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A Stanford study finds that pumping an aquifer to the last drop can also unlock dangerous arsenic from buried clays.
University Research | Solving the Freshwater Puzzle | Water Quality | Stanford UniversityResearchers from Stanford University have used a geophysical imaging technique to map where seawater has infiltrated freshwater aquifers along the Monterey Bay coastline.
Solving the Freshwater Puzzle | Water Quality | University Research | Stanford UniversityA case study of a small Wyoming town reveals that practices common in the fracking industry may have widespread impacts on drinking water resources.
Solving the Freshwater Puzzle | Water Quality | Stanford UniversityBacteria living in shallow sediment layers of permanently flooded wetlands in Asia drive arsenic release into water by feeding on freshly deposited plant material, a new Stanford University study finds.
Solving the Freshwater Puzzle | Water Quality | Stanford UniversityUniversity of Minnesota researchers are working together to design and develop smart technology that will more efficiently and cost-effectively lower sulfate concentrations in waters where wild rice like to grow.
Solving the Freshwater Puzzle | Water Quality | University of Minnesota, Twin CitiesA Stanford project in Jordan, a nation that is traditionally a stabilizing force in the Middle East, holds promise for better water management and less conflict in arid regions around the globe.
Solving the Freshwater Puzzle | Water Quality | Stanford UniversityGlobal Environmental Management Initiative (GEMI) and partners, introduced the Supply Chain Sustainability tool which helps businesses identify the purchased inputs that emit the highest levels of GHGs and use the most water in their production.
Solving the Freshwater Puzzle | Water Quality | University of Minnesota, Twin Cities