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  Evaluation of black carbon estimations in global aerosol models

Koch, D., Schulz, M., Kinne, S., Bond, T. C., Balkanski, Y., Bauer, S. E., et al. (2009). Evaluation of black carbon estimations in global aerosol models. Atmospheric Chemistry and Physics, 9, 9001-9026. Retrieved from www.atmos-chem-phys.net/9/9001/2009/.

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Koch, D., Author
Schulz, M., Author
Kinne, S.1, 2, Author           
Bond, T. C., Author
Balkanski, Y., Author
Bauer, S. E.1, Author           
Berntsen, T., Author
Boucher, O., Author
Chin, M., Author
Clarke, A., Author
Dentener, F., Author
Diehl, T.1, Author           
Easter, R., Author
Fahey, D. W., Author
Feichter, J.1, Author           
Fillmore, D., Author
Freitag, S., Author
Ghan, S., Author
Ginoux, P., Author
Gong, S., Author
Horowitz, L., AuthorIversen, T., AuthorKirkevåg, A., AuthorKlimont, Z., AuthorKondo, Y., AuthorKrol, M., AuthorLiu, X., AuthorMcNaughton, C., AuthorMiller, R., AuthorMontanaro, V., AuthorMoteki, N., AuthorMyhre, G., AuthorPenner, J. E., AuthorPerlwitz, J., AuthorPitari, G., AuthorReddy, S., AuthorSahu, L., AuthorSakamoto, H., AuthorSchuster, G., AuthorSchwarz, J. P., AuthorSeland, Ø., AuthorSpackman, J. R., AuthorStier, P.1, Author           Takegawa, N., AuthorTakemura, T., AuthorTextor, C.1, Author           van Aardenne, J. A., AuthorZhao, Y., Author more..
Affiliations:
1The Atmosphere in the Earth System, MPI for Meteorology, Max Planck Society, ou_913550              
2Observations and Process Studies, The Atmosphere in the Earth System, MPI for Meteorology, Max Planck Society, ou_913575              

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 Abstract: We evaluate black carbon (BC) model predictions from the AeroCom model intercomparison project by considering the diversity among year 2000 model simulations and comparing model predictions with available measurements. These model-measurement intercomparisons include BC surface and aircraft concentrations, aerosol absorption optical depth (AAOD) from AERONET and Ozone Monitoring Instrument (OMI) retrievals and BC column estimations based on AERONET. In regions other than Asia, most models are biased high compared to surface concentration measurements. However compared with (column) AAOD or BC burden retreivals, the models are generally biased low. The average ratio of model to retrieved AAOD is less than 0.7 in South American and 0.6 in African biomass burning regions; both of these regions lack surface concentration measurements. In Asia the average model to observed ratio is 0.6 for AAOD and 0.5 for BC surface concentrations. Compared with aircraft measurements over the Americas at latitudes between 0 and 50 N, the average model is a factor of 10 larger than observed, and most models exceed the measured BC standard deviation in the mid to upper troposphere. At higher latitudes the average model to aircraft BC is 0.6 and underestimates the observed BC loading in the lower and middle troposphere associated with springtime Arctic haze. Low model bias for AAOD but overestimation of surface and upper atmospheric BC concentrations at lower latitudes suggests that most models are underestimating BC absorption and should improve estimates for refractive index, particle size, and optical effects of BC coating. Retrieval uncertainties and/or differences with model diagnostic treatment may also contribute to the model-measurement disparity. Largest AeroCom model diversity occurred in northern Eurasia and the remote Arctic, regions influenced by anthropogenic sources. Changing emissions, aging, removal, or optical properties within a single model generated a smaller change in model predictions than the range represented by the full set of AeroCom models. Upper tropospheric concentrations of BC mass from the aircraft measurements are suggested to provide a unique new benchmark to test scavenging and vertical dispersion of BC in global models.

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Language(s): eng - English
 Dates: 2009
 Publication Status: Issued
 Pages: -
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 Table of Contents: -
 Rev. Type: Peer
 Identifiers: eDoc: 433505
URI: www.atmos-chem-phys.net/9/9001/2009/
 Degree: -

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Title: Atmospheric Chemistry and Physics
  Alternative Title : Atmos. Chem. Phys. Disc.
Source Genre: Journal
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Pages: - Volume / Issue: 9 Sequence Number: - Start / End Page: 9001 - 9026 Identifier: -