While atmospheric concentrations of cesium-137 have decreased since the nuclear testing era, resuspension of Cs-137 during biomass burning provides an ongoing emission source. The summer of 2010 was an intense biomass burning season in western Russia, with high levels of particulate matter impacting air quality and visibility. A radionuclide monitoring station in western Russia shows enhanced airborne Cs-137 concentrations during the wildfire period. Since Cs-137 binds to aerosols, satellite observations of aerosols and fire occurrences can provide a global-scale context for Cs-137 emissions and transport during biomass burning events.
Revised: August 28, 2012 |
Published: May 9, 2012
Citation
Strode S., L.E. Ott, S. Pawson, and T.W. Bowyer. 2012.Emission and transport of cesium-137 from boreal biomass burning in the summer of 2010.Journal of Geophysical Research: Atmospheres 117.PNNL-SA-89641.doi:10.1029/2011JD017382