Post on 30-Jul-2020
Using the 13C/12C carbon isotope ratio to characterize the emission sources of airborne particulate matter: a review of literature1
Juan Aguilera, MD, MPH*; Leah D. Whigham, PhD, FTOS*
*Institute for Healthy Living at The University of Texas at El Paso
INTRODUCTION RESULTS
• Outdoor aerosols negatively affect living organisms even at low concentrations2,3.
• The stable isotope composition of an element (δ) allows the characterization of the naturally occurring isotope ratio (13C/12C) in carbon-containing aerosols4.
• Main urban sources of air pollutants include, motor vehicle traffic, industrial activities, building and housing, as well as smoking3.
• Motor vehicle emissions are a major source of PM and can range from 14 to 50%5.
METHODOLOGY
RESULTS
1. Aguilera J, & Whigham LD. Isot Environ Healt S, 2018;54(6), 573.
2. Kim K-H, et al. Environ Int. 2015;74:136.3. Calvo A et al. Atmos Res. 2013;120:1.4. Gröning M. Handbook of Stable Isotope Analytical
Techniques. 2004;8745. Sheesley RJ, et al. J Geophys Res Atmos. 2003;108. 6. O'Leary MH. Bioscience. 1988;38(5):328.7. Guo Z et al. Atmos Res. 2016;168:105.8. Dai S et al. Atmos Chem Phys. 2015;15(6):3097.9. Ancelet T et al. Atmos Environ. 2011;45(26):4463.10. Ho K et al. Atmos Chem Phys. 2006;6(12):4569.11. Huang L et al. Atmos Environ. 2006;40(15):2690.12. Shakya KM et al. AAQR. 2010;10;219. 13. López-Veneroni D et al. Atmos Environ.
2009;43(29):4491.
14. Widory D et al. Atmos Environ. 2004;38(7):953.15. Andersson A et al. Environ Sci Tech.
2015;49(4):2038. 16. Kawashima H et al. Atmos Environ. 2012;46:568. 17. Guo Z et al. Atmos Res. 2016;168:105.18. Cao J et al. Atmos Environ. 2011;45(6):1359.19. Marley NA et al. Atmos Chem Phys.
2009;9(5):1537.20. Masalaite A et al. Atmos Res. 2015;158.21. Fisseha R et al. Atmos Environ. 2009;43(2):431. 22. Górka M et al. Isot Environ Healt S. 2012;48(2):327. 23. Wang G et al. Atmos Chem Phys.
2010;10(13):6087.24. Liu G et al. Atmos Environ. 2014;92:303–308. 25. Martinsson J et al. AAQR. 2017;17(8):2081.
REFERENCES
• Peer-reviewed articles from Jan 2004 - Jan 2018 were searched for terms related to the 13C/12C carbon isotope ratio (stable carbon isotopes, carbon isotope ratios, isotopic composition, 13C delta value, δ13C) and air pollution (air pollutants, particulate matter, PM2.5, PM10, fine particles, carbon dioxide, CO2, elemental carbon, organic carbon, and black carbon) .
CONCLUSION
• Studies that did not combine measurement approaches, could not distinguish pollution sources using only δ13C values.
• We recommend using combined methods of measurements (radiocarbon, chemical composition) when δ13C values from potential sources are likely to overlap.
