Aerosol direct radiative effects over the northwest atlantic, northwest pacific, and north indian oceans: estimates based on in-situ chemical and optical measurements and chemical transport modeling

The largest uncertainty in the radiative forcing of climate change over the industrial era is that due to aerosols, a substantial fraction of which is the uncertainty associated with scattering and absorption of shortwave ( solar) radiation by anthropogenic aerosols in cloud-free conditions (IPCC, 2...

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Published in:Atmospheric Chemistry and Physics
Main Authors: Bates, T. S., Anderson, T. L., Baynard, T., Bond, T., Boucher, O., Carmichael, G., Clarke, A., Erlick, C., Guo, H., Horowitz, L., Howell, S., Kulkarni, S., Maring, H., McComiskey, A., Middlebrook, A., Noone, K., O'Dowd, C. D., Ogren, J., Penner, J., Quinn, P. K., Ravishankara, A. R., Savoie, D. L., Schwartz, S. E., Shinozuka, Y., Tang, Y., Weber, R. J., Wu, Y.
Format: Article in Journal/Newspaper
Language:unknown
Published: Copernicus GmbH 2006
Subjects:
experiment ace 1
trace-p experiment
anthropogenic sulfate aerosols
lower tropospheric aerosol
greenstein phase function
single scattering albedo
marine boundary-layer
long-range transport
sea-salt aerosols
carbonaceous aerosols
Pacific
Indian
Northwest Atlantic
Online Access:http://hdl.handle.net/10379/8862
https://doi.org/10.5194/acp-6-1657-2006
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spelling ftnuigalway:oai:aran.library.nuigalway.ie/:10379/8862 2023-06-11T04:15:25+02:00 Aerosol direct radiative effects over the northwest atlantic, northwest pacific, and north indian oceans: estimates based on in-situ chemical and optical measurements and chemical transport modeling Bates, T. S. Anderson, T. L. Baynard, T. Bond, T. Boucher, O. Carmichael, G. Clarke, A. Erlick, C. Guo, H. Horowitz, L. Howell, S. Kulkarni, S. Maring, H. McComiskey, A. Middlebrook, A. Noone, K. O'Dowd, C. D. Ogren, J. Penner, J. Quinn, P. K. Ravishankara, A. R. Savoie, D. L. Schwartz, S. E. Shinozuka, Y. Tang, Y. Weber, R. J. Wu, Y. 2006-05-22 http://hdl.handle.net/10379/8862 https://doi.org/10.5194/acp-6-1657-2006 unknown Copernicus GmbH Atmospheric Chemistry and Physics Bates, T. S. Anderson, T. L.; Baynard, T.; Bond, T.; Boucher, O.; Carmichael, G.; Clarke, A.; Erlick, C.; Guo, H.; Horowitz, L.; Howell, S.; Kulkarni, S.; Maring, H.; McComiskey, A.; Middlebrook, A.; Noone, K.; O'Dowd, C. D.; Ogren, J.; Penner, J.; Quinn, P. K.; Ravishankara, A. R.; Savoie, D. L.; Schwartz, S. E.; Shinozuka, Y.; Tang, Y.; Weber, R. J.; Wu, Y. (2006). Aerosol direct radiative effects over the northwest atlantic, northwest pacific, and north indian oceans: estimates based on in-situ chemical and optical measurements and chemical transport modeling. Atmospheric Chemistry and Physics 6 , 1657-1732 1680-7324 http://hdl.handle.net/10379/8862 doi:10.5194/acp-6-1657-2006 Attribution-NonCommercial-NoDerivs 3.0 Ireland https://creativecommons.org/licenses/by-nc-nd/3.0/ie/ experiment ace 1 trace-p experiment anthropogenic sulfate aerosols lower tropospheric aerosol greenstein phase function single scattering albedo marine boundary-layer long-range transport sea-salt aerosols carbonaceous aerosols Article 2006 ftnuigalway https://doi.org/10.5194/acp-6-1657-2006 2023-05-28T18:04:37Z The largest uncertainty in the radiative forcing of climate change over the industrial era is that due to aerosols, a substantial fraction of which is the uncertainty associated with scattering and absorption of shortwave ( solar) radiation by anthropogenic aerosols in cloud-free conditions (IPCC, 2001). Quantifying and reducing the uncertainty in aerosol influences on climate is critical to understanding climate change over the industrial period and to improving predictions of future climate change for assumed emission scenarios. Measurements of aerosol properties during major field campaigns in several regions of the globe during the past decade are contributing to an enhanced understanding of atmospheric aerosols and their effects on light scattering and climate. The present study, which focuses on three regions downwind of major urban/population centers ( North Indian Ocean (NIO) during INDOEX, the Northwest Pacific Ocean (NWP) during ACE-Asia, and the Northwest Atlantic Ocean (NWA) during ICARTT), incorporates understanding gained from field observations of aerosol distributions and properties into calculations of perturbations in radiative fluxes due to these