Effects of emission reductions on organic aerosol in the southeastern United States
Long-term (1999 to 2013) data from the Southeastern Aerosol Research and Characterization (SEARCH) network are used to show that anthropogenic emission reductions led to important decreases in fine-particle organic aerosol (OA) concentrations in the southeastern US On average, 45 % (range 25 to...
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Copernicus Publications
2016-01-01
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| Series: | Atmospheric Chemistry and Physics |
| Online Access: | https://www.atmos-chem-phys.net/16/215/2016/acp-16-215-2016.pdf |
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doaj-f02084b0a57a42589397a6d3bbe42aee2020-11-24T23:24:29ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242016-01-011621523810.5194/acp-16-215-2016Effects of emission reductions on organic aerosol in the southeastern United StatesC. L. Blanchard0G. M. Hidy1S. Shaw2K. Baumann3E. S. Edgerton4Envair, Albany, CA, USAEnvair/Aerochem, Placitas, NM, USAEnvironmental Sector, Electric Power Research Institute, Palo Alto, CA, USAAtmospheric Research and Analysis, Cary, NC, USAAtmospheric Research and Analysis, Cary, NC, USALong-term (1999 to 2013) data from the Southeastern Aerosol Research and Characterization (SEARCH) network are used to show that anthropogenic emission reductions led to important decreases in fine-particle organic aerosol (OA) concentrations in the southeastern US On average, 45 % (range 25 to 63 %) of the 1999 to 2013 mean organic carbon (OC) concentrations are attributed to combustion processes, including fossil fuel use and biomass burning, through associations of measured OC with combustion products such as elemental carbon (EC), carbon monoxide (CO), and nitrogen oxides (NO<sub><i>x</i></sub>). The 2013 mean combustion-derived OC concentrations were 0.5 to 1.4 µg m<sup>−3</sup> at the five sites operating in that year. Mean annual combustion-derived OC concentrations declined from 3.8 ± 0.2 µg m<sup>−3</sup> (68 % of total OC) to 1.4 ± 0.1 µg m<sup>−3</sup> (60 % of total OC) between 1999 and 2013 at the urban Atlanta, Georgia, site (JST) and from 2.9 ± 0.4 µg m<sup>−3</sup> (39 % of total OC) to 0.7 ± 0.1 µg m<sup>−3</sup> (30 % of total OC) between 2001 and 2013 at the urban Birmingham, Alabama (BHM), site. The urban OC declines coincide with reductions of motor vehicle emissions between 2006 and 2010, which may have decreased mean OC concentrations at the urban SEARCH sites by > 2 µg m<sup>−3</sup>. BHM additionally exhibits a decline in OC associated with SO<sub>2</sub> from 0.4 ± 0.04 µg m<sup>−3</sup> in 2001 to 0.2 ± 0.03 µg m<sup>−3</sup> in 2013, interpreted as the result of reduced emissions from industrial sources within the city. Analyses using non-soil potassium as a biomass burning tracer indicate that biomass burning OC occurs throughout the year at all sites. All eight SEARCH sites show an association of OC with sulfate (SO<sub>4</sub>) ranging from 0.3 to 1.0 µg m<sup>−3</sup> on average, representing ∼ 25 % of the 1999 to 2013 mean OC concentrations. Because the mass of OC identified with SO<sub>4</sub> averages 20 to 30 % of the SO<sub>4</sub> concentrations, the mean SO<sub>4</sub>-associated OC declined by ∼ 0.5 to 1 µg m<sup>−3</sup> as SO<sub>4</sub> concentrations decreased throughout the SEARCH region. The 2013 mean SO<sub>4</sub> concentrations of 1.7 to 2.0 µg m<sup>−3</sup> imply that future decreases in mean SO<sub>4</sub>-associated OC concentrations would not exceed ∼ 0.3 to 0.5 µg m<sup>−3</sup>. Seasonal OC concentrations, largely identified with ozone (O<sub>3</sub>), vary from 0.3 to 1.4 µg m<sup>−3</sup> ( ∼ 20 % of the total OC concentrations).https://www.atmos-chem-phys.net/16/215/2016/acp-16-215-2016.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
