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What questions had to be answered before we could get our water clean? How did scientists tackle these questions? Here are a few examples...

Created by usepagov2 on Mar 1, 2012

Last updated: 03/19/12 at 04:05 PM

• 40 Years of the Clean Water Act!
  2012

  Join EPA in celebrating! Watch for highlights on water science all year long!

• Safe Drinking Water Act
  1974

  This act, also a product of a long line of water research, set and implements standards for the quality of our drinking water, so we can feel comfortable drinking from the tap!

• Clean Water Act
  1972

  The preceding research, and much more that isn’t mentioned, provided an important foundation for the 1972 amendments to the Federal Water Pollution Control Act—aka the Clean Water Act, which has controlled the release of pollutants into our surface water.

• Nitrogen-Think About It
  1962

  Researchers developed a design for “enhanced biological nitrogen removal”, used to take nitrogen out of wastewater, that’s still in use today! Read why nitrogen removal is important.
  http://blog.epa.gov/blog/2012/01/11/science-wednesday-nitrogen-think-about-it/

• Clean it up
  1962

  Even if you can detect that your water’s not clean, how do you make it clean? One set of studies in the early 1960s examined the effectiveness of a variety of treatment processes to remove radioactive, biological contaminants (like viruses), and chemical contaminants (like pesticides) from water.

• Post-war proliferation
  1957

  In this peak year of the baby boom, 4.3 million babies were born! What would the population explosion mean for water availability? And what would the growing plastics and chemical industries (and the corresponding increase in waste) mean for water safety?

• For the Children
  1950

  Ever heard of methemoglobinemia, or “blue baby syndrome”? Its relationship to nitrate-contaminated drinking water (which is typically due to pollution) was another subject of water research that year.

• "Oh, Just Toss It"
  1950

  Despite our colloquial language, we don’t just “toss” our garbage. It goes to a sanitary landfill, carefully designed to minimize the leaching of chemicals into our ground water. But today’s solid waste management is a result of in-depth research, like a series of projects from around 1950, about waste’s characteristics throughout the breakdown process.

• One bacterium, two bacteria, …
  1950

  How can we tell how clean our water is? One method developed in 1950: use a molecular filter membrane to catch bacteria, give it some nutrients to grow on, and count the number of visible colonies that arise. Then you can determine how many were in the original water sample.

• Water and War
  Jul 1, 1941

  World War II brought new challenges for water research: how to treat and dispose of munitions? What effect would their waste effluents have on streams? How to disinfect water for military field operations? Researchers met the challenges.

• The Oxygen Sag
  1925

  The study’s final product was the first Ohio River Survey. One result of that study: the “oxygen sag” curve, the first quantitative model for analyzing changes in water quality. It’s still used today!

• Pollution Investigation Station
  1912

  Congress authorized the first U.S. water pollution study— a comprehensive look at Ohio River pollution and natural stream purification, led by a US Public Health Service research station in Cincinnati.