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Technical Papers

Evaluation of factors influencing road dust loadings in a Latin American urban center

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Pages 268-280 | Received 27 Apr 2020, Accepted 30 Jul 2020, Published online: 04 Feb 2021

References

  • Abhijith, K. V., P. Kumar, J. Gallagher, A. McNabola, R. Baldauf, F. Pilla, B. Broderick, S. Di Sabatino, and B. Pulvirenti. 2017. Air pollution abatement performances of green infrastructure in open road and built-up street canyon environments – A review. Atmos. Environ. 162:71–86. doi:10.1016/j.atmosenv.2017.05.014.
  • Alves, C. A., M. Evtyugina, A. M. P. Vicente, E. D. Vicente, T. V. Nunes, P. M. A. Silva, M. A. C. Duarte, C. A. Pio, F. Amato, and X. Querol. 2018. Chemical profiling of PM10from urban road dust. Sci. Total Environ. 634:41–51. doi:10.1016/j.scitotenv.2018.03.338.
  • Amato, F., F. R. Cassee, H. A. C. Denier van der Gon, R. Gehrig, M. Gustafsson, W. Hafner, R. M. Harrison, M. Jozwicka, F. J. Kelly, T. Moreno, et al. 2014. Urban air quality: The challenge of traffic non-exhaust emissions. J. Hazard. Mater. 275:31–36. doi:10.1016/j.jhazmat.2014.04.053.
  • Amato, F., O. Favez, M. Pandolfi, A. Alastuey, X. Querol, S. Moukhtar, B. Bruge, S. Verlhac, J. A. G. Orza, N. Bonnaire, et al. 2016. Traffic induced particle resuspension in Paris: Emission factors and source contributions. Atmos. Environ. 129:114–24. doi:10.1016/j.atmosenv.2016.01.022.
  • Amato, F., S. Nava, F. Lucarelli, X. Querol, A. Alastuey, J. M. Baldasano, and M. Pandolfi. 2010. A comprehensive assessment of PM emissions from paved roads: Real-world emission factors and intense street cleaning trials. Sci. Total Environ. 408 (20):4309–18. doi:10.1016/j.scitotenv.2010.06.008.
  • Amato, F., M. Pandolfi, A. Alastuey, A. Lozano, J. Contreras González, and X. Querol. 2013. Impact of traffic intensity and pavement aggregate size on road dust particles loading. Atmos. Environ. 77:711–17. doi:10.1016/j.atmosenv.2013.05.020.
  • Amato, F., M. Pandolfi, A. Escrig, X. Querol, A. Alastuey, J. Pey, N. Perez, and P. K. Hopke. 2009a. Quantifying road dust resuspension in urban environment by multilinear engine: A comparison with PMF2. Atmos. Environ. 43:2770–80. doi:10.1016/j.atmosenv.2009.02.039.
  • Amato, F., M. Pandolfi, T. Moreno, M. Furger, J. Pey, A. Alastuey, N. Bukowiecki, A. S. H. Prevot, U. Baltensperger, and X. Querol. 2011. Sources and variability of inhalable road dust particles in three European cities. Atmos. Environ. 45:6777–87. doi:10.1016/j.atmosenv.2011.06.003.
  • Amato, F., M. Pandolfi, M. Viana, X. Querol, A. Alastuey, and T. Moreno. 2009b. Spatial and chemical patterns of PM10 in road dust deposited in urban environment. Atmos. Environ. 43:1650–59. doi:10.1016/j.atmosenv.2008.12.009.
  • Amato, F., M. Schaap, H. A. C. Denier, V. D. Gon, M. Pandol, A. Alastuey, M. Keuken, and X. Querol. 2012. Effect of rain events on the mobility of road dust load in two Dutch and Spanish roads. Atmos. Environ. 62:352–58. doi:10.1016/j.atmosenv.2012.08.042.
  • Beltran, D., L. C. Belalcázar, and N. Rojas. 2012. Emisiones vehiculares de material particulado (PM2.5 y PM10) por resuspensión de polvo y abrasion de Bogotá. Rev. Ing. Sanit. Y Ambient 231:25–33.
  • Blanco, L. C., V. Miranda, L. Hernández, A. Barraza, W. Junger, M. Hurtado, and I. Romieu. 2014. Effect of particulate matter less than 10µm (PM10) on mortality in Bogota, Colombia: A time-series analysis, 1998-2006. Salud Publica Mex. 56:363–70.
  • Bukowiecki, N., P. Lienemann, M. Hill, M. Furger, A. Richard, F. Amato, A. S. H. Prévôt, U. Baltensperger, B. Buchmann, and R. Gehrig. 2010. PM10 emission factors for non-exhaust particles generated by road traffic in an urban street canyon and along a freeway in Switzerland. Atmos. Environ. 44:2330–40. doi:10.1016/j.atmosenv.2010.03.039.
