Skip to main content
Article
Radionuclides reveal age and source of aerosols collected over central North Atlantic
Fall Meeting 2014
  • B. Zhang, Michigan Technological University
  • N. R. Urban, Michigan Technological University
  • Judith Perlinger, Michigan Technological University
  • R. C. Owen, Michigan Technological University
  • Swarup China, Michigan Technological University
  • Claudio Mazzoleni, Michigan Technological University
  • Lynn Mazzoleni, Michigan Technological University
Document Type
Conference Proceeding
Publication Date
12-1-2014
Disciplines
Abstract

Aerosol filter samples were collected daily during summer 2013, at the Pico Mountain Observatory (PMO, 38.47°N, 28.40°W, 2,225 m a.s.l.), Azores Islands. PMO monitors free troposphere air and aerosols transported from neighboring continents; North America has the most frequent influence due to predominantly westerly winds in mid-latitude regions, while aerosols from Europe and Africa are sampled occasionally. The residence time during long-range transport in the atmosphere has a critical impact on aerosol chemical and physical properties, and it can be estimated by measuring activities of radionuclides attached to aerosols. 210Pb (t1/2 = 22.1 years) and 210Po (t1/2 = 138 days) are daughter nuclides in the decay chain of 222Rn, an inert gas species produced throughout the Earth's crust and emitted into the atmosphere. Due to different rates of decay, the activity ratio of 210Po to 210Pb can be used to estimate atmospheric residence times of the carrier aerosols. 210Po activity counting of 58 samples was conducted to investigate aerosol residence times in this study. 210Po activity was measured twice serially for each aerosol sample to predict the initial activity of 210Po on the sampling date and the activity of very slowly decaying 210Pb. Aerosol ages calculated by the activity ratio of 210Po to 210Pb were compared with air tracer ages simulated using the FLEXible PARTicle dispersion model (FLEXPART) and studied together with aerosol particle physical properties. The activity of terrestrial radionuclides per unit of aerosol mass can also reveal source information of the aerosols. FLEXPART backward trajectories will be used to verify correlations between source regions and activity of radionuclides in aerosols. In previous research related to long-range atmospheric transport to PMO, FLEXPART has proven to be reliable in identifying upwind source regions.

Publisher's Statement

Publisher's version of record: http://adsabs.harvard.edu/abs/2014AGUFM.A21K3174Z

Citation Information
B. Zhang, N. R. Urban, Judith Perlinger, R. C. Owen, et al.. "Radionuclides reveal age and source of aerosols collected over central North Atlantic" Fall Meeting 2014 (2014)
Available at: http://works.bepress.com/l-mazzoleni/59/