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Genesis, Evolution and Diversity of Life

Cellular Origin, Life in Extreme Habitats and Astrobiology Band 6

J. Seckbach

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Origins: Genesis, Evolution and Biodiversity of Microbial Life in the Universe is the sixth unit of the book series Cellular Origins, Life in Extreme Habitats and Astrobiology (COLE) edited by Joseph Seckbach. In this book forty eminent scientists review their studies in the fields of Life from the beginning to the "Fact of Life". The history of Origin of Life and Astrobiology is well covered by these authors. Reviews cover the standard and alternative scenarios of the genesis of Life, while the chapters of "The First Cells" leading to the biodiversity and extremophiles of microbial Life. Among these extremophiles are the microbes living in the Life's limits, such as in high temperature, psychrophilic, UV radiation, and halophilic environments. The origin and history of Martian water is discussed followed by the possible biogeochemistry inside Titan. This new field of Astrobiology has been presented, from comets as a source of materials and Life on earth to the space for last Frontiers.


Einband gebundene Ausgabe
Herausgeber Joseph Seckbach
Seitenzahl 709
Erscheinungsdatum 30.06.2004
Sprache Englisch
ISBN 978-1-4020-1813-8
Verlag Springer Netherland
Maße (L/B/H) 24,1/16/4,5 cm
Gewicht 1267 g
Abbildungen mit Farbabbildung,
Auflage 2004

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  • Foreword, Leslie E. Orgel; Preface, Joseph Seckbach; Acknowledgements, Joseph Seckbach; List of Authors and their Adresses; Legends for the Cover Photo; I. Origin & Evolution of Life. Introduction, Joseph Seckbach; The Fact of Life, Philip Morrison; Historical Review of the Origin of Life and Astrobiology, Florence Raulin-Cerceau; In the Beginning, Louis Lerman and Jacqueline Teng; II. The Standard Scenario. The Chemistry of Life’s Origins, Andre Brack; Prebiotic Amphiphilic Compounds: Self-Assembly and Properties of Early Membrane Structures, David W. Deamer; Theoretical and Computational Approaches to the Study of the Origin of Life, Daniel Segrè and Doron Lancet; The HCN World: Establishing Protein-Nucleic Acid Life via Hydrogen Cyanide Polymers, Clifford Matthews; The Possible Role of Volcanic Lightning in Chemical Evolution, Rafael Navarro-González and Antigona Segura; Chemistry in Prebiotic Aerosols: a Mechanism for the Origin of Life, Heikki Tervahattu, Adrian F. Tuck and Veronica Vaida; III. Alternatives to the Standard Scenario. Prebiotic Interplay between Fatty Acids and Amino Acids in Hydrothermal Environments, Koichiro Matsuno; The Role of Clays in the Origin of Life, Alicia Negron-Mendoza and Sergio Ramos-Bernal; Organomineralization: A Clue to the Understanding of Meteorite-Related 'Bacteria-Shaped' Carbonate Particles, Joachim Reitner; IV. The First Steps of Biological Evolution. Role of Nucleotide-Like Coenzymes in Primitive Evolution, Mikhail S. Kritsky and T.A. Telegina; Cosmic Thermobiology: Thermal Constraints on the Origin and Evolution of Life in the Universe, Charles H. Lineweaver and David W. Schwartzman; Paradigm Completion for Generalized Evolutionary Theory with Application to Epistemology, Yuval Ne’eman; V. The First Cells. The Outlines of Bacterial Evolution, Radhey S. Gupta; Cell Wall Structures of Mesophilic, Thermophilic and Hyperthermophilic Archaea, Helmut König, Harald Claus and Erol Akca; Potentional Role ofDissimilatory Iron Reduction in the Early Evolution of Microbial Respiration, Derek R. Lovley; The Evolution of Lipids in Prokaryotes, Y.H. Itoh and T. Itoh; Calcium Build-up in the Precambrian Sea: A Major Promoter in the Evolution of Eukaryotic Life, Józef Kazmierczak and S. Kempe; The Viral Eukaryogenesis Theory, P.J.L. Bell; VI. Extremophiles & Biodiversity. Introduction to the Extremophiles, Joseph Seckbach and Aharon Oren; Alkalithermophiles: A Double Challenge form Extreme Environments, V.V. Kevbrin, Christopher S. Romanek and J. Wiegel; Halophilic Microorganisms: Physiology and Phylogeny, Aharon Oren; Adaptation of Bacteria to the Terrestrial Permafrost Environment: A Biomodel for Astrobiology, Vera S. Soina and E.A. Vorobyova; Phototrophic Bacteria and UV Stress, Richard W. Castenholz; Importance of Chemolithotrophy for Early Life on Earth: The Tinto River (Iberian Pyritic Belt) Case, R. Amils, E. González-toril, F. Gómez, D. Fernández-Remolar, N. Rodríguez, M. Malki, J. Zuluaga, A. Aguilera, L.A. Amaral-Zettler; Glacial Periods on Early Earth and Implications for the Evolution of Life, Warwick F. Vincent, Derek Mueller, Patrick van Hove and Clive Howard-Williams; The Evolutionary Ecology of Species Diversity in Stressed and Extreme Environments, Dan Cohen; Microbial Diversity in Meso-Neoproterozoic Formations, with Particular Reference to the Himalaya, Vinod Chandra Tewari; Microbial Biodiversity within the Vibrionacean, Michele K. Nishiguchi and Bryan W. Jones; VII. Distribution & Destiny of Life in The Universe. Comets and the Origin of Life on the Primitive Earth, Joan Oró; Evaluating Comets as a Source of Earth’s Water, Humberto Campins, Timothy D. Swindle and David A. Kring; From Microbial Fossils to Astrobiology, Jan Toporski and Andrew Steele; Organisms in Extreme Environments: From the Origin and Early Evolution of Life on Earth to Astrobiology, David A Wharton; A Brief Geological History of Water on Mars, Victor R. Baker;