Relationships of Biomass-Burning Aerosols to Ice in Orographic Wave Clouds
Copyright policy )Relationships of Biomass-Burning Aerosols to Ice in Orographic Wave Clouds
Abstract Ice concentrations in orographic wave clouds at temperatures between −24° and −29°C were shown to be related to aerosol characteristics in nearby clear air during five research flights over the Rocky Mountains. When clouds with influence from colder temperatures were excluded from the dataset, mean ice nuclei and cloud ice number concentrations were very low, on the order of 1–5 L−1. In this environment, ice number concentrations were found to be significantly correlated with the number concentration of larger particles, those larger than both 0.1- and 0.5-μm diameter. A variety of complementary techniques was used to measure aerosol size distributions and chemical composition. Strong correlations were also observed between ice concentrations and the number concentrations of soot and biomass-burning aerosols. Ice nuclei concentrations directly measured in biomass-burning plumes were the highest detected during the project. Taken together, this evidence indicates a potential role for biomass-burning aerosols in ice formation, particularly in regions with relatively low concentrations of other ice nucleating aerosols.
- University of Wyoming United States
- University of Wyoming United States
- Colorado State University Pueblo United States
- RJ Lee Group (United States) United States
- Colorado School of Mines United States
biomass burning, Chemical compositions, biosphere, 550, 290, Aerosol size distributions, aerosol, orographic effect, cloud cover, data set, Aerosol characteristics, Low concentrations, cloud microphysics, Number concentration, Biosphere-atmosphere interaction, Engineering, Biospherics, Clouds, Ice concentration, size distribution, chemical composition, Biomass, wave climate, Wave clouds, Aerosols, concentration (composition), Clear air, Ice nuclei, Concentration (process), Strong correlation, Orographic effects, Ice, Atmospheric aerosols, Biomass-burning, ice crystal, Data sets, Rocky Mountains, clear sky, Ice formations
biomass burning, Chemical compositions, biosphere, 550, 290, Aerosol size distributions, aerosol, orographic effect, cloud cover, data set, Aerosol characteristics, Low concentrations, cloud microphysics, Number concentration, Biosphere-atmosphere interaction, Engineering, Biospherics, Clouds, Ice concentration, size distribution, chemical composition, Biomass, wave climate, Wave clouds, Aerosols, concentration (composition), Clear air, Ice nuclei, Concentration (process), Strong correlation, Orographic effects, Ice, Atmospheric aerosols, Biomass-burning, ice crystal, Data sets, Rocky Mountains, clear sky, Ice formations
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