Evaluation of black carbon estimations in global aerosol models

Koch, D.; Schulz, Mıchael; Kinne, Stefan; Bond, T. C.; Balkanski, Yves; Bauer, Susanne E.; Berntsen, Terje; Boucher, Oliviér; Chin, Mian; Clarke, A. D.; Luca, Natalia De; Dentener, Frank; Diehl, Thomas; Dubovik, Оleg; Easter, Richard C.; Fahey, D. W.; Feichter, J.; Fillmore, D.; Freitag, Steffen; Ghan, S. J.; Ginoux, Paul; Gong, Sunling; Horowitz, Larry W.; Iversen, Trond; Kirkev&amp;aring;g, A.; Klimont, Zbigniew; Kondo, Yutaka; Krol, Maarten; Liu, X.; McNaughton, C. S.; Miller, Rose Marie; Moteki, Nobuhiro; Myhre, Gunnar; Penner, Joyce E.; Perlwitz, J.; Pitari, Giovanni; Reddy, S. Paddi; Sahu, L. K.; Sakamoto, H.; Schuster, G. L.; Schwarz, J. P.; Seland, Øyvind; Spackman, J. R.; Stier, Philip; Takegawa, N.; Takemura, Toshihiko; Textor, C.; Aardenne, J. A. van; Zhao, Yongjing

doi:10.5194/acpd-9-15769-2009

Cited by 170 publications

(326 citation statements)

References 115 publications

(58 reference statements)

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“…Additionally we have included two sensitivity simulations that have the in-cloud impaction processes turned off for both the diagnostic and prognostic in-cloud scavenging schemes, DIAG-FULL-noimp and PROG-AP-noimp, respectively. Figure 14 shows profiles from the tropics and midlatitudes taken between the equator, and 50 • N and between 120 • E and 60 • E and averaged for the same points as shown in Koch et al ( , 2010. Figure 15 presents profiles from the high latitudes taken between 50 • N and 80 • N and between 180 • E and 60 • E and averaged for the same points as shown in Koch et al ( , 2010.…”

Section: Comparison With Observationsmentioning

confidence: 99%

“…Figure 14 shows profiles from the tropics and midlatitudes taken between the equator, and 50 • N and between 120 • E and 60 • E and averaged for the same points as shown in Koch et al ( , 2010. Figure 15 presents profiles from the high latitudes taken between 50 • N and 80 • N and between 180 • E and 60 • E and averaged for the same points as shown in Koch et al ( , 2010. These figures show that the predicted black carbon profiles, particularly in the middle troposphere differ from the observations, and between each other, by up to two orders of magnitude depending on the treatment of in-cloud scavenging.…”

Section: Comparison With Observationsmentioning

confidence: 99%

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Influences of in-cloud aerosol scavenging parameterizations on aerosol concentrations and wet deposition in ECHAM5-HAM

et al. 2010

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Abstract.A diagnostic cloud nucleation scavenging scheme, which determines stratiform cloud scavenging ratios for both aerosol mass and number distributions, based on cloud droplet, and ice crystal number concentrations, is introduced into the ECHAM5-HAM global climate model. This scheme is coupled with a size-dependent in-cloud impaction scavenging parameterization for both cloud droplet-aerosol, and ice crystal-aerosol collisions. The aerosol mass scavenged in stratiform clouds is found to be primarily (>90%) scavenged by cloud nucleation processes for all aerosol species, except for dust (50%). The aerosol number scavenged is primarily (>90%) attributed to impaction. 99% of this impaction scavenging occurs in clouds with temperatures less than 273 K. Sensitivity studies are presented, which compare aerosol concentrations, burdens, and deposition for a variety of incloud scavenging approaches: prescribed fractions, a more computationally expensive prognostic aerosol cloud processing treatment, and the new diagnostic scheme, also with modified assumptions about in-cloud impaction and nucleation scavenging. Our results show that while uncertainties in the representation of in-cloud scavenging processes can lead to differences in the range of 20-30% for the predicted annual, global mean aerosol mass burdens, and near to 50% for accumulation mode aerosol number burden, the differences in predicted aerosol mass concentrations can be up to Correspondence to: B. Croft (croft@mathstat.dal.ca) one order of magnitude, particularly for regions of the middle troposphere with temperatures below 273 K where mixed and ice phase clouds exist. Different parameterizations for impaction scavenging changed the predicted global, annual mean number removal attributed to ice clouds by seven-fold, and the global, annual dust mass removal attributed to impaction by two orders of magnitude. Closer agreement with observations of black carbon profiles from aircraft (increases near to one order of magnitude for mixed phase clouds), midtroposphere 210 Pb vertical profiles, and the geographic distribution of aerosol optical depth is found for the new diagnostic scavenging scheme compared to the prescribed scavenging fraction scheme of the standard ECHAM5-HAM. The diagnostic and prognostic schemes represent the variability of scavenged fractions particularly for submicron size aerosols, and for mixed and ice phase clouds, and are recommended in preference to the prescribed scavenging fractions method.