Dust samplesStreet dust Rural site Japan PM2.5 EC -18.4‰ to -16.4‰11/2009 14
Street dust Urban street Mexico City PM2.5 TC -21‰ ± 0.2‰3/2002 13
Street dust Urban street Wroclaw PM10 TC -26.9‰ to -25.1‰01/2007 – 12/2007 22
Coal/dust Urban areas Baoji, China PM10 TC -23.4‰ ±0.4‰02/2008 23
Coal/dust Urban areas Baoji, China PM10 TC -24.4‰ ±0.5‰04/2008 23
Biomass/ biogenic emissionsC3 plants Wheat smoke Jiangsu/Henan PM EC -29.9‰ to -25.4‰2010 – 2012 24
C3 plants Rural site Japan PM2.5 EC -34.7‰ to -28.0‰04/2009 - 11/2009 16
C4 plants Maize smoke Jiangsu/Shananxi PM EC -22.2‰ to -13.0‰2010 – 2012 24
C4 plants Rural site Yurihonjo, JPN PM2.5 EC -19.3‰ to -16.1‰04/2009 – 11/2009 16
C3 and C4 plants Suburban Tecamac, MX PM1 TC -27.0‰ to -15.0‰03/2006 19
Biomass burning Pasture area Sweden PM10 TC -26.73‰ to -25.64‰04/2008 – 03/2009 25
Emission sources Type of site Sampling siteParticle types
C δ13C values Sampling period Ref
Vehicle emission sourcesVehicle emissions Car tunnel Zhujiang PM2.5 TC -25.5‰ to -24.7‰08/2013 8
Vehicle emissions Car tunnel Mount Victoria, NZ PM2.5 TC -28.3‰ to -24.7‰12/2008 – 03/2009 9
Vehicle emissions Urban site Hong Kong, China PM2.5 OC -28.1‰ to -26.3‰11/2000 – 08/2001 10
Vehicle emissions Urban site Hong Kong, China PM2.5 EC -25.9‰ to -25.4‰11/2000 – 08/2001 10
Vehicle emissions Car tunnel Cassiar tunnel PM2.5 EC -26.47‰08/2001 11
Vehicle emissions Car tunnel Cassiar tunnel PM2.5 OC -27.34‰08/2001 11
Vehicle emissions Rooftop/traffic Kathmandu PM TC -26.05‰ to -25.51‰12/2007 – 01/2008 12
Vehicle emissions Urban site Canada PM2.5 EC -26.9‰08/2001 11
Vehicle emissions Urban site Canada PM2.5 OC -27.20‰08/2001 11
Gasoline emissions Car tunnel Mexico City PM2.5 TC -25.4‰ to -25‰03/2002 13
Vehicle emissions Urban site Paris PM TC -26.3‰ to -24.5‰05/2002 – 09/2002 14
Diesel emissions Bus station Mexico City PM2.5 TC -25.75‰ to -24.7‰03/2002 13
Non-vehicle anthropogenic emissions sourcesCoal combustion Suburban site Pearl River Delta PM2.5 EC -24.3‰ to -23.7‰01/2013 15
Coal combustion Rural site Yurihonjo, JPN PM2.5 EC -23.3‰11/2009 16
Coal combustion Urban site Paris PM TC -23.9‰ ± 0.5‰05/2002 - 09/2002 14
Coal combustion Rural site Yurihonjo, JPN PM2.5 EC -27.4‰ ± 1.7‰11/2009 16
Fireplace emissions Rural chimney Yurihonjo, JPN PM EC -26.5‰ ± 0.1‰11/2009 16
Mixed fuel emission sourcesVehicle/industrial Urban site North Nanjing PM1.1 EC -26.33‰ to -22.48‰07/2014 17
Vehicle/industrial Rooftop/traffic Mexico City PM1 TC -30.0‰ to -22.0‰05/2003 19
Vehicle/industrial Urban site Paris PM10 TC -26.7‰ to -25.8‰05/2002 – 09/2002 14
Vehicle/coal 14 cities China PM2.5 OC -26.90‰ to -23.08‰01/2003 – 07/2003 18
Vehicle/coal 14 cities China PM2.5 EC -26.63‰ to -23.27‰01/2003 – 07/2003 18
Vehicle/coal/industrial Urban site North Nanjing PM1.1 EC -25.72‰ to -20.48‰12/2013 – 01/2014 17
Fossil fuel emissions Suburban site Vilnius PM1 TC -30.1‰ to -26.4‰10/2012 20
Fossil fuel emissions Urban site Zurich PM10 TC -27.4‰ to -25.9‰03/2003 21
Fossil fuel emissions Urban site Zurich PM10 TC -27.6‰ to -26‰08/2002 – 09/2002 21
• The isotopic compositions of PM carbon fractions can be used to characterize samples by their emission sources and formation process.
• In rural areas, biomass burning and farming emissions are more common .
• C4 plants are isotopically heavier the C3 plants6
• The 13C/12C carbon isotope ratio can be used to characterize the emission sources from biomass burning of C3 and C4 plants7.
Table 1. δ13C values (‰) of PM samples by source emissions1
Figure 1. Naturally occurring isotopes of carbon
Figure 2. Structure of C3 and C4 plants
Figure 3. Comparison of δ13C (‰) range values of PM samples by emission source1
TC: Total Carbon, OC: Organic Carbon, EC: Elemental Carbon