- Desert Microbes Drive Soil Carbon Sinks in Arid Regions
- Microbial Life-history Strategy Regulates Soil Organic Carbon Accumulation in Hyper-Arid Regions
- Deep-Rooted Plants Unveiled as Unsung Heroes in Fight Against Desertification and Climate Change
- Desert Ecosystems Emerge as Frontiers for Carbon Sequestration and Climate Action, New Review Finds
- Surface Uplift in Late Miocene Shapes Western Tibetan Plateau
- Study Uncovers Role of Hydroxyl Radical in Greenhouse Gas Production During Soil Drying–Rewetting
- Strigolactone Is Key Root Hormone for Developing Climate-Resilient Crops and Novel Agrochemicals
- New Review Reveals How Hydrogen Peroxide Enhances Plant Capacities Under Abiotic Stresses
- Study Reveals Significant "Land Debt" in Asian Drylands
- Global Warming Is Reshaping Extreme Precipitation Events across Northern Hemisphere
- Aridity and Grazing Pave Way for Invasive Weeds in Northern China
- Researchers Uncover Molecular Mechanisms of Desiccation Tolerance in Desert Moss
- Desert Bacterium Shows Promise in Combating Crop Fungi and Boosting Plant Growth
- Global Greening Causes Significant Soil Moisture Loss, Study Finds
- Human Disturbances Drive Significant Soil Carbon Loss in Hyper-arid Deserts, Study Reveals