Overview

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

Full Product Details

Author:   Martin Homann (University College London, UK) ,  Wladyslaw Altermann (South African Committee for Stratigraphy, Pretoria) ,  Timothy W. Lyons (University of California, USA) ,  Richard E. Ernst
Publisher:   Elsevier Science Publishing Co Inc
Imprint:   Elsevier Science Publishing Co Inc
Edition:   2nd edition
ISBN:  

9780323955478

ISBN 10:   0323955479
Pages:   1040
Publication Date:   01 October 2025
Audience:   College/higher education ,  Professional and scholarly ,  Postgraduate, Research & Scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Forthcoming
Availability:   Not yet available  
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Table of Contents

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

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Author Information

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. Professor Wladyslaw Altermann is a regional geologist with expertise in Precambrian sedimentary systems, carbonate rocks, early life evolution, and more recently, CO₂ sequestration in South Africa. Originally from Poland, he earned his MSc and PhD (Dr. rer. nat.) at the Free University of Berlin (West), focusing on Permo-Carboniferous rocks of Thailand and Malaysia. He also worked for the German Federal Institute for Geosciences and Natural Resources (BGR) in Hannover and in Peru. In 1988, Prof. Altermann moved to South Africa, which became his third home. After a postdoctoral fellowship at the University of Stellenbosch, he returned to Germany to join LMU Munich, where he completed his second doctorate (Dr. habil.) in 1998, studying Archean carbonates, stromatolites, BIFs, and the western Kaapvaal Craton's structural geology. Prof. Altermann held postdoctoral positions at UCLA (USA), CBM–CNRS Orléans (France), and the University of Western Australia (Perth). He later became Associate Professor at LMU Munich, where he served as interim chair for several professorial positions and served as Honorary Professor at Shandong University of Technology (China) from 2003 to 2005. In 2009, he returned permanently to South Africa, joining the University of Pretoria as the Kumba-Exxaro Chair in Geodynamics of Mineral Deposits (mining industry supported Chair) and later becoming Head of the Department of Geology. Throughout his career, Prof. Altermann has been deeply involved in the scientific community, serving on national committees and editorial boards for international journals and as editor of books and special volumes. He was a Vice-President of the Geological Society of Africa and Chairman of the South African Committee for Stratigraphy. He retired from UP in 2019 and has since been working as a freelance geological consultant in Pretoria. Prof. Lyons is a Distinguished Professor of Biogeochemistry in the Department of Earth and Planetary Sciences, University of California-Riverside, and Director of the UCR Alternative Earths Astrobiology Center. Lyons currently leads the ‘Alternative Earths’ team of the NASA Astrobiology Institute and within NASA’s Interdisciplinary Consortia for Astrobiology Research. He is also a co-leader of NASA’s Prebiotic Chemistry and Early Earth Environments Research Coordination Network. He is a fellow of the Geological Society of America, the American Association for the Advancement of Science, the Geochemical Society, the European Association of Geochemistry, and the American Geophysical Union. He has been honored with visiting professorships throughout the world. He holds a B.S. from the Colorado School of Mines, an M.S. from the University of Arizona, and a Ph.D. from Yale University. His primary research interests include astrobiology, geobiology, Earth history, and the search for life beyond our solar system. Dr Richard Ernst is Scientist in Residence at Carleton University, Ottawa, Canada. His career has been focussed on Large Igneous Provinces (LIPs) with nearly 300 refereed publications on all aspects of LIPs: including their dramatic flood basalts, ‘plumbing system’ of mafic/ultramafic dykes, sills and layered intrusions, and association with carbonatites, kimberlites and silicic magmatism; links to supercontinent breakup, catastrophic environmental/climate change including mass extinction events, mineral, metal and hydrocarbon resource exploration, and planetary analogues; and characterizing the role of mantle plumes in their origin. He is the author of “Large Igneous Provinces”, Cambridge University Press (2014), a leader of the LIPs Commission of IAVCEI (since 