Intercomparison and Evaluation of Global Aerosol Microphysical Properties Among AeroCom Models of a Range of Complexity

©2014 Author(s). Many of the next generation of global climate models will include aerosol schemes which explicitly simulate the microphysical processes that determine the particle size distribution. These models enable aerosol optical properties and cloud condensation nuclei (CCN) concentrations to...

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Published in:Atmospheric Chemistry and Physics
Main Authors: Mann, G.W., Carslaw, K. S., Reddington, C. L., Pringle, K. J., Schulz, M., Asmi, A., Spracklen, D. V., Ridley, D. A., Woodhouse, M. T., Lee, L. A., Zhang, K., Ghan, S. J., Easter, R. C., Liu, Xiaohong, Stier, P., Lee, Y. H., Adams, P. J., Tost, H., Lelieveld, J., Bauer, S. E., Tsigaridis, K., Van Noije, T. P. C., Strunk, A., Vignati, E., Bellouin, N., Dalvi, M., Johnson, C. E., Bergman, T., Kokkola, H., Von Salzen, K., Yu, F., Luo, G., Petzold, A., Heintzenberg, J., Clarke, A., Ogren, J. A., Gras, J., Baltensperger, U., Kaminski, U., Jennings, S. G., O'Dowd, C. D., Harrison, R. M., Beddows, D. C. S., Kulmala, M., Viisanen, Y., Ulevicius, V., Mihalopoulos, N., Zdimal, V., Fiebig, M., Hansson, H.- C., Swietlicki, E., Henzing, J. S.
Format: Other Non-Article Part of Journal/Newspaper
Language:English
Published: University of Wyoming. Libraries 2014
Subjects:
Engineering
Aitken
Arctic
Online Access:https://hdl.handle.net/20.500.11919/706
https://doi.org/10.5194/acp-14-4679-2014
id ftmountainschol:oai:mountainscholar.org:20.500.11919/706
record_format openpolar
institution Open Polar
collection Mountain Scholar (Digital Collections of Colorado and Wyoming)
op_collection_id ftmountainschol
language English
topic Engineering
spellingShingle Engineering
Mann, G.W.
Carslaw, K. S.
Reddington, C. L.
Pringle, K. J.
Schulz, M.
Asmi, A.
Spracklen, D. V.
Ridley, D. A.
Woodhouse, M. T.
Lee, L. A.
Zhang, K.
Ghan, S. J.
Easter, R. C.
Liu, Xiaohong
Stier, P.
Lee, Y. H.
Adams, P. J.
Tost, H.
Lelieveld, J.
Bauer, S. E.
Tsigaridis, K.
Van Noije, T. P. C.
Strunk, A.
Vignati, E.
Bellouin, N.
Dalvi, M.
Johnson, C. E.
Bergman, T.
Kokkola, H.
Von Salzen, K.
Yu, F.
Luo, G.
Petzold, A.
Heintzenberg, J.
Clarke, A.
Ogren, J. A.
Gras, J.
Baltensperger, U.
Kaminski, U.
Jennings, S. G.
O'Dowd, C. D.
Harrison, R. M.
Beddows, D. C. S.
Kulmala, M.
Viisanen, Y.
Ulevicius, V.
Mihalopoulos, N.
Zdimal, V.
Fiebig, M.
Hansson, H.- C.
Swietlicki, E.
Henzing, J. S.
Intercomparison and Evaluation of Global Aerosol Microphysical Properties Among AeroCom Models of a Range of Complexity
topic_facet Engineering
description ©2014 Author(s). Many of the next generation of global climate models will include aerosol schemes which explicitly simulate the microphysical processes that determine the particle size distribution. These models enable aerosol optical properties and cloud condensation nuclei (CCN) concentrations to be determined by fundamental aerosol processes, which should lead to a more physically based simulation of aerosol direct and indirect radiative forcings. This study examines the global variation in particle size distribution simulated by 12 global aerosol microphysics models to quantify model diversity and to identify any common biases against observations. Evaluation against size distribution measurements from a new European network of aerosol supersites shows that the mean model agrees quite well with the observations at many sites on the annual mean, but there are some seasonal biases common to many sites. In particular, at many of these European sites, the accumulation mode number concentration is biased low during winter and Aitken mode concentrations tend to be overestimated in winter and underestimated in summer. At high northern latitudes, the models strongly underpredict Aitken and accumulation particle concentrations compared to the measurements, consistent with previous studies that have highlighted the poor performance of global aerosol models in the Arctic. In the marine boundary layer, the models capture the observed meridional variation in the size distribution, which is dominated by the Aitken mode at high latitudes, with an increasing concentration of accumulation particles with decreasing latitude. Considering vertical profiles, the models reproduce the observed peak in total particle concentrations in the upper troposphere due to new particle formation, although modelled peak concentrations tend to be biased high over Europe. Overall, the multi-model-mean data set simulates the global variation of the particle size distribution with a good degree of skill, suggesting that most of the individual global aerosol microphysics models are performing well, although the large model diversity indicates that some models are in poor agreement with the observations. Further work is required to better constrain size-resolved primary and secondary particle number sources, and an improved understanding of nucleation and growth (e.g. the role of nitrate and secondary organics) will improve the fidelity of simulated particle size distributions.
