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Impacts from ice-nucleating bacteria on deep convection: implications for the biosphere-atmosphere interaction in climate change
1Department of Meteorology, University of Hawaii at Manoa, Honolulu, USA
2Boston College, Chestnut Hill, Massachusetts, USA
3INRA, Unité de Pathologie Végétale UR407, F-84140 Montfavet, France
4Plant Sciences and Plant Pathology, Montana State University, USA
Abstract. A cloud modeling framework is described to simulate ice nucleation by biogenic aerosol particles, as represented by airborne ice-nucleation active (INA) bacteria. It includes the empirical parameterization of heterogeneous ice nucleation. The formation of cloud liquid by soluble material coated on such insoluble aerosols is represented and determines their partial removal from deep convective clouds by accretion onto precipitation.
Preliminary simulations are performed for a case of deep convection over Oklahoma. If present at high enough concentrations, as might occur in proximity to land sources, INA bacteria are found to influence significantly: – (1) the average numbers and sizes of crystals in the clouds; (2) the horizontal cloud coverage in the free troposphere; and (3) precipitation and incident solar insolation at the surface, which influence rates of bacterial growth. At lower concentrations, the corresponding responses of cloud fields appear much lower or are ambiguous.
In nature, the growth rates of INA bacteria on leaves prior to emission into the atmosphere are known to be highly dependent on temperature, precipitation and plant species. Consequently, the open question emerges of whether emissions of such ice-nucleating biogenic particles can then be modified by their own effects on clouds and atmospheric conditions, forming a weak feedback in climate or microclimate systems.
Discussion Paper (PDF, 594 KB) Interactive Discussion (Closed, 6 Comments) Final Revised Paper (BG)
Citation: Phillips, V. T. J., Andronache, C., Morris, C. E., and Sands, D. C.: Impacts from ice-nucleating bacteria on deep convection: implications for the biosphere-atmosphere interaction in climate change, Biogeosciences Discuss., 5, 1035-1067, 2008. Bibtex EndNote Reference Manager
