Distinct particle modes in the lower stratosphere constrain secondary aerosol chemistry and gas-phase concentrations
- 1NOAA, Chemical Sciences Laboratory, Boulder, United States of America (daniel.m.murphy@noaa.gov)
- 2Cooperative Institute for Research in Environmental Sciences, University of Colorado, Boulder, USA
- 3Faculty of Physics, Aerosol Physics and Environmental Physics, University of Vienna, Austria
There are distinct types of aerosol particles in the lower stratosphere. Stratospheric sulfuric acid particles with and without meteoric metals coexist with mixed organic-sulfate particles that originated in the troposphere. That these particles remain distinct has important implications for aerosol chemistry and the concentrations of several gas-phase species. Neither semi-volatile organics nor ammonia can be in equilibrium with the gas phase. The gas-phase concentrations of semi-volatile organics and ammonia must be very low, or else the sulfuric acid particles would not stay so pure. The upper concentration limits are around a pptv. Yet the sulfuric acid particles in the Northern Hemisphere show a very small but measurable uptake of organics and ammonia, indicating non-zero gas-phase concentrations of those species. Finally, the organic-sulfate particles must be resistant to photochemical loss, or else they would no longer retain their organic content.
How to cite: Murphy, D., Froyd, K., Schill, G., Brock, C., Kupc, A., and Williamson, C.: Distinct particle modes in the lower stratosphere constrain secondary aerosol chemistry and gas-phase concentrations, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-1365, https://doi.org/10.5194/egusphere-egu21-1365, 2021.
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