format Other Non-Article Part of Journal/Newspaper
author Mann, G.W.
Carslaw, K. S.
Reddington, C. L.
Pringle, K. J.
Schulz, M.
Asmi, A.
Spracklen, D. V.
Ridley, D. A.
Woodhouse, M. T.
Lee, L. A.
Zhang, K.
Ghan, S. J.
Easter, R. C.
Liu, Xiaohong
Stier, P.
Lee, Y. H.
Adams, P. J.
Tost, H.
Lelieveld, J.
Bauer, S. E.
Tsigaridis, K.
Van Noije, T. P. C.
Strunk, A.
Vignati, E.
Bellouin, N.
Dalvi, M.
Johnson, C. E.
Bergman, T.
Kokkola, H.
Von Salzen, K.
Yu, F.
Luo, G.
Petzold, A.
Heintzenberg, J.
Clarke, A.
Ogren, J. A.
Gras, J.
Baltensperger, U.
Kaminski, U.
Jennings, S. G.
O'Dowd, C. D.
Harrison, R. M.
Beddows, D. C. S.
Kulmala, M.
Viisanen, Y.
Ulevicius, V.
Mihalopoulos, N.
Zdimal, V.
Fiebig, M.
Hansson, H.- C.
Swietlicki, E.
Henzing, J. S.
author_facet Mann, G.W.
Carslaw, K. S.
Reddington, C. L.
Pringle, K. J.
Schulz, M.
Asmi, A.
Spracklen, D. V.
Ridley, D. A.
Woodhouse, M. T.
Lee, L. A.
Zhang, K.
Ghan, S. J.
Easter, R. C.
Liu, Xiaohong
Stier, P.
Lee, Y. H.
Adams, P. J.
Tost, H.
Lelieveld, J.
Bauer, S. E.
Tsigaridis, K.
Van Noije, T. P. C.
Strunk, A.
Vignati, E.
Bellouin, N.
Dalvi, M.
Johnson, C. E.
Bergman, T.
Kokkola, H.
Von Salzen, K.
Yu, F.
Luo, G.
Petzold, A.
Heintzenberg, J.
Clarke, A.
Ogren, J. A.
Gras, J.
Baltensperger, U.
Kaminski, U.
Jennings, S. G.
O'Dowd, C. D.
Harrison, R. M.
Beddows, D. C. S.
Kulmala, M.
Viisanen, Y.
Ulevicius, V.
Mihalopoulos, N.
Zdimal, V.
Fiebig, M.
Hansson, H.- C.
Swietlicki, E.
Henzing, J. S.
author_sort Mann, G.W.
