Ultrafine particle levels at an international port of entry between the US and Mexico: Exposure implications for users, workers, and neighbors

Exposure to diesel-emitted particles has been linked to increased cancer risk and cardiopulmonary diseases. Because of their size (<100 nm), exposure to ultrafine particles (UFPs) emitted from heavy-duty diesel vehicles (HDDV) might result in greater health risks than those associated with larger particles. Seasonal UFP levels at the International Bridge of the Americas, which connects the US and Mexico and has high HDDV traffic demands, were characterized. Hourly average UFP concentrations ranged between 1.7 × 103/cc and 2.9 × 105/cc with a mean of 3.5 × 104/cc. Wind speeds <2 m s−1 and temperatures <15 °C were associated with particle number concentrations above normal conditions. The presence of HDDV had the strongest impact on local UFP levels. Varying particle size distributions were associated with south- and northbound HDDV traffic. Peak exposure occurred on weekday afternoons. Although in winter, high exposure episodes were also observed in the morning. Particle number concentrations were estimated to reach background levels at 400 m away from traffic. The populations exposed to UFP above background levels include law enforcement officers, street vendors, private commuters, and commercial vehicle drivers as well as neighbors on both sides of the border, including a church and several schools.

[1]  Halûk Özkaynak,et al.  Continuous measurement of fine and ultrafine particulate matter, criteria pollutants and meteorological conditions in urban El Paso, texas , 2003 .

[2]  Jian Wang,et al.  Studies of Diesel Engine Particle Emissions During Transient Operations Using an Engine Exhaust Particle Sizer , 2006 .

[3]  G. Oberdörster,et al.  Pulmonary effects of inhaled ultrafine particles , 2000, International archives of occupational and environmental health.

[4]  J. Seagrave,et al.  Vehicular Emissions Induce Vascular MMP-9 Expression and Activity Associated With Endothelin-1–Mediated Pathways , 2009, Arteriosclerosis, thrombosis, and vascular biology.

[5]  Yifang Zhu,et al.  Penetration of freeway ultrafine particles into indoor environments , 2005 .

[6]  M. Hallquist,et al.  Evolution of the urban aerosol during winter temperature inversion episodes , 2006 .

[7]  P. Vokonas,et al.  Effects of Air Pollution on Heart Rate Variability: The VA Normative Aging Study , 2004, Environmental health perspectives.

[8]  Joellen Lewtas,et al.  Air pollution combustion emissions: characterization of causative agents and mechanisms associated with cancer, reproductive, and cardiovascular effects. , 2007, Mutation research.

[9]  Yifang Zhu,et al.  Study of ultrafine particles near a major highway with heavy-duty diesel traffic , 2002 .

[10]  A. Saxon,et al.  Diesel exhaust particles directly induce activated mast cells to degranulate and increase histamine levels and symptom severity. , 2000, The Journal of allergy and clinical immunology.

[11]  W. MacNee,et al.  Exacerbations of COPD: environmental mechanisms. , 2000, Chest.

[12]  R O McClellan,et al.  Health effects of exposure to diesel exhaust particles. , 1987, Annual review of pharmacology and toxicology.

[13]  Steffen Loft,et al.  Air pollution, oxidative damage to DNA, and carcinogenesis. , 2008, Cancer letters.

[14]  Chuen-Jinn Tsai,et al.  Concentrations of ultrafine particles at a highway toll collection booth and exposure implications for toll collectors. , 2010, The Science of the total environment.

[15]  D. Diat-Sanchez,et al.  The role of diesel exhaust particles and their associated polyaromatic hydrocarbons in the induction of allergic airway disease , 1997 .

[16]  David B. Kittelson,et al.  FINE PARTICLE (NANOPARTICLE) EMISSIONS ON MINNESOTA HIGHWAYS , 2001 .

[17]  U Gehring,et al.  Respiratory health and individual estimated exposure to traffic-related air pollutants in a cohort of young children , 2006, Occupational and Environmental Medicine.

[18]  Charles Ris,et al.  U.S. EPA Health Assessment for Diesel Engine Exhaust: A Review , 2007, Inhalation toxicology.

[19]  Wolfgang Kreyling,et al.  Epidemiological evidence on health effects of ultrafine particles. , 2002, Journal of aerosol medicine : the official journal of the International Society for Aerosols in Medicine.

