Illustrating Early Earth The Young Earth Under the Cool Sun Long-Term Planning for Deep-Time Labs A Simple Recipe for Making the First Continental Crust Updating Dating Helps Tackle Deep-Time Quandaries Earth’s Continents Share an Ancient Crustal Ancestor Meet Jane, the Zircon Grain—Geochronology’s New Mascot How to Work in the Dark on Deep Time A Sea of Possibilities A New Mayflower, Named for the Past, Autonomously Navigates the Future The Century-Old Renewable You’ve Never Heard Of The 2-Year Countdown to Deep-Sea Mining Quit Worrying About Uncertainty in Sea Level Projections Melting Arctic Sea Ice Strengthens Tides Science Off the Seashore Hardware Solutions A Bright, LED-Lit Future for the Ocean Sciences Lasers and Ultracold Atoms for a Changing Earth Cormorants are Helping Characterize Coastal Ocean Environments Autonomous Vehicles Could Benefit from Nature “The Internet of Things” Boosts Agricultural Livelihoods in India Lasers Have the Makings of a 21st-Century Geoscience Tool Build It, and the Science Will Come Science is Society The Capital’s Waterways Could Be Swimmable by 2030 Ocean Terrain and the Engineering Challenges for Offshore Wind Farms Water Wisdom: The Indigenous Scientists Walking in Two Worlds Australia’s Unfolding Geoscience Malady Hear Ye! Hear Ye! A Declaration of the Rights of the Moon Chile’s Glacier Protection Law Needs Grounding in Sound Science Forecasters Navigate a HIGHWAY to Success Around Lake Victoria Knowledge Brings Us Together Après Snowpack The Challenges of Forecasting Small, But Mighty, Polar Lows The Changing Climate’s Snowball Effect How the Ski Industry Stopped Worrying and Learned to Love Climate Activism How Infrastructure Standards Miss the Mark on Snowmelt The Who, What, When, Where, and Why of the Polar Vortex Testing on the Tundra: NASA Snow Program Heads North SnowSchool Spans the States Winter’s Melting Point The Career Issue Choose Your Own Geoscience Adventure Higher Education During the Pandemic: Truths and Takeaways Reimagining STEM Workforce Development as a Braided River Charting the Paths to a Scientific Career New Telescope, New Worlds Exoplanets in the Shadows Overture to Exoplanets The Forecast for Exoplanets is Cloudy but Bright “Earth Cousins” Are New Targets for Planetary Materials Research Oddballs of the Exoplanet Realm Thousands of Stars View Earth as a Transiting Exoplanet Taking Stock of Cosmic Rays in the Solar System Gap in Exoplanet Size Shifts with Age Unveiling the Next Exoplanet Act Science at Its Core Cores 3.0: Future-Proofing Earth Sciences’ Historical Records Improving Access to Paleoclimate Data An Unbroken Record of Climate During the Age of Dinosaurs Narwhal Tusks Record Changes in the Marine Arctic Cold Curriculum for a Hot Topic The Catcher in the Ice Cutting to the Core Urban Forests Growing Equity in City Green Space Community Forests Prepare for Climate Change The Surprising Root of the Massachusetts Fight Against Natural Gas Aerial Photographs Uncover Bogotá’s Indigenous Hydraulic System Growing Healthy City Canopies What’s Going on in Geospace? An Observational Gap at the Edge of Space Charting Satellite Courses in a Crowded Thermosphere Flying Saucers Could One Day Probe the Mesosphere Auroral “Dunes” Light Up Earth’s Atmosphere Rocket Mission Conjures a Ghostly Noctilucent Cloud Modeling Gravity Waves with Machine Learning Gravity Waves Leave Ripples Across a Glowing Night Sky Paying Attention to the “Ignorosphere” GeoPRISMS: Filling In the Margins Slipping and Locking in Earth’s Earthquake Factories Earth’s Volatile Balancing Act Breaking Up Is Hard to Do, Especially for Continents A Successful Model for Interdisciplinary Research Crossing the Shoreline Before and After the Disaster Natural Hazards Have Unnatural Impacts—What More Can Science Do? Where Do People Fit into a Global Hazard Model? Assessing Social Equity in Disasters Building Resilience in Rural America Human Activity Makes India’s Coastlines More Vulnerable Long-Term Drought Harms Mental Health in Rural Communities Women Are Still Not Heard in the Climate Policy Conversation Building Equity into Hazards Research Food Security and Geoscience Climate Change Uproots Global Agriculture Solving Shared Problems at the Food, Energy, and Water Nexus Sowing Seeds of Food Security in Africa Modeling Groundwater and Crop Production in the U.S. High Plains Network Connects Indigenous Knowledges in the Arctic and U.S. Southwest Our Food Systems Are Complicated. Food Data Don’t Have to Be Enhancing Food Security Through Earth Science Data Cover Crops, Sensors, and Food Security Urban Agriculture Combats Food Insecurity, Builds Community Our Place in the Food Security Chain Tracking Magnetic Fields A Field Guide to the Magnetic Solar System The Herky-Jerky Weirdness of Earth’s Magnetic Field Habitability and the Evolution of Life Under Our Magnetic Shield Modeling Earth’s Ever-Shifting Magnetism Do Uranus’s Moons Have Subsurface Oceans? Measuring Massive Magnetic Meteorites A Robust Proxy for Geomagnetic Reversal Rates in Deep Time Making Geosciences Antiracist Geoscience Commits to Racial Justice. Now We’ve Got Work to Do Deep Biases Prevent Diverse Talent from Advancing What’s in a Seminar? Scientific Meetings for All Promoting Racial Diversity in Geoscience Through Transparency Laying Proper Foundations for Diversity in the Geosciences Eos 简体中文版 测量火星大气中的碳离子损失 热液微生物可产生绿色能源 科学家倒转时间追踪火星上的甲烷排放 海洋地壳中的断层导致慢地震波 地震资料中的断层和褶皱信号 Eos en Español ¿Cuánto tiempo permanecen las partículas de carbono negro en la atmósfera? Pequeños cambios climáticos podrían verse magnificados por procesos naturales Tecnología de punta, serendipia y los secretos del Stonehenge ¿Es Venus volcánicamente activo? Nuevo enfoque podría proporcionar una respuesta El sorprendente alcance de las gigantescas ondas atmosféricas de Tonga Geoscience During COVID-19 Exposure to Low Levels of Air Pollution Increases COVID-19 Risk Cleaner Pandemic Air Led to Reduced Lightning Strikes Worldwide Remote Work May Be Keeping Some Cities’ Air Cleaner Aerosol Scientists Try to Clear the Air About COVID-19 Transmission A Bad Time for Mars Time Reimagining the Colorado River by Exploring Extreme Events