SOURCE WATER RESOURCES
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![River water pollution, Ecological-GettyImages-1215336784]( "The AWWA Said $2.4 Trillion. It Missed The Compound Interest.")
Einstein once said of compound interest, "He who understands it, earns it. He who doesn't, pays it." The same logic of compounding applies to the organic sediment accumulating on the floor of your drinking water reservoir. The longer you wait to address it, the more exponentially expensive it becomes to fix.
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![snowystream-Getty-521971897]( "Winter's Alarmingly Low Snowpack Offers A Glimpse Of The Changing Rhythm Of Water In The Western U.S.")
The April 1 snowpack measurement has long been the single most important number in western water management, considered a strong proxy for how much water the mountains are holding in reserve. But in 2026, that savings account has been woefully deficient. -
![ColoradoRiverDam_Getty-1280300802]( "Why Colorado River Negotiations Stalled, And How They Could Resume With The Possibility Of Agreement")
Why Colorado River Negotiations Stalled, And How They Could Resume With The Possibility Of AgreementThe five most common sources of conflict between people are values, data, relationships, interests, and structure. The current Colorado River negotiations include all five. -
![Water droplets, PFAS, Forever chemical water contamination-GettyImages-2173433890]( "Designing Resilient PFAS Treatment Strategies For Water Agencies")
Water agencies across the U.S. are facing a rapidly evolving regulatory landscape for per- and polyfluoroalkyl substances (PFAS) that poses a conundrum: Should they take a cautious or aggressive approach to treating PFAS contamination in their water system?
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![Oil spill clean up-GettyImages-1369921282]( "The Future Of In Situ Chemical Oxidation For Targeted Solvent Destruction")
The U.S. EPA’s 2026 trichloroethylene (TCE) compliance deadlines are now forcing a concrete shift toward source-zone destruction. In situ chemical oxidation (ISCO), sequenced with enhanced bioremediation, is proving to be the most credible path to groundwater contaminant rebound mitigation.
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![GettyImages-2151260226 groundwater well]( "Surface Water vs. Groundwater: Strategic Infrastructure Tradeoffs For Growing Communities")
What's really at stake when choosing between surface water and groundwater? The answer shapes water security for decades.
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![GettyImages-1328805329 energy costs lightbulb]( "Energy Efficiency In Surface Water Treatment: Where Utilities Can Save Big")
What if your plant's biggest cost driver was locked in at the design stage? See how early energy optimization reshapes whole-life financial outcomes.
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![GettyImages-1514165009-source-water-treatment]( "Building Climate-Resilient Surface Water Treatment Plants")
What does it actually cost to build climate resilience into a water treatment plant? The answer depends on the right analytical framework.
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![Water droplets, PFAS, Forever chemical water contamination-GettyImages-2173433890]( "How Regulatory Pressure Is Driving Innovation In Surface Water Facilities")
What does it take to stay ahead of tightening drinking water standards? See how utilities are turning regulatory pressure into smarter infrastructure investment.
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![GettyImages-2153059351-gloved-hand-with-test-tube-testing-water]( "Navigating EPA Surface Water Treatment Rules In 2026 And Beyond")
Single-future design assumptions are no longer sufficient. See what scenario modelling reveals about building treatment infrastructure that performs across decades of uncertainty.
