Heavy Minerals: Methods & Case Histories

doi:10.3390/books978-3-03936-131-1

Reprint

Download Flyer

Heavy Minerals: Methods & Case Histories

Edited by

June 2020

311 pages

ISBN978-3-03936-130-4 (Hardback)
ISBN978-3-03936-131-1 (PDF)

https://doi.org/10.3390/books978-3-03936-131-1

Free download (PDF)

This book is a reprint of the Special Issue Heavy Minerals: Methods & Case Histories that was published in

Chemistry & Materials Science

Engineering

Environmental & Earth Sciences

Summary

The principal aim of this book is to provide a wide range of information and a useful reference for researchers interested to investigate heavy mineral assemblages in different geological settings and for a variety of purposes. The methodological developments achieved in recent years for the identification of heavy minerals in a wide grain-size range are illustrated. All factors that affect heavy mineral concentration and relative proportions, including hydraulic sorting, mechanical abrasion, chemical weathering, and post-depositional dissolution, and all factors able to introduce analytical, environmental, or diagenetic bias are thoroughly addressed. A proper integration of multiple techniques including bulk sediment, multi-mineral, and single-mineral methods are discussed by renowned authors in their invited contributions.

Format

Hardback

License

Keywords

heavy minerals; correlation; North Sea; Jurassic; Triassic; Carboniferous; Devonian; relative and absolute abundances; sampling strategy; size-window for analysis; heavy mineral point-counting; provenance and plate-tectonic setting; chemical weathering; hydraulic sorting; recycling; diagenesis; sediment; provenance; statistics; zircon; heavy minerals; point counting; petrography; mineral grains composition; surface textures; sources; WNW Portuguese Continental Margin; Raman spectroscopy; heavy minerals; sedimentary provenance; automatization; heavy mineral; Pliocene; the Changjiang Delta; amphibole; surface texture; amphibole; garnet; epidote; pyroxene; provenance tracers; varietal studies; mineral chemistry; semi-automated Raman counting; Ladakh-Kohistan arcs; Himalaya; Nanga Parbat; Karakorum; Indus river; Raman spectroscopy; amphiboles; tremolite; actinolite; heavy minerals; provenance analysis; tectonic versus climatic control; early-middle Pleistocene transition; Yellow River terraces; Lanzhou (northern China); provenance analysis; sieving of fine silt; fallacy of laser granulometry; benthic foraminifera; heavy minerals; Raman spectroscopy; Ganga–Brahmaputra river system; Bay of Bengal; Himalayan orogen; bulk-sediment petrography; bulk-sediment geochemistry; heavy minerals; selective entrainment; suspension sorting; chemical indices of weathering; sediment budgets; Brahmaputra River; Ganga River; Himalayan orogen; handbook for laboratory procedures; nontoxic heavy liquids; wet sieving of silt; size-window for analysis; zircon separation; heavy-mineral mounts; provenance analysis; n/a