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Source apportionment of organic carbon in Centreville, AL using organosulfates in organic tracer-based positive matrix factorization
- Publisher :
- Elsevier Ltd
-
Abstract
- Organic tracer-based positive matrix factorization (PMF) was used to apportion fine particulate (PM2.5) organic carbon (OC) to its sources in Centreville, AL, USA, a rural forested site influenced by anthropogenic emissions, during the Southern Oxidant and Aerosol Study (SOAS) in the summer of 2013. Model inputs included organosulfates, a group of organic compounds that are tracers of anthropogenically-influenced biogenic secondary organic aerosols (SOA), as well as, OC, elemental carbon, water-soluble organic carbon, and other organic tracers for primary and secondary sources measured during day and night. The organic tracer-based PMF resolved eight factors that were identified as biomass burning (11%, average contribution to PM2.5 OC), vehicle emissions (8%), isoprene SOC formed under low-NOx conditions (13%), isoprene SOC formed under high-NOx conditions (11%), SOC formed by photochemical reactions (9%), oxidatively aged biogenic SOC (6%), sulfuric acid-influenced SOC (21%, that also includes isoprene and monoterpene SOC), and monoterpene SOC formed under high-NOx conditions (21%). These results indicate that OC in Centreville during summer is mainly secondary in origin (81%). Fossil fuel combustion is the major source of NOx, ozone, and sulfuric acid that play a key role in SOA formation in the southeastern US. Fossil fuel was found to influence 61-76% of OC through vehicle emissions and SOA formation. Together with prescribed burns, which were the major type of biomass burning during this study, the OC influenced by anthropogenic activities reached 87%. The organic tracer-based PMF results were further compared with two complementary source apportionment techniques: PMF factors resolved for submicron organic aerosols measured using aerosol mass spectrometry (AMS) by Xu et al. (2015a) in Centreville during SOAS; biomass burning organic aerosols (BBOA, 11% of OC), isoprene-derived organic aerosols (isoprene-OA, 20% of OC), more-oxidized oxygenated organic aerosols (MO-OOA, 34% of OC), and less-oxidized oxygenated organic aerosols (LO-OOA, 35% of OC); and PM2.5 OC apportioned by chemical-mass balance model (CMB), considering the same chemical species as this study, save for organosulfates; biomass burning (5%), diesel engines (2%), gasoline smokers (3%), vegetative detritus (1%), isoprene SOC (23%) and monoterpene SOC (34%), and other (likely biogenic secondary) sources (33%). Overall, this study indicates the primary and secondary sources resolved by the organic tracer-based PMF are in good agreement with CMB and AMS-PMF results, while the organic tracer-based PMF provides additional insight to the SOC formation pathways through the inclusion of organosulfates and other organic tracers measured during day and night. © 2018 Elsevier Ltd
- Subjects :
- biomass burning
summer
Secondary
Isoprene
aerosol
Centreville
anthropogenic source
air pollution
Monoterpene
sulfate
Photochemical reactions
Biomass
Factorization
Particulate emissions
terpene
comparative study
gasoline
Diesel engines
Sulfuric acid
sulfuric acid
source apportionment
tracer
priority journal
Alabama
detritus
secondary organic aerosol
Primary
Nitrogen oxides
Particles (particulate matter)
organic compound
oxidation
solar radiation
PM2.5
Anthropogenic
Matrix algebra
Article
exhaust gas
Organic carbon
fossil fuel
Aerosols
particulate matter
Mass spectrometry
biomass
Fossil fuels
organic carbon
human activity
matrix
United States
signal noise ratio
ozone
organosulfur derivative
Monoterpenes
isoprene
monoterpene
combustion
diesel engine
Subjects
Details
- Database :
- OpenAIRE
- Accession number :
- edsair.od.......185..e9dc16e5feb868e91dc2c2e0c6191bf0