title Intercomparison and Evaluation of Global Aerosol Microphysical Properties Among AeroCom Models of a Range of Complexity
title_short Intercomparison and Evaluation of Global Aerosol Microphysical Properties Among AeroCom Models of a Range of Complexity
title_full Intercomparison and Evaluation of Global Aerosol Microphysical Properties Among AeroCom Models of a Range of Complexity
title_fullStr Intercomparison and Evaluation of Global Aerosol Microphysical Properties Among AeroCom Models of a Range of Complexity
title_full_unstemmed Intercomparison and Evaluation of Global Aerosol Microphysical Properties Among AeroCom Models of a Range of Complexity
title_sort intercomparison and evaluation of global aerosol microphysical properties among aerocom models of a range of complexity
publisher University of Wyoming. Libraries
publishDate 2014
url https://hdl.handle.net/20.500.11919/706
https://doi.org/10.5194/acp-14-4679-2014
long_lat ENVELOPE(-44.516,-44.516,-60.733,-60.733)
geographic Aitken
Arctic
geographic_facet Aitken
Arctic
genre Arctic
genre_facet Arctic
op_source Atmospheric Science Faculty Publications
op_relation Faculty Publications - Atmospheric Science
https://hdl.handle.net/20.500.11919/706
doi:10.5194/acp-14-4679-2014
op_rights http://creativecommons.org/licenses/by/3.0/
op_rightsnorm CC-BY
op_doi https://doi.org/20.500.11919/706
https://doi.org/10.5194/acp-14-4679-2014
container_title Atmospheric Chemistry and Physics
container_volume 14
container_issue 9
container_start_page 4679
op_container_end_page 4713
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spelling ftmountainschol:oai:mountainscholar.org:20.500.11919/706 2023-05-15T15:19:09+02:00 Intercomparison and Evaluation of Global Aerosol Microphysical Properties Among AeroCom Models of a Range of Complexity Mann, G.W. Carslaw, K. S. Reddington, C. L. Pringle, K. J. Schulz, M. Asmi, A. Spracklen, D. V. Ridley, D. A. Woodhouse, M. T. Lee, L. A. Zhang, K. Ghan, S. J. Easter, R. C. Liu, Xiaohong Stier, P. Lee, Y. H. Adams, P. J. Tost, H. Lelieveld, J. Bauer, S. E. Tsigaridis, K. Van Noije, T. P. C. Strunk, A. Vignati, E. Bellouin, N. Dalvi, M. Johnson, C. E. Bergman, T. Kokkola, H. Von Salzen, K. Yu, F. Luo, G. Petzold, A. Heintzenberg, J. Clarke, A. Ogren, J. A. Gras, J. Baltensperger, U. Kaminski, U. Jennings, S. G. O'Dowd, C. D. Harrison, R. M. Beddows, D. C. S. Kulmala, M. Viisanen, Y. Ulevicius, V. Mihalopoulos, N. Zdimal, V. Fiebig, M. Hansson, H.- C. Swietlicki, E. Henzing, J. S. 2014-05-13 application/pdf https://hdl.handle.net/20.500.11919/706 https://doi.org/10.5194/acp-14-4679-2014 English eng eng University of Wyoming. Libraries Faculty Publications - Atmospheric Science https://hdl.handle.net/20.500.11919/706 doi:10.5194/acp-14-4679-2014 http://creativecommons.org/licenses/by/3.0/ CC-BY Atmospheric Science Faculty Publications Engineering Journal contribution 2014 ftmountainschol https://doi.org/20.500.11919/706 https://doi.org/10.5194/acp-14-4679-2014 2022-03-07T21:04:00Z ©2014 Author(s). Many of the next generation of global climate models will include aerosol schemes which explicitly simulate the microphysical processes that determine the particle size distribution. These models enable aerosol optical properties and cloud condensation nuclei (CCN) concentrations to be determined by fundamental aerosol processes, which should lead to a more physically based simulation of aerosol direct and indirect radiative forcings. This study examines the global variation in particle size distribution simulated by 12 global aerosol microphysics models to quantify model diversity and to identify any common biases against observations. Evaluation against size distribution measurements from a new European network of aerosol supersites shows that the mean model agrees quite well with the observations at many sites on the annual mean, but there are some seasonal biases common to many sites. In particular, at many of these European sites, the accumulation mode number concentration is biased low during winter and Aitken mode concentrations tend to be overestimated in winter and underestimated in summer. At high northern latitudes, the models strongly underpredict Aitken and accumulation particle concentrations compared to the measurements, consistent with previous studies that have highlighted the poor performance of global aerosol models in the Arctic. In the marine boundary layer, the models capture the observed meridional variation in the size distribution, which is dominated by the Aitken mode at high latitudes, with an increasing concentration of accumulation particles with decreasing latitude. Considering vertical profiles, the models reproduce the observed peak in total particle concentrations in the upper troposphere due to new particle formation, although modelled peak concentrations tend to be biased high over Europe. Overall, the multi-model-mean data set simulates the global variation of the particle size distribution with a good degree of skill, suggesting that most of the individual global aerosol microphysics models are performing well, although the large model diversity indicates that some models are in poor agreement with the observations. Further work is required to better constrain size-resolved primary and secondary particle number sources, and an improved understanding of nucleation and growth (e.g. the role of nitrate and secondary organics) will improve the fidelity of simulated particle size distributions. Other Non-Article Part of Journal/Newspaper Arctic Mountain Scholar (Digital Collections of Colorado and Wyoming) Aitken ENVELOPE(-44.516,-44.516,-60.733,-60.733) Arctic Atmospheric Chemistry and Physics 14 9 4679 4713

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