The Geology of Ore Deposits:  by John M. Guilbert, Charles F. Park, Jr.
985 pages, $133.95 list
1-57766-495-7
978-1-57766-495-6
eBook availability
The Geology of Ore Deposits
Modern civilization’s dependence upon an increasing volume and diversity of minerals makes the search for new ore deposits ever more difficult. Now available from Waveland Press, Guilbert & Park’s text presents ideas, principles, and data fundamental for beginning economic geologists to understand the genesis and localization of ore deposits and of the minerals associated with them. The authors comprehensively describe the physical and chemical characteristics of ore deposits and correlate them with environments and conditions of deposition, since ore deposits are best interpreted as extensions of the environments responsible for their enclosing rocks. Examples and illustrations emphasize structural, chemical, and temporal controls and encourage the three-dimensional thinking used by productive explorationists as they face unsolved problems.

This upper-level undergraduate text is fully illustrated and meticulously indexed. Its reliable, authoritative coverage assumes an upper-level command of chemistry and physics, as well as mineralogy, petrology, and structural geology.

Outstanding features . . .
  • develops and combines the abilities of the explorationist and of the researcher of ore-forming processes

  • structures the geologic descriptions into groupings recognized by researchers and explorers alike

  • builds confidence, revitalizes curiosity, and encourages expanded thinking

  • emphasizes that the days of “easy” discovery of outcropping ores are not over

  • includes revised, expanded, and updated descriptions of districts
Reactions
“This text is an industry-standard handbook. It does a great job explaining various emplacement models and uses real-life examples. Any student planning a career in mining should be familiar with its content.” — Greg Melton, Brigham Young University

“Guilbert & Park’s textbook on ore deposits is one of the best introductory books on the subject and a classic!” — Michael Ressl, University of Nevada, Reno
Table of Contents
Introduction
Mineral Resource Problems / The Role of Economic Geology

1. The Development of Theories of Ore Deposition

2. The Ore-Bearing Fluids
Magma and Magmatic Fluids / Hydrothermal Fluids / Meteoric Waters / Seawater / Connate Waters / Metamorphic Fluids / Thermal Springs / Mine Waters

3. Movement of the Ore-Bearing Fluids
Migration of Magma / The Origins of Porosity and Permeability / Migration of Hydrothermal Fluids at Depth / Migration of Hydrothermal Fluids at Shallow Depth / Ground Preparation / Structural Control / Primary, or Intrinsic, Permeability / Secondary, or Superimposed, Permeability / Hydrothermal Flow Mechanisms / Examples of Structural Control / Sources of Ore-Deposit Components

4. Deposition of the Ores
Deposition of Magmatic Segregation Deposits / Deposition of Carbonatites / Deposition from Hydrothermal Fluids / Depositional Textures / Examples of Chemical Control

5. Wall-Rock Alteration and Gangue
Relationship between Alteration, Gangue, and Mineralization / Temperature, Pressure, and Composition Gradients / Reactions between Wall Rocks and Fluids / Alteration Assemblages / Presentation of Alteration Data / Quantification of Alteration Description / Distributions of Alteration Assemblages / Gangue / Summary

6. Paragenesis, Paragenetic Sequence, and Zoning
Paragenesis / Paragenetic Sequence / Zoning / An Example of Regional Zoning—the Southern Piedmont, United States, Gold Deposits / An Example of District Zoning—the Cornwall, England, Tin Deposits / An Example of District Zoning—the Tonopah, Nevada, Silver District / An Example of Orebody Zoning—the Red Mountain, Colorado, Silver-Lead Mine

7. Geothermometry, Geobarometry, and Isotope Studies
Geothermometry / Geobarometry / Isotope Studies

8. The Classification of Ore Deposits

9. Deposits Related to Magic Igneous Rocks
Layered Magic Intrusions / Anorthosites—Titanium / Kimberlites—Diamond / Carbonatites / Ultramafic Volcanic Rock Associations—Copper-Nickel

10. Deposits Related to Oceanic Crust
Alpine Peridotite Chromite

11. Deposits Related to Intermediate to Felsic Intrusions
Igneous Iron Deposits / Porphyry Base-Metal Deposits / Hydrothermal Iron Deposits / Cordilleran Vein Type Deposits / Pegmatites / Granitic Tin and Uranium Deposits

12. Deposits Related to Subaerial Volcanism
Epithermal Silver-Gold Deposits / Chinese Antimony Deposits / Bulk Low-Grade Silver-Gold Deposits / Carlin-Type Gold Deposits / Other Deposits Related to Subaerial Volcanism

13. Deposits Related to Submarine Volcanism
Volcanogenic Massive Sulfide Deposits / Banded Iron Formations / Exhalite Gold Deposits / Other Deposits Related to Submarine Volcanism

14. Deposits Related to Submarine Volcanism and Sedimentation
Mt. Isa Lead-Zinc-Silver-Copper Deposits, Queensland, Australia / Broken Hill Lead-Zinc-Silver Deposits, New South Wales, Australia

15. Deposits Related to Chemical Sedimentation
Sedimentary Base-Metal Deposits / Other Chemical Precipitates / Sedimentary Iron Deposits / Sedimentary Manganese Deposits / Phosphate Deposits / Evaporites / Manganese Nodules

16. Deposits Related to Clastic Sedimentation
Placer Deposits

17. Deposits Related to Weathering
Nickel Laterite Deposits, New Caledonia / Residual Manganese Deposits, Morro da Mina, Brazil / Bauxite Deposits, Jamaica / Supergene Sulfide Enrichments

18. Deposits Related to Regional Metamorphism
Gore Mountain Garnet Deposits, New York / Rossing Uranium Deposits, South-West Africa (Namibia)

19. Deposits Related to Solution-Remobilization
Yellowknife Gold Deposits, Northwest Territories, Canada / Porcupine-Timmins Gold Deposits, Ontario, Canada / Kirkland Lake–Larder Lake–Malartic Gold Deposits, Ontario-Quebec, Canada / Cobalt, Silver-Cobalt Deposits, Ontario, Canada

20. Epigenetic Deposits of Doubtful Igneous Connection
Mississippi Valley Type Deposits / Western States Uranium Deposits / Athabasca-Type Unconformity-Related Uranium Deposits

21. Metallogenic Provinces, Epochs, and Plate Tectonics