aerosols. This study evaluates the current state of observations and of two chemical transport models ( STEM and MOZART). Measurements of burdens, extinction optical depth (AOD), and direct radiative effect of aerosols (DRE - change in radiative flux due to total aerosols) are used as measurement-model check points to assess uncertainties. In-situ measured and remotely sensed aerosol properties for each region ( mixing state, mass scattering efficiency, single scattering albedo, and angular scattering properties and their dependences on relative humidity) are used as input parameters to two radiative transfer models (GFDL and University of Michigan) to constrain estimates of aerosol radiative effects, with uncertainties in each step propagated through the analysis. Constraining the radiative transfer calculations by observational inputs increases the ... Article in Journal/Newspaper Northwest Atlantic National University of Ireland (NUI), Galway: ARAN Pacific Indian Atmospheric Chemistry and Physics 6 6 1657 1732
institution Open Polar
collection National University of Ireland (NUI), Galway: ARAN
op_collection_id ftnuigalway
language unknown
topic experiment ace 1
trace-p experiment
anthropogenic sulfate aerosols
lower tropospheric aerosol
greenstein phase function
single scattering albedo
marine boundary-layer
long-range transport
sea-salt aerosols
carbonaceous aerosols
spellingShingle experiment ace 1
trace-p experiment
anthropogenic sulfate aerosols
lower tropospheric aerosol
greenstein phase function
single scattering albedo
marine boundary-layer
long-range transport
sea-salt aerosols
carbonaceous aerosols
Bates, T. S.
Anderson, T. L.
Baynard, T.
Bond, T.
Boucher, O.
Carmichael, G.
Clarke, A.
Erlick, C.
Guo, H.
Horowitz, L.
Howell, S.
Kulkarni, S.
Maring, H.
McComiskey, A.
Middlebrook, A.
Noone, K.
O'Dowd, C. D.
Ogren, J.
Penner, J.
Quinn, P. K.
Ravishankara, A. R.
Savoie, D. L.
Schwartz, S. E.
Shinozuka, Y.
Tang, Y.
Weber, R. J.
Wu, Y.
Aerosol direct radiative effects over the northwest atlantic, northwest pacific, and north indian oceans: estimates based on in-situ chemical and optical measurements and chemical transport modeling
topic_facet experiment ace 1
trace-p experiment
anthropogenic sulfate aerosols
lower tropospheric aerosol
greenstein phase function
single scattering albedo
marine boundary-layer
long-range transport
sea-salt aerosols
carbonaceous aerosols
description The largest uncertainty in the radiative forcing of climate change over the industrial era is that due to aerosols, a substantial fraction of which is the uncertainty associated with scattering and absorption of shortwave ( solar) radiation by anthropogenic aerosols in cloud-free conditions (IPCC, 2001). Quantifying and reducing the uncertainty in aerosol influences on climate is critical to understanding climate change over the industrial period and to improving predictions of future climate change for assumed emission scenarios. Measurements of aerosol properties during major field campaigns in several regions of the globe during the past decade are contributing to an enhanced understanding of atmospheric aerosols and their effects on light scattering and climate. The present study, which focuses on three regions downwind of major urban/population centers ( North Indian Ocean (NIO) during INDOEX, the Northwest Pacific Ocean (NWP) during ACE-Asia, and the Northwest Atlantic Ocean (NWA) during ICARTT), incorporates understanding gained from field observations of aerosol distributions and properties into calculations of perturbations in radiative fluxes due to these aerosols. This study evaluates the current state of observations and of two chemical transport models ( STEM and MOZART). Measurements of burdens, extinction optical depth (AOD), and direct radiative effect of aerosols (DRE - change in radiative flux due to total aerosols) are used as measurement-model check points to assess uncertainties. In-situ measured and remotely sensed aerosol properties for each region ( mixing state, mass scattering efficiency, single scattering albedo, and angular scattering properties and their dependences on relative humidity) are used as input parameters to two radiative transfer models (GFDL and University of Michigan) to constrain estimates of aerosol radiative effects, with uncertainties in each step propagated through the analysis. Constraining the radiative transfer calculations by observational inputs increases the ...
format Article in Journal/Newspaper
author Bates, T. S.
