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Volume 14, issue 16 | Copyright
Atmos. Chem. Phys., 14, 8631-8645, 2014
https://doi.org/10.5194/acp-14-8631-2014
© Author(s) 2014. This work is distributed under
the Creative Commons Attribution 3.0 License.

Technical note 26 Aug 2014

Technical note | 26 Aug 2014

Technical Note: On the use of nudging for aerosol–climate model intercomparison studies

K. Zhang1, H. Wan1, X. Liu2, S. J. Ghan1, G. J. Kooperman3, P.-L. Ma1, P. J. Rasch1, D. Neubauer4, and U. Lohmann4 K. Zhang et al.
  • 1Pacific Northwest National Laboratory, Richland, Washington, USA
  • 2University of Wyoming, Laramie, Wyoming, USA
  • 3Scripps Institution of Oceanography, University of California, San Diego, La Jolla, California, USA
  • 4Institute of Atmospheric and Climate Science, ETH Zurich, Zurich, Switzerland

Abstract. Nudging as an assimilation technique has seen increased use in recent years in the development and evaluation of climate models. Constraining the simulated wind and temperature fields using global weather reanalysis facilitates more straightforward comparison between simulation and observation, and reduces uncertainties associated with natural variabilities of the large-scale circulation. On the other hand, the forcing introduced by nudging can be strong enough to change the basic characteristics of the model climate. In the paper we show that for the Community Atmosphere Model version 5 (CAM5), due to the systematic temperature bias in the standard model and the sensitivity of simulated ice formation to anthropogenic aerosol concentration, nudging towards reanalysis results in substantial reductions in the ice cloud amount and the impact of anthropogenic aerosols on long-wave cloud forcing.

In order to reduce discrepancies between the nudged and unconstrained simulations, and meanwhile take the advantages of nudging, two alternative experimentation methods are evaluated. The first one constrains only the horizontal winds. The second method nudges both winds and temperature, but replaces the long-term climatology of the reanalysis by that of the model. Results show that both methods lead to substantially improved agreement with the free-running model in terms of the top-of-atmosphere radiation budget and cloud ice amount. The wind-only nudging is more convenient to apply, and provides higher correlations of the wind fields, geopotential height and specific humidity between simulation and reanalysis. Results from both CAM5 and a second aerosol–climate model ECHAM6-HAM2 also indicate that compared to the wind-and-temperature nudging, constraining only winds leads to better agreement with the free-running model in terms of the estimated shortwave cloud forcing and the simulated convective activities. This suggests nudging the horizontal winds but not temperature is a good strategy for the investigation of aerosol indirect effects since it provides well-constrained meteorology without strongly perturbing the model's mean climate.

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