 11/M 93.0022/23
    In: Reviews in mineralogy
    Description / Table of Contents: This book and accompanying MSA short course was first considered in 1987 in response to what seemed to be a growing interest in the chemical reactions that take place at mineral-water interfaces. Now, in 1990, this area of work is firmly established as one of the major directions in mineralogical and geochemical research (see Chapter 1). We believe that there are two major reasons for this. The first is that there is a growing awareness within various earth science disciplines that interface chemistry is very important in many natural processes, i.e., these processes cannot be adequately described, much less understood, unless the role of interface chemistry is carefully considered. Perhaps the best illustration of this increase in awareness is the diverse backgrounds of the scientists who will be attending the short course. Participants have research interests in aqueous and environmental geochemistry, mineralogy, petrology, and crystallography. In the final list of participants, one-quarter are from outside the United States, and include scientists from Australia, Canada, England, France, Israel, The Netherlands, Sweden, and Switzerland. The second reason that this field is one of the major new research directions in the earth sciences is because many methods, both experimental and theoretical, have relatively recently become available to study mineral surfaces and mineral-water interfaces. Many important spectroscopic techniques now used routinely to characterize surfaces and interfaces were not available twenty years ago, and some were not available just five years ago. To emphasize the importance of these methods, two Nobel prizes were awarded in the 1980's to the developers of x-ray photoelectron spectroscopy (XPS) and scanning tunneling microscopy (STM). We have directed ourselves and the other authors of this book to follow the general guidelines of writing for "Reviews in Mineralogy". However, for the subject of mineral-water interface geochemistry, this is not easy because the field is far from mature. Several chapters are not reviews in the traditional sense in that they cover research that is relatively recent for which a considerable amount of work remains. In any case, we believe that this book describes most of the important concepts and contributions that have driven mineral-water interface geochemistry to its present state. We begin in Chapter 1 with examples of the global importance of mineral-water interface reactions and a brief review of the contents of the entire book. Thereafter, we have divided the book into four sections, including atomistic approaches (Chapters 2- 3), adsorption (Chapters 4-8), precipitation and dissolution (Chapters 9-11), and oxidation-reduction reactions (Chapters 11-14).
    Type of Medium: Monograph available for loan
    Pages: xvi, 603 S.
    ISBN: 0-939950-28-6 , 978-0-939950-28-7
    ISSN: 1529-6466
    Series Statement: Reviews in mineralogy 23
    Classification:
    Mineralogy
    Language: English
    Note: Chapter 1. Mineral-water Interface Geochemistry: An Overview by Michael F. Hochella, Jr. and Art F. White, p. 1 - 16 Chapter 2. Atomic Treatment of Mineral-water Surface Reactions by Antonio C. Lasaga, p. 17 - 86 Chapter 3. Atomic Structure, Microtopography, Composition, and Reactivity of Mineral Surfaces by Michael F. Hochella, Jr., p. 87 - 132 Chapter 4. Surface Energy and Adsorption at Mineral/Water Interfaces: An Introduction by George A. Parks, p. 133 - 176 Chapter 5. Surface Complexation Modeling in Aqueous Geochemistry by James A. Davis and Douglas B. Kent, p. 177 - 260 Chapter 6. Molecular Models of Ion Adsorption on Mineral Surfaces by Garrison Sposito, p. 261 - 280 Chapter 7. Co-adsorption of Metal Ions and Organic Ligands: Formation of Ternary Surface Complexes by Paul W. Schindler, p. 281 - 308 Chapter 8. Spectroscopic Studies of Chemisorption Reaction Mechanisms at Oxide-Water