Introduction to Ore-Forming Processes. Laurence Robb

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Название Introduction to Ore-Forming Processes
Автор произведения Laurence Robb
Жанр География
Серия
Издательство География
Год выпуска 0
isbn 9781119232384



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of topics into a curriculum that provides understanding of the entity. Understanding the processes involved in the formation of the enormously diverse ore deposit types found on Earth is necessary, not only because of its practical relevance to the real world, but also because such processes form an integral and informative part of the Earth's evolution.

      The purpose of this process‐orientated book is to provide a better understanding of the nature and origin of mineral occurrences and how they fit into the Earth system. It is intended for use at a senior undergraduate level, or at a graduate level, and assumes a basic knowledge in a wide range of earth science disciplines, as well as in chemistry and physics. It is also hoped that practicing geologists in the minerals and related industries will find the book useful as a summary and update of ore‐forming processes. To this end the text is punctuated by a number of boxed case studies in which actual ore deposits, selected as classic examples from around the world, are briefly described to give context and relevance to processes being discussed in the main text.

Schematic illustration of the (a) Classification of the principal rock types and (b) a simple classification of ore deposits also based on host rock type. Parts 1, 2, and 3 represent the breakdown of sections in this book. Photos depict the examples representing the main ore forming processes. (c) Igneous: magmatic layering and chromitite seams, Critical Zone, Bushveld Complex, South Africa. (d) Sedimentary: Au- and U-bearing conglomerate from the Witwatersrand Basin, South Africa. (e) Hydrothermal: quartz-carbonate vein network in metasedimentary host rocks of the Lily gold mine, Barberton greenstone belt, South Africa.

      The main part of this book is subdivided into three sections termed Igneous (Part I), Hydrothermal (Part II), and Sedimentary/Surficial (Part III) (Figure 1a–e). Part I comprises Chapters 1 and 2, which deal with igneous and magmatic‐hydrothermal ore‐forming processes respectively. Part II contains Chapter 3 and covers the large and diverse range of hydrothermal processes not covered in Part I. Part III comprises Chapter 4 on surficial and supergene processes, as well as Chapter 5, which covers sedimentary ore deposits, including a section on the fossil fuels. The final chapter of the book, Chapter 6, is effectively an addendum to this threefold subdivision and is an attempt to describe the distribution of ore deposits, both spatially in the context of global tectonics and temporally in terms of crustal evolution, through Earth history. This chapter is relevant because the plate tectonic paradigm, which has so pervasively influenced geological thought since the early 1970s, provides another conceptual basis within which to classify ore deposits. In fact, modern economic geology, and the scientific exploration of mineral deposits, is now firmly cast into the frame of global tectonics and crustal evolution. Although there is still a great deal to be learnt, the links between plate tectonics and ore genesis are now sufficiently well established that studies of ore deposits are starting to contribute to a better understanding of the Earth system.