Irving Friedman (January 12, 1920 – June 28, 2005) was a U.S. Geological Survey (USGS) scientist and a pioneer in geochemistry. Born in New York City, New York, he obtained a B.S. degree in chemistry from Montana State University, a M.S. degree in chemistry from Washington State University, and a Ph.D. in geochemistry at the University of Chicago.[1]

Irving Friedman
Born(1920-01-20)20 January 1920
DiedJune 28, 2005(2005-06-28) (aged 85)
CitizenshipAmerican
Alma materWashington State University
Scientific career
Fieldsgeology, geochemistry
InstitutionsU.S. Geological Survey

University of Chicago

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Friedman was a member of the famed group of post doctoral researchers in Nobel laureate Harold Urey’s laboratory at the Institute for Nuclear Studies at the University of Chicago. There, Friedman built the first mass spectrometer for routine measurement of the hydrogen isotope composition of water. Hydrogen has two stable isotopes and much can be deduced about the history of water from their proportions. Because of this, Friedman is called the "father of isotope hydrology."

Military

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Friedman joined the Navy in 1944. His USGS bio says that he was assigned to the Naval Electronics Laboratory in Washington, D.C., but that organization was formed in 1945. His training may have spanned the difference in time, though.

USGS

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In 1952, he joined the USGS in Washington, D.C., and worked for the USGS for more than 43 years. In 1962, he moved to Lakewood, Colorado, when the Isotope Geology Branch of the USGS was created. Friedman retired from the USGS in 1995, and remained active as an emeritus scientist.

Accomplishments

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His scientific career was a pursuit of the understanding of every aspect of the water cycle. Throughout his career, he studied water in oceans, rivers, lakes, glaciers, the atmosphere, magmas, minerals, rocks, meteorites, plants, animals and the moon. He made major contributions to a number of fields through application of stable isotope geochemistry. Friedman also made significant contributions to the development of instruments to detect helium in exploring uranium, thorium, petroleum and natural gas and in predicting earthquakes. In the 1940s, he made major contributions to the science of hydrothermal growth of quartz which made possible the development of the synthetic quartz industry.[2]

 
Hydrologic monitoring at Tantalus Creek, Yellowstone National Park, photo by Irving Friedman

His work was featured in more than 200 publications. His first was published in 1945 and his last will be published posthumously in 2005 in a USGS Professional Paper on Yellowstone National Park. He was long associated with study of geothermal features and water issues of Yellowstone.

Awards

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Friedman received several awards and honors during his lifetime.

References

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  1. ^ "Obituary—USGS Scientist Irving Friedman". U.S. Geological Survey. USGS. Retrieved 19 October 2014.
  2. ^ Williamson, Ray A. (2000). Science and Technology in Historic Preservation. Springer Science & Business Media. pp. 92–93. ISBN 0306462125.
  3. ^ "SCA Meeting Awards". Society for California Archeology. Archived from the original on 8 October 2014. Retrieved 19 October 2014.
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