Interfaces by Gordon E. Brown, Jr., p. 309 - 364 Chapter 9. Mechanisms of Growth and Dissolution of Sparingly Soluble Salts by Jing-Wu Zhang and George H. Nancollas, p. 365 - 396 Chapter 10. Leaching of Mineral and Glass Surfaces During Dissolution by William H. Casey and Bruce Bunker, p. 397 - 426 Chapter 11. Oxidative and Reductive Dissolution of Minerals by Janet G. Hering and Werner Stummv. p. 427 - 466 Chapter 12. Heterogeneous Electrochemical Reactions Associated with Oxidation of Ferrous Oxide and Silicate Surfaces by Art F. White, p. 467 - 510 Chapter 13. Spectroscopic Studies of Adsorption/Reduction Reactions of Aqueous Metal Complexes on Sulphide Surfaces by G. Michael Bancroft and Margaret M. Hyland, p. 511 - 558 Chapter 14. Photo-redox Processes at the Mineral-water Interface by T. David Waite, p. 559 - 603
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  • 3
    Monograph available for loan
    Monograph available for loan
    Carbonates : mineralogy and chemistry (1990)
    Washington, D.C. : Mineralogical Society of America
    Associated volumes
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    Call number: 11/M 94.0165
    In: Reviews in mineralogy
    Description / Table of Contents: This volume of Reviews in Mineralogy attempts to synthesize our present understanding of certain aspects of the mineralogy and chemistry of the rock-forming carbonates. Hopefully, it reflects the presently more active areas of research. This review follows, by ten years, a major assessment of (sedimentary) carbonate minerals by Lippmann (1973). There is only minor overlap of subject material, and I hope that this difference reflects fairly how this field has developed. In some respects carbonates are unique, for they are one of the few mineral groups providing an abundant record of biological, physical, and chemical processes throughout much of geologic time. Because of their relative importance in sedimentary rocks, lowtemperature examples are given more emphasis here. Moreover, the obvious correlation with energy resources has been a significant factor contributing to the current resurgence of interest in this area. However, the broader interest in carbonates is also a reflection of their widespread occurrence in vastly different geologic environments, including metamorphic and igneous settings, as well as an appreciation of their role in both atmospheric and oceanic chemistry, both past and present. In this volume, some of the papers are general (i.e., those addressing crystal chemistry and phase relations), and they provide overviews of a fundamental nature and are of interest to many. Others are more specialized in coverage and generally reflect the different approaches used in carbonate geochemistry. The final chapter introduces transmission electron microscopy, a relatively new and powerful technique for mineralogical research that has great potential in carbonate research. Owing to the short time interval between the completion of manuscripts and publication, much of the newer material in this volume is still "fresh." The various reviewers, all gratefully acknowledged, were expeditious in their efforts. A hurried schedule, however, allows for unnoticed errors to persist; these should be brought to my attention. PREFACE TO THE SECOND PRINTING Interest in carbonate research has continued at an ever-hurried pace since this book was first printed. While the individual chapters could not be revised in this second printing to include the many new findings, a partial listing of noteworthy papers that have since appeared are given in an Appendix at the end of the volume (p. 395-399). These papers are arranged by chapters corresponding roughly to the subject area discussed. In addition, incomplete references from the first printing are listed in this appendix. The assistance of the authors and especially of Paul Ribbe is greatly appreciated.
    Type of Medium: Monograph available for loan
    Pages: xii, 399 S.