  • China, S., and D. E. James. 2012. Influence of pavement macrotexture on PM10emissions from paved roads: A controlled study. Atmos. Environ. 63:313–26. doi:10.1016/j.atmosenv.2012.09.018.
  • Denby, B. R., K. J. Kupiainen, and M. Gustafsson. 2018. Chapter 9 – Review of road dust emissions. In Non-exhaust emissions, ed. F. B. T.-N.-E.-E. Amato, 183–203. UK: Academic Press. doi:10.1016/B978-0-12-811770-5.00009-1.
  • Denby, B. R., I. Sundvor, C. Johansson, L. Pirjola, M. Ketzel, M. Norman, K. Kupiainen, M. Gustafsson, G. Blomqvist, M. Kauhaniemi, et al. 2013a. A coupled road dust and surface moisture model to predict non-exhaust road traffic induced particle emissions (NORTRIP). Part 2: Surface moisture and salt impact modelling. Atmos. Environ. 81:485–503. doi:10.1016/J.ATMOSENV.2013.09.003.
  • Denby, B. R., I. Sundvor, C. Johansson, L. Pirjola, M. Ketzel, M. Norman, K. Kupiainen, M. Gustafsson, G. Blomqvist, and G. Omstedt. 2013b. A coupled road dust and surface moisture model to predict non-exhaust road traffic induced particle emissions (NORTRIP). Part 1: Road dust loading and suspension modelling. Atmos. Environ. 77:283–300. doi:10.1016/j.atmosenv.2013.04.069.
  • Denier van der Gon, H. A. C., M. E. Gerlofs-Nijland, R. Gehrig, M. Gustafsson, N. Janssen, R. M. Harrison, J. Hulskotte, C. Johansson, M. Jozwicka, M. Keuken, et al., 2013. The policy relevance of wear emissions from road transport, now and in the future – An international workshop report and consensus statement. J. Air Waste Manage. Assoc. 63, 136–49. 10.1080/10962247.2012.741055
  • Gehrig, R., K. Zeyer, N. Bukowiecki, P. Lienemann, L. D. Poulikakos, M. Furger, and B. Buchmann. 2010. Mobile load simulators – A tool to distinguish between the emissions due to abrasion and resuspension of PM10 from road surfaces. Atmos. Environ. 44:4937–43. doi:10.1016/j.atmosenv.2010.08.020.
  • Gómez-Moreno, F. J., B. Artíñano, E. D. Ramiro, M. Barreiro, L. Núñez, E. Coz, C. Dimitroulopoulou, S. Vardoulakis, C. Yagüe, G. Maqueda, et al. 2019. Urban vegetation and particle air pollution: Experimental campaigns in a traffic hotspot. Environ. Pollut. 247:195–205. doi:10.1016/j.envpol.2019.01.016.
  • Gustafsson, M., G. Blomqvist, A. Gudmundsson, A. Dahl, P. Jonsson, and E. Swietlicki. 2009. Factors influencing PM10 emissions from road pavement wear. Atmos. Environ. 43:4699–702. doi:10.1016/j.atmosenv.2008.04.028.
  • Gustafsson, M., G. Blomqvist, A. Gudmundsson, A. Dahl, E. Swietlicki, M. Bohgard, J. Lindbom, and A. Ljungman. 2008. Properties and toxicological effects of particles from the interaction between tyres, road pavement and winter traction material. Sci. Total Environ. 393:226–40. doi:10.1016/j.scitotenv.2007.12.030.
  • Gustafsson, M., G. Blomqvist, I. Järlskog, J. Lundberg, S. Janhäll, M. Elmgren, C. Johansson, M. Norman, and S. Silvergren. 2019. Road dust load dynamics and influencing factors for six winter seasons in Stockholm, Sweden. Atmos. Environ. X 2:100014. doi:10.1016/j.aeaoa.2019.100014.
  • Hernández, L. J., G. Aristizábal, Y. Salgado, L. Cantor, K. Medina, and J. Reyes. 2012. Asociación entre la contaminación del aire y la morbilidad por enfermedad respiratoria aguda en menores de cinco años en tres localidades de Bogotá. Pediatria (Santiago) 45:124–38. doi:10.1016/S0120-4912(15)30011-2.
  • Ingeniería DICTUC. 2006. Actualización del inventario de emisiones de contaminantes atmosféricos en la región metropolitana de Santiago de Chile 2005. Santiago: Universidad de Santiago de Chile.
  • Inrix. 2019. INRIX global traffic scorecard [WWW Document]. Accessed July 11, 2020. https://inrix.com/scorecard/.
  • ISSRC. 2008. IVE user manual. La Habra, CA: International Sustainable Systems Research Center.
