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Subseafloor Biosphere Linked to Hydrothermal Systems
This book is the comprehensive volume of the TAIGA (“a great river ” in Japanese) project. Supported by the Japanese government, the project examined the hypothesis that the subseafloor fluid advection system (subseafloor TAIGA) can be categorized into four types, TAIGAs of sulfur, hydrogen, carbon (methane), and iron, according to the most dominant reducing substance, and the chemolithoautotrophic bacteria/archaea that are inextricably associated with respective types of TAIGAs which are strongly affected by their geological background such as surrounding host rocks and tectonic settings. Sub-seafloor ecosystems are sustained by hydrothermal circulation or TAIGA that carry chemical energy to the chemosynthetic microbes living in an extreme environment. The results of the project have been summarized comprehensively in 50 chapters, and this book provides an overall introduction and relevant topics on the mid-ocean ridge system of the Indian Ocean and on the arc-backarc systems of the Southern Mariana Trough and Okinawa Trough.
Basic Concepts and Recent Advances in Microbial Diversity, Taxonomy, Speciation and Evolution
This book delves into the fundamental principles that underpin the classification and understanding of bacteria, from the basic concepts to the latest advances. This book encompasses numerous topics related to diversity, such as speciation and evolution of species, microbial diversity, and methods for estimating diversity and taxonomy of bacteria. The reader can gain valuable insights into the cutting-edge techniques used to identify and classify bacteria, such as genomics, metagenomics, and phylogenetic analysis. With expert contributions from leading scientists, this comprehensive guide offers a holistic view of the microbial world in the context of their role in global biodiversity, and explores the upcoming role of machine learning and artificial intelligence for exploration of bacterial diversity. For students and researchers in microbiology, genetics and biotechnology, this book is an essential resource for unravelling the mysteries of bacterial speciation, evolution, diversity, and taxonomy.
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Fossil Crinoids
Crinoids have graced the oceans for more than 500 million years. Among the most attractive fossils, crinoids had a key role in the ecology of marine communities through much of the fossil record, and their remains are prominent rock forming constituents of many limestones. This is the first comprehensive volume to bring together their form and function, classification, evolutionary history, occurrence, preservation and ecology. The main part of the book is devoted to assemblages of intact fossil crinoids, which are described in their geological setting in twenty-three chapters ranging from the Ordovician to the Tertiary. The final chapter deals with living sea lilies and feather stars. The volume is exquisitely illustrated with abundant photographs and line drawings of crinoids from sites around the world. This authoritative account recreates a fascinating picture of fossil crinoids for paleontologists, geologists, evolutionary and marine biologists, ecologists and amateur fossil collectors.
Ocean Margin Systems
Ocean margins are the transitional zones between the oceans and continents. They represent dynamic systems in which numerous processes shape the environment and result in impacting the utilization and hazard potentials for humans. These processes are influenced by a variety of steering mechanisms, from mountain building and climate on the land to tectonics and sea-level fluctuations in ocean margins. This book examines various aspects of regulation for the long-term development of ocean margins, of the impact of fluids and of the dynamics of benthic life at and below the seafloor in ocean margin systems.