    ISBN: 0-939950-15-4 , 978-0-939950-15-7
    ISSN: 1529-6466
    Series Statement: Reviews in mineralogy 11
    Classification:
    Mineralogy
    Language: English
    Note: Chapter 1. Crystal Chemistry of the Rhombohedral Carbonates by Richard J. Reeder, p. 1 - 48 Chapter 2. Phase Relations of Rhombohedral Carbonates by Julian R. Goldsmith, p. 49 - 76 Chapter 3. Solid Solutions and Solvi Among Metamorphic Carbonates with Applications to Geologic Thermobarometry by Eric J. Essene, p. 77 - 96 Chapter 4. Magnesian Calcites: Low-Temperature Occurrence, Solubility and Solid Solution Behavior by Fred T. Mackenzie, William D. Bischoff, Finlay C. Bishop, Michele Loijens, Jane Schoonmaker, and Roland Wollast, p. 97 - 144 Chapter 5. Crystal Chemistry and Phase Relations of Orthorhombic Carbonates by J. Alexander Speer, p. 145 - 190 Chapter 6. The Polymorphs of CaCO3 and the Aragonite-Calcite Transformation by Willima D. Carlson, p. 191 - 226 Chapter 7. The Kinetics of Calcium Carbonate Dissolution and Precipitation by John W. Morse, p. 227 - 264 Chapter 8. Trace Elements and Isotopes in Sedimentary Carbonates by Jan Veizer, p. 265 - 300 Chapter 9. Microstructures in Carbonates by Hans-Rudolf Wenk, David J. Barber, and Richard J. Reeder, p. 301 - 368
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  • 4
    Monograph available for loan
    Monograph available for loan
    Mathematical crystallography : an introduction to the mathematical foundations of crystallography (1990)
    Washington, D.C. : Mineralogical Society of America
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    Call number: 11/M 94.0166
    In: Reviews in mineralogy
    Description / Table of Contents: This book is written with two goals in mind. The first is to derive the 32 crystallographic point groups, the 14 Bravais lattice types and the 230 crystallographic space group types. The second is to develop the mathematical tools necessary for these derivations in such a manner as to lay the mathematical foundation needed to solve numerous basic problems in crystallography and to avoid extraneous discourses. To demonstrate how these tools can be employed, a large number of examples are solved and problems are given. The book is, by and large, self-contained. In particular, topics usually omitted from the traditional courses in mathematics that are essential to the study of crystallography are discussed. For example, the techniques needed to work in vector spaces with noncartesian bases are developed. Unlike the traditional group-theoretical approach, isomorphism is not the essential ingredient in crystallographic classification schemes. Because alternative classification schemes must be used, the notions of equivalence relations and classes which are fundamental to such schemes are defined, discussed and illustrated. For example, we will find that the classification of the crystallographic space groups into the traditional 230 types is defined in terms of their matrix representations. Therefore, the derivation of these groups from the point groups will be conducted using the 37 distinct matrix groups rather than the 32 point groups they represent. We have been greatly influenced by two beautiful books. Hermann Heyl's book entitled Symmetry based on his lectures at Princeton University gives a wonderful development of the point groups as well as an elegant exposition of symmetry in art and nature. Fredrik W. H. Zachariasen's book entitled Theory of X-ray Diffraction in Crystals presents important insights on the derivation of the Bravais lattice types and the crystallographic space groups. These two books provided the basis for many of the ideas developed in this book. The theorems, examples, definitions and corollaries are labelled sequentially as a group whereas the problems are labelled separately as a group as are the equations. The manner in which these are labelled is self-explanatory. For example, T4.15 refers to Theorem (T) 15 in Chapter 4 while DAl.l refers to Definition (D) 1 in Appendix (A) 1. We have strived to write this book so that it is self-teaching. The reader is encouraged to attempt to solve the examples before appealing to the solution presented and to work all of the problems. Preface to the Revised Edition of Mathematical Crystallography In the Revised Edition we have corrected the errors, misprints and omissions that we have found and our students and other users have kindly pointed out to us. The Revised Edition also includes a more comprehensive index and a set of solutions for all of the problems presented in the book.
    Type of Medium: Monograph available for loan
    Pages: xi, 460 S.
    Edition: Revised ed.
