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This volume presents the latest science on all significant geological and paleontological aspects of the Earth during the Late Triassic Period. Rather than presenting a collection of narrowly focused research papers, the volume consists of a series of peer-reviewed chapters on specific aspects of the Late Triassic world (e.g., tectonics, magmatism, paleobotany, climate, etc.), all authored by experts in the subject of their respective chapters. Each chapter reviews and summarizes the latest findings in these fields and also includes a review of the pertinent literature. The author list is very broadly international and forms a veritable who’s who of expertise in these fields. The book is loosely organized to present the physical aspects of Earth during the Late Triassic at the outset, followed by the paleontological aspects. The latter section is further organized to present the record of the marine environment first before moving onto land, with fauna followed by flora. The volume closes with a review of the end-Triassic extinctions.
An annotated bibliography of over 2,050 references associated with borate minerals from Death Valley, Mojave Desert, and Nevada. Sources include journal articles, papers, conference proceedings, books, book chapters, and other literature published from the 1860s into 2024. The bibliography is divided into 16 chapters: History, Boron and Borates, Chemistry and Crystal Structure, Mineralogy, Geology, California, Death Valley, Searles Lake, Mojave Desert, Kramer, Calico, Fort Cady, Tick Canyon, Ventura, Nevada, and Annual Reviews. Contains appendices of supplemental information on borate minerals, color photographs, and an alphabetical index of authors. 638 pages. Key words: borax, colemanite, kernite, probertite, and ulexite.
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The present book combines three main aspects: five major mass extinctions; contributions on some other minor extinctions; and more importantly contributions on the current mass extinction. All three aspects are introduced through interesting studies of mass extinctions in diverse organisms ranging from small invertebrates to mammals and take account of the most accepted subjects discussing mass extinctions in insects, mammals, fishes, ostracods and molluscs.
This book provides an up-to-date compilation of the latest research on the petrography, facies, paleonvironmental significance and economic aspects of continental carbonates. The overall organization of the book first emphasizes the descriptive aspects and processes operating on carbonate deposits in greatly varied settings, and then considers applications for basin analysis, as well as economic and historical aspects. This volume will be a valuable tool for graduate and postgraduate students as well as for experienced researchers. The first part (volume 61 in this series) will deal with the facies, environments, and processes of carbonates in continental settings. - Covering the greatly varied aspects of carbonate deposits from continental settings deposits - Clear and easy to follow organization of the book - Graduate to postgraduate level - Up to date information, so readers can find references from the classic literature to the most recent research
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The Mesozoic Era begins with the approximately 50-million-year-long Triassic Period, a major juncture in Earth history when the vast Pangaean supercontinent completed its assembly and began its fragmentation, and the global biota diversified and modern-ized after the end-Permian mass extinction, the most extensive biotic decimation of the Phanerozoic. The temporal ordering of geological and biotic events during Triassic time thus is critical to the interpretation of some unique and pivotal events in Earth his-tory. This temporal ordering is mostly based on the Triassic time-scale, which has been developed and refined for nearly two centu-ries. This book reviews the state of the art of the Triassic timescale and includes comprehensive analyses of Triassic radio-isotopic ages, magnetostratigraphy, isotope-based and cyclostratigraphic correlations and timescale -relevant marine and non-marine bio-stratigraphy.
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