Anderson, T. L.
Baynard, T.
Bond, T.
Boucher, O.
Carmichael, G.
Clarke, A.
Erlick, C.
Guo, H.
Horowitz, L.
Howell, S.
Kulkarni, S.
Maring, H.
McComiskey, A.
Middlebrook, A.
Noone, K.
O'Dowd, C. D.
Ogren, J.
Penner, J.
Quinn, P. K.
Ravishankara, A. R.
Savoie, D. L.
Schwartz, S. E.
Shinozuka, Y.
Tang, Y.
Weber, R. J.
Wu, Y.
author_facet Bates, T. S.
Anderson, T. L.
Baynard, T.
Bond, T.
Boucher, O.
Carmichael, G.
Clarke, A.
Erlick, C.
Guo, H.
Horowitz, L.
Howell, S.
Kulkarni, S.
Maring, H.
McComiskey, A.
Middlebrook, A.
Noone, K.
O'Dowd, C. D.
Ogren, J.
Penner, J.
Quinn, P. K.
Ravishankara, A. R.
Savoie, D. L.
Schwartz, S. E.
Shinozuka, Y.
Tang, Y.
Weber, R. J.
Wu, Y.
author_sort Bates, T. S.
title Aerosol direct radiative effects over the northwest atlantic, northwest pacific, and north indian oceans: estimates based on in-situ chemical and optical measurements and chemical transport modeling
title_short Aerosol direct radiative effects over the northwest atlantic, northwest pacific, and north indian oceans: estimates based on in-situ chemical and optical measurements and chemical transport modeling
title_full Aerosol direct radiative effects over the northwest atlantic, northwest pacific, and north indian oceans: estimates based on in-situ chemical and optical measurements and chemical transport modeling
title_fullStr Aerosol direct radiative effects over the northwest atlantic, northwest pacific, and north indian oceans: estimates based on in-situ chemical and optical measurements and chemical transport modeling
title_full_unstemmed Aerosol direct radiative effects over the northwest atlantic, northwest pacific, and north indian oceans: estimates based on in-situ chemical and optical measurements and chemical transport modeling
title_sort aerosol direct radiative effects over the northwest atlantic, northwest pacific, and north indian oceans: estimates based on in-situ chemical and optical measurements and chemical transport modeling
publisher Copernicus GmbH
publishDate 2006
url http://hdl.handle.net/10379/8862
https://doi.org/10.5194/acp-6-1657-2006
geographic Pacific
Indian
geographic_facet Pacific
Indian
genre Northwest Atlantic
genre_facet Northwest Atlantic
op_relation Atmospheric Chemistry and Physics
Bates, T. S. Anderson, T. L.; Baynard, T.; Bond, T.; Boucher, O.; Carmichael, G.; Clarke, A.; Erlick, C.; Guo, H.; Horowitz, L.; Howell, S.; Kulkarni, S.; Maring, H.; McComiskey, A.; Middlebrook, A.; Noone, K.; O'Dowd, C. D.; Ogren, J.; Penner, J.; Quinn, P. K.; Ravishankara, A. R.; Savoie, D. L.; Schwartz, S. E.; Shinozuka, Y.; Tang, Y.; Weber, R. J.; Wu, Y. (2006). Aerosol direct radiative effects over the northwest atlantic, northwest pacific, and north indian oceans: estimates based on in-situ chemical and optical measurements and chemical transport modeling. Atmospheric Chemistry and Physics 6 , 1657-1732
1680-7324
http://hdl.handle.net/10379/8862
doi:10.5194/acp-6-1657-2006
op_rights Attribution-NonCommercial-NoDerivs 3.0 Ireland
https://creativecommons.org/licenses/by-nc-nd/3.0/ie/
op_doi https://doi.org/10.5194/acp-6-1657-2006
container_title Atmospheric Chemistry and Physics
container_volume 6
container_issue 6
container_start_page 1657
op_container_end_page 1732
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