Publication Abstracts

Dou et al. 2012

Dou, T., C. Xiao, D.T. Shindell, J.P. Liu, J. Ming, and D. Qin, 2012: The distribution of snow black carbon observed in the Arctic and compared to the GISS-PUCCINI model. Atmos. Chem. Phys., 12, 7995-8007, doi:10.5194/acp-12-7995-2012.

In this study, we evaluate the ability of the latest NASA GISS composition-climate model, GISS-E2-PUCCINI, to simulate the spatial distribution of snow BC (sBC) in the Arctic relative to present-day observations. Radiative forcing due to BC deposition onto Arctic snow and sea ice is also estimated. Two sets of model simulations are analyzed, where meteorology is linearly relaxed towards National Centers for Environmental Prediction (NCEP) and towards NASA Modern Era Reanalysis for Research and Applications (MERRA) reanalyses. Results indicate that the modeled concentrations of sBC are comparable with present-day observations in and around the Arctic Ocean, except for apparent underestimation at a few sites in the Russian Arctic. That said, the model has some biases in its simulated spatial distribution of BC deposition to the Arctic. The simulations from the two model runs are roughly equal, indicating that discrepancies between model and observations come from other sources. Underestimation of biomass burning emissions in Northern Eurasia may be the main cause of the low biases in the Russian Arctic. Comparisons of modeled aerosol BC (aBC) with long-term surface observations at Barrow, Alert, Zeppelin and Nord stations show significant underestimation in winter and spring concentrations in the Arctic (most significant in Alaska), although the simulated seasonality of aBC has been greatly improved relative to earlier model versions. This is consistent with simulated biases in vertical profiles of aBC, with underestimation in the lower and middle troposphere but overestimation in the upper troposphere and lower stratosphere, suggesting that the wet removal processes in the current model may be too weak or that vertical transport is too rapid, although the simulated BC lifetime seems reasonable. The combination of observations and modeling provides a comprehensive distribution of sBC over the Arctic. On the basis of this distribution, we estimate the decrease in snow and sea ice albedo and the resulting radiative forcing. We suggest that the albedo reduction due to BC deposition presents significant space-time variations, with highest mean reductions of 1.25% in the Russian Arctic, which are much larger than those in other Arctic regions (0.39% to 0.64%). The averaged value over the Arctic north of 66° N is 0.4-0.6% during spring, leading to regional surface radiative forcings of 0.7, 1.1 and 1.0 W/m2 in spring 2007, 2008 and 2009, respectively.

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BibTeX Citation

@article{do02100q,
  author={Dou, T. and Xiao, C. and Shindell, D. T. and Liu, J. P. and Ming, J. and Qin, D.},
  title={The distribution of snow black carbon observed in the Arctic and compared to the GISS-PUCCINI model},
  year={2012},
  journal={Atmos. Chem. Phys.},
  volume={12},
  pages={7995--8007},
  doi={10.5194/acp-12-7995-2012},
}

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RIS Citation

TY  - JOUR
ID  - do02100q
AU  - Dou, T.
AU  - Xiao, C.
AU  - Shindell, D. T.
AU  - Liu, J. P.
AU  - Ming, J.
AU  - Qin, D.
PY  - 2012
TI  - The distribution of snow black carbon observed in the Arctic and compared to the GISS-PUCCINI model
JA  - Atmos. Chem. Phys.
VL  - 12
SP  - 7995
EP  - 8007
DO  - 10.5194/acp-12-7995-2012
ER  -

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