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Section: Comparison With Observationsmentioning

confidence: 99%

Section: Comparison With Observationsmentioning

confidence: 99%

Influences of in-cloud aerosol scavenging parameterizations on aerosol concentrations and wet deposition in ECHAM5-HAM

et al. 2010

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“…While ACCMIP includes data from the Global Fire Emission Database 2 (GFED2), we also explore ACCMIP emissions using the more recent GFED3 monthly biomass burning emission database (van der Werf et al, 2010) and we allow these emissions (sulfur, black carbon and organic matter) to vary annually instead of using a climatological mean. Koch and Hansen (2005) showed that, while the largest contribution in terms of sulfate aerosols to Arctic AOD comes from Russia, South-East Asia contributes with a significant fraction. Since there is a significant difference in terms of sulfate emissions between the REAS and AC-CMIP emission datasets, we explore the possible impact of a change in anthropogenic SO 2 emissions in the SouthEast Asia region.…”

Section: Echam5-ham and Emissionsmentioning

confidence: 99%

“…(Law and Stohl, 2007;Stohl, 2006;Stocks et al, 1998;Koch and Hansen, 2005), with important interannual variability, the choice of biomass burning emissions datasets may play an important role. Variability in these emissions, interacting with interannual changes in circulation, may lead to significant changes in Arctic aerosol concentrations.…”

Section: Echam5-ham and Emissionsmentioning

confidence: 99%

“…The source areas for nearly all air pollutants in the Arctic are believed to be in mid latitudes (Law and Stohl, 2007), but the presence of transport barriers and complex removal processes leads to a difficult identification of the transport pathways, which has advanced only recently (see, e.g., Koch and Hansen, 2005;Stohl, 2006;Shindell et al, 2008;Hirdman et al, 2010a,b;Huang et al, 2010;Bourgeois and Bey, 2011).…”

Section: Introductionmentioning

confidence: 99%

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Aerosol optical depth over the Arctic: a comparison of ECHAM-HAM and TM5 with ground-based, satellite and reanalysis data

et al. 2012

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Abstract. We compare ground-based measurements of aerosol optical depth andÅngström parameter at six Arctic stations in the period 2001-2006 with the results from two global aerosol dynamics and transport models, ECHAM-HAM and TM5. Satellite measurements from MODIS and the MACC reanalysis product are used to examine the spatial distribution and the seasonality of these parameters and to compare them with model results. We find that both models provide a good reproduction of theÅngström parameter but significantly underestimate the observed AOD values. We also explore the effects of changes in emissions, model resolution and the parametrization of wet scavenging.

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Global‐scale seasonally resolved black carbon vertical profiles over the Pacific

Schwarz

Samset

Perring

et al. 2013

Geophysical Research Letters

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[1] Black carbon (BC) aerosol loadings were measured during the High-performance Instrumented Airborne Platform for Environmental Research Pole-to-Pole Observations (HIPPO) campaign above the remote Pacific from 85°N to 67°S. Over 700 vertical profiles extending from near the surface to max ∼14 km altitude were obtained with a single-particle soot photometer between early 2009 and mid-2011. The data provides a climatology of BC in the remote regions that reveals gradients of BC concentration reflecting global-scale transport and removal of pollution. BC is identified as a sensitive tracer of extratropical mixing into the lower tropical tropopause layer and trends toward surprisingly uniform loadings in the lower stratosphere of ∼1 ng/kg. The climatology is compared to predictions from the AeroCom global model intercomparison initiative. The AeroCom model suite overestimates loads in the upper troposphere/lower stratosphere (∼10×) more severely than at lower altitudes (∼3×), with bias roughly independent of season or geographic location; these results indicate that it overestimates BC lifetime.

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Evaluation of black carbon estimations in global aerosol models

Cited by 170 publications

References 115 publications

Influences of in-cloud aerosol scavenging parameterizations on aerosol concentrations and wet deposition in ECHAM5-HAM

Influences of in-cloud aerosol scavenging parameterizations on aerosol concentrations and wet deposition in ECHAM5-HAM

Aerosol optical depth over the Arctic: a comparison of ECHAM-HAM and TM5 with ground-based, satellite and reanalysis data

Global‐scale seasonally resolved black carbon vertical profiles over the Pacific

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