Research

  • Penguin on ice floe
    In a "news and views" piece in Nature Climate Change, INSTAAR Sharon Stammerjohn and CIRES researcher Ted Scambos spell out the evidence and consequences of rapid warming at the South Pole and call for action to “flatten the curve” of global carbon emissions.
  • Close view of permafrost soil, covered in mosses and puddles.
    A historic heat wave is occurring in the Arctic, already the fastest-warming place on Earth due to the increasing accumulation of greenhouse gases. Dr. Merritt Turetsky has studied the Arctic for decades. She joins William Brangham on PBS NewsHour to discuss causes and consequences of the Arctic's rising temperatures.
  • INSTAAR Chad Wolak prepares air samples for carbon-14 measurement. Photo by Scott Lehman.
    A new sampling method uses carbon-14 to single out which carbon dioxide molecules in the atmosphere derive from fossil fuels. The method could help track emissions goals for climate mitigation.
  • The corner of a Russian apartment building is collapsed from uneven permafrost thaw in Chersky. Photo by Vladimir Romanovsky, University of Alaska Fairbanks
    Arctic infrastructure is under threat from thawing permafrost, explains this story in Eos featuring Merritt Turetsky.
  • Chad Wolak prepares NOAA air samples for carbon-14 measurement.
    Researchers from NOAA and the University of Colorado have devised a breakthrough method for estimating national emissions of carbon dioxide from fossil fuels using ambient air samples and a well-known isotope of carbon scientists have relied on for decades to date archaeological sites. In a paper published in Proceedings of the National Academy of Sciences, they report the first-ever national scale estimate of fossil-fuel derived carbon dioxide (CO2) emissions obtained by observing CO2 and its naturally occurring radioisotope, carbon-14, from air samples collected by NOAA’s Global Greenhouse Gas Reference Network.
  • Colorful satellite image of the Lena River delta flowing into the Arctic ocean
    Shaily Rahman led a study using cosmogenic silicon to estimate the amount of biogenic silica stored in clays along continental margins. The team's findings may explain a longstanding, large discrepancy in the global marine silica budget. Understanding silicon is especially important because of its influence on primary production and the amount of carbon dioxide in the atmosphere.
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