The origin of life was an event probably unique in the Earth's history, and reconstructing this event is like assembling a puzzle made up of many pieces. These pieces are composed of information acquired from many different disciplines. The aim of this 1999 book is to integrate discoveries in astronomy, planetology, palaeontology, biology and chemistry, and use this knowledge to present plausible scenarios that give us a better understanding of the likely origin of life on Earth. Twenty-three top experts contribute chapters that discuss everything from the environment and atmosphere of the early Earth, through the appearance of organic molecules in the prebiotic environment, to primitive chiral chemical systems capable of self-replication and evolution by mutation. The book also discusses various clues to the origin of life that can be obtained by a study of the past and present microbial world, as well as from Saturn's moon Titan and the planet Mars. Chemists, biologists, earth scientists, and astronomers will find this book a thought-provoking summary of our knowledge of this extraordinary event.
Rezensionen / Stimmen
'Every chapter in this book is relevant and interesting ... a 'must' for the departmental library.' Dorian Pritchard, British Society for Developmental Biology
Sprache
Verlagsort
Zielgruppe
Produkt-Hinweis
Illustrationen
23 Tables, unspecified; 31 Halftones, unspecified; 74 Line drawings, unspecified
Maße
Höhe: 234 mm
Breite: 156 mm
Dicke: 23 mm
Gewicht
ISBN-13
978-0-521-56475-5 (9780521564755)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Klassifikation
Herausgeber*in
Centre National de la Recherche Scientifique (CNRS), Paris
List of contributors; Introduction Andre Brack; Part I. Setting the Stage: 1. The origin of the atmosphere Tobias C. Owen; 2. The early atmosphere as a source of biogenic compounds James F. Kasting, and Lisa L. Brown; Part II. Organic Molecules on the Primitive Earth: 3. The endogenous synthesis of organic compounds Stanley L. Miller; 4. Hydrothermal systems Nils G. Holm, and Eva M. Andersson; 5. Cosmic origin of the biosphere Armand H. Delsemme; 6. Meteorites John R. Cronin; 7. Micrometeorites on the early Earth Michel Maurette; Part III. Possible Starts for Primitive Life: 8. Membrane compartments in prebiotic evolution David W. Deamer; 9. A step-by-step analysis of the early chemistry of life in an iron-sulfur world Guenter Waechtershauser; 10. The thioester world Christian de Duve; 11. Origins of the RNA world Alan W. Schwartz; 12. Catalysis of RNA synthesis: a possible route from prebiotic chemistry to the RNA world James P. Ferris; 13. Catalysis in the RNA world Kenneth D. James, and Andrew W. Ellington; 14. Self-replication and autocatalysis Jens Burmeister, and Guenter von Kiedrowski; Part IV. Clues from the Bacterial World: 15. Hyperthermophiles and their possible role as ancestors of modern life Karl O. Stetter; 16. Tracing the roots of the universal tree of life J. William Schopf; Part V. Clues from Other Planets: 17. Titan Francois Raulin; 18. Life on Mars Christopher P. McKay; Part VI. Conclusion Andre Brack.
