The Archean Earth

<p>Chapter 1. FORMATION OF A HABITABLE PLANET<br>1.1. Introduction<br>1.2. Earth's Formation and First Billion Years<br>1.3. Setting the stage: Building and maintaining a habitable world and the early conditions that could favor life&rsquo;s beginnings on Earth and beyond<br>1.4. Early Impacts: Processes and the Terrestrial Record<br>1.5 Our Solar System Neighborhood: Three Diverging Tales of Planetary Habitability and Windows to Earth&rsquo;s Past and Future<br>1.6. What the Zircon Record Reveals About the Habitability of the Hadean Earth<br>Chapter 2. EVOLUTION OF EARTH&rsquo;S INTERIOR<br>2.1. Introduction<br>2.2. Archean Mantle Heat Transport and Thermal Evolution<br>2.3. Generation and Preservation of Archean Lithosphere and Crust<br>2.4. Mantle Differentiation, Mixing and Interior-Exterior Exchange<br>Chapter 3. ARCHEAN MAGMATISM, TECTONICS AND CONTINENTAL CRUST<br>3.1. Introduction<br>3.2. Archean to Mesozoic-Cenozoic Seismic Crustal Structure: Implications for Geological and<br> Biological Evolution<br>3.3. Archean Greenstones and Evolving Tectonic Regimes on Earth<br>3.4. Towards quantification of the style of Archean plate tectonics from paleo-plate boundary features<br>3.5. Archean Greenstone Belts: Records of Pre-/Non-Plate Tectonics<br>3.6. Komatiites: their geochemistry and origins<br>3.7 Record of Archean and earliest Proterozoic Large Igneous Provinces (LIPs) and their mafic dyke swarms<br>3.8. The PalaeoPlates compilation of Earth&rsquo;s crustal blocks: Implications for continental growth, recycling, and preservation, and for global paleogeographic reconstructions in Archean and Proterozoic time<br>3.9. Additional aspects on the Archean magmatic and tectonic record<br><br><br><br><br>Chapter 4. ATMOSPHERIC EVOLUTION AND BIOGEOCHEMICAL CYCLES<br>4.1. Introduction<br>4.2. Oxygenating Earth<br>4.3. Evolution of the Archean Atmosphere<br>4.4. Iron formations: Unique archives to reconstruct the Precambrian Earth<br>4.5. Ephemeral subaerial environments, paleosols, and life on land: consequences for early continental weathering and global biogeochemistry<br>4.6 Evolving weathering processes during the Archean Eon<br>4.7. Evolution of Earth's Biogeochemical Cycles<br>4.7.1. Metal sources and sinks<br>4.7.2. Biogeochemical nitrogen cycling on the Archean Earth<br>4.7.3. Phosphorus bioabailability<br>4.7.4 Archean Methane Cycling and Life's Co-Evolution: Intertwining Early Biogeochemical Processes and Ancient Microbial Metabolism<br>Chapter 5. EVOLUTION OF LIFE AND ARCHEAN GEOBIOLOGY<br>5.1. Introduction, Archean cherts?<br>5.2. Biosignatures and tests of biogenicity in the early rock record<br>5.3. Origins of Archean organic matter<br>5.4. Microbial Mats in the Siliciclastic Rock Record<br>5.5. Occurrence and Biogenicity of Archean Stromatolites and Microbial Mats<br>5.6. The Archean microfossil record<br>5.7. Evidence of Earth's Early Biosphere<br>5.7.1. Critical evaluation of the age and biosignatures of Earth&rsquo;s oldest purported fossils from the Nuvvuagittuq Supracrustal Belt<br>5.7.2. Seeking Eoarchean Life Signatures in the Isua Supracrustal Belt and the Akilia Association (Greenland)<br>5.7.3. Evidence of Earth&rsquo;s Early Biosphere from the Pilbara region, Western Australia.<br>5.7.4. South Africa&rsquo;s Paleoarchean record of early life<br>5.7.5. The Archaean record of the Singhbhum Craton – a new window into early life on Earth<br>5.8. Archean Carbonate Platforms<br>5.9. Evolving Life and secular changes in the Archean Sedimentation Patterns<br>Chapter 6. SEDIMENTATION THROUGH ARCHEAN TIME<br>6.1. Introduction <br>6.2. Archean Tides and Tidalites: Recognition and Significance<br>6.3. Archean alluvial, fluvial, lacustrine and glacial deposits: An overview<br>6.4. Archean Eolian Dynamics, Deposits, and Indicators of Other Weather Phenomena: Lessons from Earth and Mars<br>6.5. Sedimentary basins of (Paleo-)Archean greenstone belts<br>6.6. Comparing the Archean stratigraphic sequences of India and South Africa <br>6.7. Visualizing the Archean through AI</p>