On the characteristics of aerosol indirect effect based on dynamic regimes in global climate models

S. Zhang, M. Wang, S. J. Ghan, A. Ding, H. Wang, K. Zhang, D. Neubauer, U. Lohmann, S. Ferrachat, T. Takeamura, A. Gettelman, H. Morrison, Y. H. Lee, D. T. Shindell, D. G. Partridge, P. Stier, Z. Kipling, C. Fu

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    3 Citations (Scopus)


    Aerosol-cloud interactions continue to constitute a major source of uncertainty for the estimate of climate radiative forcing. The variation of aerosol indirect effects (AIE) in climate models is investigated across different dynamical regimes, determined by monthly mean 500 hPa vertical pressure velocity (ω500), lower-tropospheric stability (LTS) and large-scale surface precipitation rate derived from several global climate models (GCMs), with a focus on liquid water path (LWP) response to cloud condensation nuclei (CCN) concentrations. The LWP sensitivity to aerosol perturbation within dynamic regimes is found to exhibit a large spread among these GCMs. It is in regimes of strong large-scale ascend (ω500 < -25 hPa d-1) and low clouds (stratocumulus and trade wind cumulus) where the models differ most. Shortwave aerosol indirect forcing is also found to differ significantly among different regimes. Shortwave aerosol indirect forcing in ascending regimes is as large as that in stratocumulus regimes, which indicates that regimes with strong large-scale ascend are as important as stratocumulus regimes in studying AIE. It is further shown that shortwave aerosol indirect forcing over regions with high monthly large-scale surface precipitation rate (> 0.1 mm d-1) contributes the most to the total aerosol indirect forcing (from 64 to nearly 100 %). Results show that the uncertainty in AIE is even larger within specific dynamical regimes than that globally, pointing to the need to reduce the uncertainty in AIE in different dynamical regimes.

    Original languageEnglish
    Pages (from-to)23683-23729
    Number of pages47
    JournalAtmospheric Chemistry and Physics Discussions
    Issue number17
    Publication statusPublished - Sept 2 2015

    All Science Journal Classification (ASJC) codes

    • Atmospheric Science
    • Space and Planetary Science


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