C. L. Blanchard G. M. Hidy S. Shaw K. Baumann E. S. Edgerton |
| spellingShingle |
C. L. Blanchard G. M. Hidy S. Shaw K. Baumann E. S. Edgerton Effects of emission reductions on organic aerosol in the southeastern United States Atmospheric Chemistry and Physics |
| author_facet |
C. L. Blanchard G. M. Hidy S. Shaw K. Baumann E. S. Edgerton |
| author_sort |
C. L. Blanchard |
| title |
Effects of emission reductions on organic aerosol in the southeastern United States |
| title_short |
Effects of emission reductions on organic aerosol in the southeastern United States |
| title_full |
Effects of emission reductions on organic aerosol in the southeastern United States |
| title_fullStr |
Effects of emission reductions on organic aerosol in the southeastern United States |
| title_full_unstemmed |
Effects of emission reductions on organic aerosol in the southeastern United States |
| title_sort |
effects of emission reductions on organic aerosol in the southeastern united states |
| publisher |
Copernicus Publications |
| series |
Atmospheric Chemistry and Physics |
| issn |
1680-7316 1680-7324 |
| publishDate |
2016-01-01 |
| description |
Long-term (1999 to 2013) data from the Southeastern Aerosol Research and
Characterization (SEARCH) network are used to show that anthropogenic
emission reductions led to important decreases in fine-particle organic
aerosol (OA) concentrations in the southeastern US On average, 45 %
(range 25 to 63 %) of the 1999 to 2013 mean organic carbon (OC)
concentrations are attributed to combustion processes, including fossil fuel
use and biomass burning, through associations of measured OC with combustion
products such as elemental carbon (EC), carbon monoxide (CO), and nitrogen oxides (NO<sub><i>x</i></sub>). The 2013 mean combustion-derived OC concentrations were
0.5 to 1.4 µg m<sup>−3</sup> at the five sites operating in that year. Mean
annual combustion-derived OC concentrations declined from 3.8 ± 0.2 µg m<sup>−3</sup> (68 % of total OC) to 1.4 ± 0.1 µg m<sup>−3</sup>
(60 % of total OC) between 1999 and 2013 at the urban Atlanta, Georgia,
site (JST) and from 2.9 ± 0.4 µg m<sup>−3</sup> (39 % of total OC) to
0.7 ± 0.1 µg m<sup>−3</sup> (30 % of total OC) between 2001 and 2013
at the urban Birmingham, Alabama (BHM), site. The urban OC declines coincide
with reductions of motor vehicle emissions between 2006 and 2010, which may
have decreased mean OC concentrations at the urban SEARCH sites by
> 2 µg m<sup>−3</sup>. BHM additionally exhibits a decline in OC
associated with SO<sub>2</sub> from 0.4 ± 0.04 µg m<sup>−3</sup> in 2001 to
0.2 ± 0.03 µg m<sup>−3</sup> in 2013, interpreted as the result of
reduced emissions from industrial sources within the city. Analyses using
non-soil potassium as a biomass burning tracer indicate that biomass burning
OC occurs throughout the year at all sites. All eight SEARCH sites show an
association of OC with sulfate (SO<sub>4</sub>) ranging from 0.3 to 1.0 µg m<sup>−3</sup> on average, representing ∼ 25 % of the 1999 to 2013
mean OC concentrations. Because the mass of OC identified with SO<sub>4</sub>
averages 20 to 30 % of the SO<sub>4</sub> concentrations, the mean
SO<sub>4</sub>-associated OC declined by ∼ 0.5 to 1 µg m<sup>−3</sup>
as SO<sub>4</sub> concentrations decreased throughout the SEARCH region. The 2013
mean SO<sub>4</sub> concentrations of 1.7 to 2.0 µg m<sup>−3</sup> imply that
future decreases in mean SO<sub>4</sub>-associated OC concentrations would not
exceed ∼ 0.3 to 0.5 µg m<sup>−3</sup>. Seasonal OC
concentrations, largely identified with ozone (O<sub>3</sub>), vary from 0.3 to
1.4 µg m<sup>−3</sup> ( ∼ 20 % of the total OC
concentrations). |
| url |
https://www.atmos-chem-phys.net/16/215/2016/acp-16-215-2016.pdf |
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