2003), leader of the LIPs and Resource Exploration Program (“LIPs Industry Consortium”, since 2010), leader of the International Venus Research Group (IVRG) (since 2021). He received the 2022 Career Achievement Award of the Volcanology and Igneous Petrology Division (VIP) of the Geological Association of Canada, and was elected a Fellow of the Geological Society of America (2024). Prof. Heubeck is a regional ""soft-rock"" geologist. Originally from Germany, he completed an MSc at the University of Texas at Austin on Tertiary basins on the Caribbean island of Hispaniola, followed by a PhD from Stanford University on the Barberton Greenstone Belt of South Africa and Eswatini. He worked for six years as an explorationist and development geologist for Amoco and BP in the US and Canada before joining the Free University Berlin as a faculty member. There, he conducted studies on the Ediacaran-Cambrian boundary in Kazakhstan and China and on Andean Tertiary basins in South America before taking up his interest in the Barberton Greenstone Belt again. In 2014, he moved to the FSU Jena where he holds the chair of General and Historical Geology. Most of his studies are field-based, range from the grain- to the basin-scale, and use - in collaboration with experts - whatever methods are necessary to address the problem at hand. Dr. Stüeken obtained a BSc in Geosciences & Astrophysics at Jacobs University, Germany, in 2007 and a PhD in Earth Science and Astrobiology from the University of Washington, Seattle, USA, in 2014. She is now a lecturer at the University of St Andrews and the lead PI of the gas-source stable isotope laboratory. Her research focuses on reconstructing paleoenvironments and biogeochemical cycles, using a combination of field work, geochemical analyses, experiments, and modelling. Dr. Papineau has a PhD in Geological Sciences and Astrobiology from the University of Colorado at Boulder (2006) and a B.Sc. in Physics and Biochemistry from McGill University (2001) in Montréal. He has worked as a Postdoctoral Researcher at the Carnegie Institution of Washington (2006-2010) and as an Assistant Professor at Boston College (2010-2013). He is now an Associate Professor of Geochemistry and Astrobiology at the University College London (2013-) and is also a ‘Disciplinary Pioneering talent’ at the China University of Geosciences in Wuhan (2017-). The overarching theme of his research is about the origin and early evolution of life on Earth as an analogue for extra-terrestrial life. Specifically, he uses micro- to atomic scale chemical imaging techniques to study the geobiological record of the Precambrian. Dr. Rajat Mazumder received his M.Sc in Applied Geology in 1991 from the University of Allahabad, (India) and his Ph.D from Jadavpur University (India) in 2002. He was a Post-doctoral Fellow of the Japan Society for the Promotion of Science (JSPS) at Yokohama National University (2002-2004), Alexander Von Humboldt Foundation (2005-2006) at Munich University, Germany, and was a recipient of JSPS short-term invitation fellowship for experienced researchers in 2008. Dr. Mazumder taught Sedimentary Petrology, Mineralogy and Precambrian Stratigraphy at Asutosh College (University of Calcutta, 1999-2002), Indian Institute of Technology Roorkee (2006), and was an Associate Professor of Geology at the Indian Statistical Institute (2006-2013). He was a Research Fellow at the University of New South Wales Australia (2012-2014). Currently, Dr. Mazumder is an Associate Professor at Curtin University Sarawak, Malaysia and teaches Basin Analysis and Petroleum Systems, Tectonics and Dynamic Earth and Metamorphic Petrology. Dr. Mazumder was one of the global co-leaders of UNESCO-IGCP 509 research project (2005-2009) on the Paleoproterozoic Supercontinent and global evolution. He is an advisory editor of the Journal of the Geological Society of London and an Associate Editor of Marine and Petroleum Geology. His research is mostly focused on the earth’s surface processes during its early history. Paul Mason is a geologist and geochemist whose research has focused on environmental conditions on the Archean and Paleoproterozoic Earth and the links to tectonic and magmatic processes. He obtained his PhD at the University of London and is currently professor in Petrology at the University of Utrecht. His work involves fieldwork in Archean and Paleoproterozic greenstone belts and sedimentary basins with a focus on microanalytical techniques for isotopic and trace element analysis of minerals and rocks.

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