The Archean Earth (2^nd Ed.) Tempos and Events

Langue : Anglais

Coordonnateurs : Homann Martin, Zerkle Aubrey, Webb Alex, Altermann Wladyslaw, Ernst Richard R., Heubeck Christoph, Lyons Timothy, Mason Paul A., Mazumder Rajat, Papineau Dominic, Stueeken Eva

Résumé
Sommaire
Biographie
Commentaire

The Archean Earth: Tempos and Events, Second Edition is a process-based reference book that focuses on the most important events in early Earth, bringing together experts across Earth Sciences to give a comprehensive overview of the main events of the Archean Eon, as well as of the rates at which important geological and geobiological processes occurred in the same time interval. Over the last two decades, significant progress has been made in our understanding of the processes and events on the early Earth corresponding to advances in the analytical technologies and the continuing efforts of many colleagues that pursue their passion of unravelling the Archean rock record. The book addresses the origin of the Earth, succeeding impact events, and the evolution of the early Earth, covering topics such as Archean tectonics, volcanism, generation of continental crust, and the ongoing debate about the onset of plate tectonics; the evolution and models for Earth's hydrosphere and atmosphere; the Archean atmosphere and chemical sedimentation; and sedimentation through Archean time; among others. Each topic is well-illustrated and includes a closing commentary at the end of each chapter, leading up to the final chapter which blends the major geological events and rates at which important processes occurred into a synthesis, postulating a number of "event clusters" in the Archean when significant changes occurred in many natural systems and geological environments

Section 1. FORMATION OF A HABITABLE PLANET 1.1. Introduction 1.2. Earth's Formation and First Billion Years 1.3. The Terrestrial Record of The Late Heavy Bombardment 1.4. Earth’s Oldest Rocks: A Brief Overview About the Distribution of Archean Greenstone Belts 1.5. Lessons from Other Planetary Bodies and Extra-Solar Planets 1.6. Summary Section 2. ARCHEAN TECTONICS AND VOLCANISM 2.1. Introduction 2.2. Archean-Paleoproterozoic Superplume Events and Lips 2.3. Episodic Crustal Growth During Catastrophic Global-Scale Mantle Overturn Events 2.4. Onset of Plate Tectonics 2.5 Archean-Paleoproterozoic Continental Reconstructions 2.6. Archean Gold Mineralization 2.7. Komatiites: Volcanology, Geochemistry and Textures 2.8. Archean And Greenstone Belts: Setting and Evolution 2.9 Lessons from Planetary Volcanism 2.10. Summary Section 3. GENERATION OF CONTINENTAL CRUST 3.1. Introduction 3.2. Komatiite: Implications for Mantle Composition and Geodynamic Processes 3.3. Emergence of Subaerial Crust and Onset of Weathering 3.4. Composition of Early Continental Crust 3.5. Granite Formation and Emplacement as Indicators of Archaean Tectonic Processes 3.6. Diapiric Processes in The Formation of Archaean Continental Crust 3.7. Early Archaean Crustal Collapse Structures and Sedimentary Basin Dynamics 3.8. Crustal Growth Rates 3.9. Summary Section 4. ATMOSPHERIC EVOLUTION AND ENVIRONMENTS 4.1. Introduction 4.2. Archean Atmosphere, Hydrosphere and Biosphere Evolution: Insights from The Isotopic Record 4.3. The Sulphur Isotope Record of Evolving Atmospheric Oxygen 4.4. Banded Iron Formations 4.5. Archean Surface Environments 4.6. Archean Weathering and Climate 4.7. Summary Section 5. EVOLUTION OF LIFE AND ARCHEAN GEOBIOLOGY 5.1. Introduction 5.2. Biogenicity Criteria 5.3. Evidence of Earth's Early Biosphere (Case Studies) 5.3.1. Nuvvuagittuq Supracrustal Belt 5.3.2. Pilbara Craton 5.3.3. Barberton Greenstone Belt 5.3.4. Insights into The Palaeoarchaean Record of The Singhbhum Craton, India 5.4. Organic Origin of Archean Carbonates: Insights from Modern Microbial Analogues 5.5. Origin and Evolution of Photosynthesis: A Molecular Biology Approach 5.6. Earth First Carbonate Platform 5.7. Occurrence and Biogenicity Of Archean Stromatolites and Microbial Mats 5.7. Evolution of Earth's Biogeochemical Cycles 5.8. Organic Geochemical Approaches to Understanding Early Life 5.9. The Paleoarchean Microfossil Record – A Critical Review 5.10. Evolving Life and Its Effect on Precambrian Sedimentation 5.10. Summary Section 6. SEDIMENTATION THROUGH ARCHEAN TIME 6.1. Introduction 6.2. Sedimentary Structures: An Essential Key for Interpreting the Archean Rock Record 6.3. Archean Sedimentary Sequences 6.4. Precambrian Tidalites: Recognition and Significance 6.5 Sedimentary Dynamics of Precambrian Aeolianites & Archean Witnesses of Weather Phenomena 6.6. Archean Fluvial and Lacustrine Deposits 6.7. Microbial Mats in The Siliciclastic Rock Record: A Summary of Diagnostic Features 6.8. Sedimentation Rates 6.9. S Section 7. TOWARDS A SYNTHESIS

Dr. Homann obtained a MSc in Geology at Potsdam University, Germany, in 2010 and a PhD in Sedimentology and Geobiology from the Free University Berlin, Germany, in 2016. After three years of postdoctoral research at the University of Western Brittany, France, he is now a lecturer in Sedimentology at the University College London. His research is focused on the Archean biosphere, the environments in which microbial life was thriving and the morphological and geochemical traces it left behind in the sedimentary rock record.
Dr. Aubrey Zerkle is a Reader in the School of Earth and Environmental Sciences and the Centre for Exoplanet Science at the University of St Andrews in Scotland, UK. Her research combines inter-disciplinary techniques in stable isotope geochemistry and geobiology to explore the co-evolution of life with planetary environments over geologic timescales.
Richard R. Ernst is a Swiss physical chemist and Nobel Laureate. Ernst was awarded the Nobel Prize in Chemistry in 1991 for his contributions towards the development of Fourier transform Nuclear Magnetic Resonance (NMR) spectroscopy while at Varian Associates, Palo Alto and the subsequent development of multi-dimensional NMR techniques. Ernst served as faculty at ETH Zurich, Switzerland, from which he is now retired. Ernst also is credited with many inventions and held several patents in his field. In addition to Ernst’s Nobel prize, he is a foreign fellow of the Bangladesh Academy of Sciences, was elected a Foreign Member of the Royal Society (ForMemRS) in 1993, and was awarded the John Gamble Kirkwood Medal in 1989, the Louisa Gross Horwitz Prize of Columbia University in 1991, the Tadeus Reichstein Medal in 2000, and the Romanian National Medal in 2004. He holds Honorary Doctorates from the Technical University of Munich and University of Zurich. Ernst is member of the World Knowledge Dialogue Scientific Board. Ernst is extremely interested and knowledgeable concerning Tibetan Buddhist art.

Provides a comprehensive introduction and overview on early Earth, highlighting the Archean Eon in the context of the larger time scales
Presents detailed descriptions of the main processes, events, and rates that occurred throughout the Archean
Offers an assessment of the first habitable environments, the preserved morphological and geochemical traces of early life, and the impact it had on Earth's biogeochemical cycles