    ISBN: 093995026X , 0-939950-19-7 , 978-0-939950-19-5
    ISSN: 1529-6466
    Series Statement: Reviews in mineralogy 15
    Classification:
    Mineralogy
    Language: English
    Note: Chapter 1. Modeling Symmetrical Patterns and Geometries of Molecules and Crystals p. 1 - 40 Chapter 2. Some Geometrical Aspects of Crystals p. 41 - 90 Chapter 3. Point Isometries - Vehicles for Describing Symmetry p. 91 - 122 Chapter 4. The Monaxial Crystallographic Point Groups p. 123 - 156 Chapter 5. The Polyaxial Crystallographic Point Groups p. 157 - 198 Chapter 6. The Bravais Lattice Types p. 199 - 228 Chapter 7. The Crystallographic Space Groups p. 229 - 302 Appendix 1. Mappings p. 303 - 308 Appendix 2. Matrix Methods p. 309 - 338 Appendix 3. Construction and Interpretation of Matrices Representating Point Isometries p. 339 - 356 Appendix 4. Popourri p. 357 - 360 Appendix 5. Some Properies of Lattice Planes p. 361 - 370 Appendix 6. Intersection Angles between Rotation axes p. 371 - 378 Appendix 7. Equivalent Relations, Cosets, and Factor Groups p. 379 - 394 Appendix 8. Isomorphisms p. 395 - 398
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  • 5
    Monograph available for loan
    Monograph available for loan
    Modern methods of igneuos petrology : understanding magmatic processes (1990)
    Washington, D.C. : Mineralogical Society of America
    Associated volumes
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    Call number: 11/M 94.0172
    In: Reviews in mineralogy
    Description / Table of Contents: The Mineralogical Society of America (MSA) sponsored a short course by this title December 1990 at the Cathedral Hill Hotel in San Francisco, California. It was organized by the editors, Jim Nicholls and Kelly Russell, and presented by the authors of this volume to about 80 participants in conjunction with the Fall Meeting of the American Geophysical Union. Igneous petrology, in its broadest applications, treats the transfer of matter and energy from planetary interiors to their exteriors. Over the past several decades igneous petrology has gained sophistication in three areas that deal with such transfers: the properties of silicate melts and solids can be estimated as functions of pressure, temperature and composition; some results of experimental and theoretical studies of the physics of multiphase flow are available; and many of the algorithms for realistically modeling magmatic processes are in place. Each of these fields of study, to some extent, have to be pursued independently. In our opinion, now is an ideal time to collect some features of these studies as preparation for more integrated future work and to show some consequences of applying current ideas to the study of igneous processes. We have attempted to bring together the basic data and fundamental theoretical constraints on magmatic processes with applications to specific problems in igneous petrology.
    Type of Medium: Monograph available for loan
    Pages: viii, 314 S.
    ISBN: 0-939950-29-4 , 978-0-939950-29-4
    ISSN: 1529-6466
    Series Statement: Reviews in mineralogy 24
    Classification:
    Mineralogy
    Language: English
    Note: Chapter 1. Principles of Thermodynamic Modeling of Igneous Processes by James Nicholls, p. 1 - 24 Chapter 2. Thermodynamic Properties of Silicate Liquids with Emphasis on Density, Thermal Expansion and Compressibility by Rebecca L. Lange and Ian S. E. Carmichael, p. 25 - 64 Chapter 3. Simulation of Igneous Differentiation Processes by Roger L. Nielsen, p. 65 - 106 Chapter 4. The Mathematics of Fluid Flow and a Simple Application to Problems of Magma Transport by James Nicholls, p. 107 - 124 Chapter 5. Physical Processes in the Evolution of Magmas by Stephen Tait and Claude Jaupart, p. 125 - 152 Chapter 6. Magma Mixing Processes: Insights and Constraints from Thermodynamic Calculations by J. Kelly Russell, p. 153 - 190 Chapter 7. Controls on Oxidation-Reduction Relations in Magmas by Ian S. E. Carmichael and Mark S. Ghiorso, p. 191 - 212 Chapter 8. Dynamics of Eruptive Phenomena by Claude Jaupart and Stephen Tait, p. 213 - 238 Chapter 9. Melt Fraction Diagrams: The Link between Chemical and Transport Models by George Bergantz, p. 239 - 258 Chapter 10. Textural Constraints on the Kinetics of Crystallization of Igneous Rocks by Katherine V. Cashman, p. 259 - 314
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