Pollen grains significantly contribute to the aerosol population, and levels are predicted to increase in the future. Under humid atmospheric conditions, pollen grains can rupture creating pollen grain fragments referred to as subpollen particles (SPPs) which are dispersed into the atmosphere with wind. In this laboratory study, SPP emission factors were determined for ryegrass, sp., and giant ragweed,, in terms of the number of SPPs produced per pollen grain and the number of SPPs produced per m, which were compared to previously measured live oak,, emission factors. The SPP emission factors were 4.9 × 10 ± 4.3 × 10 SPPs per m for ryegrass, 1.3 × 10 ± 1.1 × 10 SPPs per m for giant ragweed, and 1.1 × 10 ± 1.6 × 10 SPPs per m for live oak. SPPs and whole pollen grains from these species were evaluated for their ice nucleation efficiency in immersion and contact mode freezing. Measurements of the ice nucleation efficiency indicate that SPPs are weakly effective INPs in immersion mode, but that pollen grains represent a source of moderately efficient INPs in immersion and contact modes.
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| http://dx.doi.org/10.1021/acsearthspacechem.3c00014 | DOI Listing |
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