  • Janhäll, S. 2015. Review on urban vegetation and particle air pollution – Deposition and dispersion. Atmos. Environ. 105:130–37. doi:10.1016/j.atmosenv.2015.01.052.
  • Jonsson, P., G. Blomqvist, and M. Gustafsson. 2008. Wet dust sampler technological innovation for sampling particles and salt on road surface. In TRB transportation research circular E-C126: Surface transportation weather and snow removal and ice control technology, ed. Swedish National Road and Transport Research Institute, 102–11. Indianapolis, Indiana: E-circular.
  • Kantamaneni, R., G. Adams, L. Bamesberger, E. Allwine, H. Westberg, B. Lamb, and C. Claiborn. 1996. The measurement of roadway PM10 emission rates using atmospheric tracer ratio techniques. Atmos. Environ. 30:4209–23. doi:10.1016/1352-2310(96)00131-8.
  • Kumar, P., L. Pirjola, M. Ketzel, and R. M. Harrison. 2013. Nanoparticle emissions from 11 non-vehicle exhaust sources – A review. Atmos. Environ. 67:252–77. doi:10.1016/j.atmosenv.2012.11.011.
  • Lanzerstorfer, C. 2018. Heavy metals in the finest size fractions of road-deposited sediments. Environ. Pollut. 239:522–31. doi:10.1016/j.envpol.2018.04.063.
  • Lee, K. Y., T. Batmunkh, H. S. Joo, and K. Park. 2018. Comparison of the physical and chemical characteristics of fine road dust at different urban sites. J. Air Waste Manage. Assoc. 68:812–23. doi:10.1080/10962247.2018.1443855.
  • Mannucci, M. P., and M. Franchini. 2017. Health effects of ambient air pollution in developing countries. Int. J. Environ. Res. Public Heal. doi:10.3390/ijerph14091048.
  • Méndez Espinosa, J. F., L. C. Pinto Herrera, B. R. Galvis Remolina, and J. E. Pachón Quinche. 2017. Estimación de factores de emisión de material particulado resuspendido antes, durante y después de la pavimentación de una vía en Bogotá. Cienc. e Ing. Neogranadina 27:43–60. doi:10.18359/rcin.1797.
  • Nedbor-Gross, R., B. Henderson, M. Perez-Peña, and J. E. Pachon. 2018. Air quality modeling in Bogotá, Colombia using local emissions and natural mitigation factor adjustment for re-suspended particulate matter. Atmos. Pollut. Res. 9:95–104. doi:10.1016/j.apr.2017.07.004.
  • Norman, M., I. Sundvor, B. R. Denby, C. Johansson, M. Gustafsson, G. Blomqvist, and S. Janhäll. 2016. Modelling road dust emission abatement measures using the NORTRIP model: Vehicle speed and studded tyre reduction. Atmos. Environ. 134:96–108. doi:10.1016/j.atmosenv.2016.03.035.
  • Omstedt, G., B. Bringfelt, and C. Johansson. 2005. A model for vehicle-induced non-tailpipe emissions of particles along Swedish roads. Atmos. Environ. 39:6088–97. doi:10.1016/j.atmosenv.2005.06.037.
  • Pace, T. G. 2005. Methodology to estimate the Transportable Fraction (TF) of fugitive dust emissions for regional and urban scale air quality analyses. Research Triangle Park, NC: US-Environmental Protection Agency.
  • Pachón, J. E. 2018. Case 7. The experience of Bogotá. In Air quality in cities, a global challenge, ed. X. Querol, 279. Madrid: Naturgy foundation.
  • Pachón, J. E., B. Galvis, O. Lombana, L. Carmona, S. Fajardo, A. Rincón, S. Meneses, R. Chaparro, R. Nedbor-Gross, and B. Henderson. 2018. Development and evaluation of a comprehensive atmospheric emission inventory for air quality modeling in the megacity of Bogotá. Atmosphere (Basel) 9 (2):49. doi:10.3390/atmos9020049.
  • Pachón, J. E., C. Saavedra, F. Amato, A. Rincon, and D. Sanchez. 2017. Identificación del aporte de fuentes al PM10 en la ciudad de Bogotá. Memorias Del IV Congreso Colombiano y Conferencia Internacional de Calidad Del Aire y Salud Pública CASAP. Cali: Universidad del Valle.
  • Padoan, E., F. Ajmone-Marsan, X. Querol, and F. Amato. 2018. An empirical model to predict road dust emissions based on pavement and traffic characteristics. Environ. Pollut. 237:713–20. doi:10.1016/j.envpol.2017.10.115.
  • Padoan, E., and F. Amato. 2018. Chapter 2 - Vehicle non-exhaust emissions: Impact on air quality. In Non-exhaust emissions, ed. F. B. T.-N.-E.-E. Amato, 21–65. UK: Academic Press. doi:10.1016/B978-0-12-811770-5.00002-9.
