National Integrated Drought Information System
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Recent News About National Integrated Drought Information System
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Using Soil Moisture Information to Better Understand and Predict Wildfire Danger
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Severe Summer Wildfires Are Impacting Western U.S. Mountain Snowpack During Winter and Spring
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NIDIS to Lead AMS Sessions on Megadrought, Drought Analysis & Prediction, and More
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Western Snow Season 2022-23 Preview: A Look at Water Supplies and the Winter Outlook in 10 Maps
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Megadroughts in the Common Era and the Anthropocene
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Young Scientists Study Environmental Indicators in Lead Up to Destructive Wildfires
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NIDIS Awards Over $5.7 Million for Projects on Ecological Drought and Tribal Drought Resilience
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Western U.S. Streamflow Declines Respond Asymmetrically to Seasonal Climate Warming
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What Caused The Summer 2020 to Spring 2021 Drought in Southwestern North America?
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Drought.gov Launches New Map Feature for Tribal Nations
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Drought Assessment Has Been Outpaced by Climate Change: Empirical Arguments for a Paradigm Shift
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Research Confirms the Role of Citizen Science Contributions to Drought Detection and Monitoring
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National Soil Moisture Network Investments Lead to Expansion of Mesonet at SD State
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NIDIS and Partners Chair AMS Sessions on Drought and Climate Science
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Seeking COVID’s Kryptonite
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In the western U.S., the impacts of drought conditions in the 21st century are increasingly evident as extended fire seasons, dwindling water supplies, and widespread tree mortality are becoming more common occurrences.
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The NASA DEVELOP team at NOAA's National Centers for Environmental Information (NCEI) is hard at work using satellite data to study seasonal water variability in the Midwest.
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The Apalachicola, Chattahoochee, and Flint (ACF) Rivers, along with the Apalachicola Bay, link the people and natural systems of Alabama, Florida, and Georgia.