  • Pant, P., S. J. Baker, A. Shukla, C. Maikawa, K. J. Godri Pollitt, and R. M. Harrison. 2015. The PM10 fraction of road dust in the UK and India: Characterization, source profiles and oxidative potential. Sci. Total Environ. 530–531:445–52. doi:10.1016/j.scitotenv.2015.05.084.
  • Pant, P., and R. M. Harrison. 2013. Estimation of the contribution of road traffic emissions to particulate matter concentrations from field measurements: A review. Atmos. Environ. 77:78–97. doi:10.1016/j.atmosenv.2013.04.028.
  • Pérez-Peña, M. P., B. H. Henderson, R. Nedbor-Gross, and J. E. Pachón. 2017. Natural mitigation factor adjustment for re-suspended particulate matter emissions inventory for Bogota, Colombia. Atmos. Pollut. Res. 8:29–37. doi:10.1016/j.apr.2016.07.006.
  • Pouliot, G., H. Simon, P. V. Bhave, D. Tong, D. Mobley, T. G. Pace, and T. Pierce. 2010. Assessing the anthropogenic fugitive dust emission inventory and temporal allocation using an updated speciation of particulate matter. 19th International Emission Inventory Conference. San Antonio, TX.
  • Querol, X., F. Amato, F. Robusté, C. Holman, and R. M. Harrison. 2018. Chapter 11 - Non-technological measures on road traffic to abate urban air pollution. In Non-exhaust emissions, ed. F. B. T.-N.-E.-E. Amato, 229–60. UK: Academic Press. doi:10.1016/B978-0-12-811770-5.00011-X.
  • Ramírez, O., A. M. Sánchez de la Campa, F. Amato, R. A. Catacolí, N. Y. Rojas, and J. de la Rosa. 2018. Chemical composition and source apportionment of PM10 at an urban background site in a high–altitude Latin American megacity (Bogota, Colombia). Environ. Pollut. 233:142–55. doi:10.1016/j.envpol.2017.10.045.
  • Ramírez, O., A. M. Sánchez de la Campa, F. Amato, T. Moreno, L. F. Silva, and J. D. de la Rosa. 2019. Physicochemical characterization and sources of the thoracic fraction of road dust in a Latin American megacity. Sci. Total Environ. 652:434–46. doi:10.1016/j.scitotenv.2018.10.214.
  • Sarmiento, R., L. J. Hernandez, E. K. Medina, N. Rodriguez, and J. Reyes. 2015. Sintomas respiratorios asociados con la exposicion a la contaminacion del aire en cinco localidades de Bogota, 2008-2011, estudio en una cohorte dinamica. Biomedica 35:167–76. doi:10.7705/biomedica.v35i0.2445.
  • SDA. 2017. Informe anual de calidad del aire en Bogotá 2017. Bogota: Secretaria Distrital de Ambiente.
  • Secretaria del Medio Ambiente de la Ciudad de Mexico. 2018. Inventario de Emisiones de la Ciudad de Mexico 2016. Ciudad de Mexico: Secretaria del Medio Ambiente.
  • Sommer, F., V. Dietze, A. Baum, J. Sauer, S. Gilge, C. Maschowski, and R. Gieré. 2018. Tire abrasion as a major source of microplastics in the environment. Aerosol Air Qual. Res. 18:2014–28. doi:10.4209/aaqr.2018.03.0099.
  • Teng, H., V. Kwigizile, M. Karakouzian, D. E. James, and V. Etyemezian. 2008. Investigation of the AP-42 sampling method AU. J. Air Waste Manage. Assoc. 58:1422–33. doi:10.3155/1047-3289.58.11.1422.
  • Thorpe, A., and R. M. Harrison. 2008. Sources and properties of non-exhaust particulate matter from road traffic: A review. Sci. Total Environ. 400:270–82. doi:10.1016/j.scitotenv.2008.06.007.
  • US-EPA. 2006. AP 42, chapter 13: Miscellaneous sources. Research Triangle Park, NC: US-Environmental Protection Agency.
  • US-EPA. 2014. MOVES2014 software design reference manual. Research Triangle Park, NC: US-Environmental Protection Agency
  • Vargas, F., N. Y. Rojas, J. E. Pachon, and A. G. Russell. 2012. PM10 characterization and source apportionment at two residential areas in Bogota. Atmos. Pollut. Res. 3:72–80. doi:10.5094/APR.2012.006.
  • WHO. 2016. Ambient air pollution: A global assessment of exposure and burden of disease. Geneva, Switzerland: World Health Organization.
  • Zafra, C. A., J. Temprano, and I. Tejero. 2008. Particle size distributioin of accumlated sediments on an urban road in rainy weather. Environ. Technol. 29:571–82. doi:10.1080/09593330801983532.

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