[20]  Yifang Zhu,et al.  Concentration and Size Distribution of Ultrafine Particles Near a Major Highway , 2002, Journal of the Air & Waste Management Association.

[21]  P. Gallé,et al.  A microanalytic study of particles transport across the alveoli: role of blood platelets. , 1977, Biomedicine / [publiee pour l'A.A.I.C.I.G.].

[22]  Jun Kagawa,et al.  Health effects of diesel exhaust emissions--a mixture of air pollutants of worldwide concern. , 2002, Toxicology.

[23]  C. Seigneur Current Understanding of Ultrafine Particulate Matter Emitted from Mobile Sources , 2009, Journal of the Air & Waste Management Association.

[24]  J Inmon,et al.  Ambient air particles: effects on cellular oxidant radical generation in relation to particulate elemental chemistry. , 1999, Toxicology and applied pharmacology.

[25]  B. Weiss,et al.  Association of particulate air pollution and acute mortality: involvement of ultrafine particles? , 1995, Inhalation toxicology.

[26]  Yifang Zhu,et al.  Comparison of daytime and nighttime concentration profiles and size distributions of ultrafine particles near a major highway. , 2006, Environmental science & technology.

[27]  Simon Kingham,et al.  Mapping Urban Air Pollution Using GIS: A Regression-Based Approach , 1997, Int. J. Geogr. Inf. Sci..

[28]  D. Díaz-Sánchez,et al.  The role of diesel exhaust particles and their associated polyaromatic hydrocarbons in the induction of allergic airway disease. , 1997, Allergy.

[29]  Benoit Nemery,et al.  Ultrafine particles affect experimental thrombosis in an in vivo hamster model. , 2002, American journal of respiratory and critical care medicine.

[30]  Luke Franklin,et al.  Comparison of Water and Butanol Based CPCs for Examining Diesel Combustion Aerosols , 2010 .

[31]  J. Seagrave,et al.  Inhaled diesel emissions alter atherosclerotic plaque composition in ApoE(-/-) mice. , 2010, Toxicology and applied pharmacology.

[32]  Christer Johansson,et al.  The role of ambient temperature for particle number concentrations in a street canyon , 2007 .

[33]  Bert Brunekreef,et al.  Estimating Long-Term Average Particulate Air Pollution Concentrations: Application of Traffic Indicators and Geographic Information Systems , 2003, Epidemiology.

[34]  C. Koshland,et al.  Cellular response to diesel exhaust particles strongly depends on the exposure method. , 2008, Toxicological sciences : an official journal of the Society of Toxicology.

[35]  W. Kreyling,et al.  TRANSLOCATION OF ULTRAFINE INSOLUBLE IRIDIUM PARTICLES FROM LUNG EPITHELIUM TO EXTRAPULMONARY ORGANS IS SIZE DEPENDENT BUT VERY LOW , 2002, Journal of toxicology and environmental health. Part A.

[36]  A. Nel,et al.  In vivo nasal challenge with diesel exhaust particles enhances expression of the CC chemokines rantes, MIP-1alpha, and MCP-3 in humans. , 2000, Clinical immunology.

[37]  Richard L. Verrier,et al.  Association of Air Pollution with Increased Incidence of Ventricular Tachyarrhythmias Recorded by Implanted Cardioverter Defibrillators , 2005, Environmental health perspectives.

[38]  Yifang Zhu,et al.  In-cabin commuter exposure to ultrafine particles on Los Angeles freeways. , 2007, Environmental science & technology.

[39]  J. Seagrave,et al.  The oxidized low-density lipoprotein receptor mediates vascular effects of inhaled vehicle emissions. , 2011, American journal of respiratory and critical care medicine.

[40]  S. Sadhra,et al.  Occupational exposure to diesel exhaust fumes. , 2004, The Annals of occupational hygiene.

[41]  Sara Janhäll,et al.  Size resolved traffic emission factors of submicrometer particles , 2004 .

[42]  Pratim Biswas,et al.  Concentration gradient patterns of aerosol particles near interstate highways in the Greater Cincinnati airshed. , 2003, Journal of environmental monitoring : JEM.

[43]  D. Wake,et al.  Ultrafine Aerosols in the Workplace , 2002 .

[44]  A. Saxon,et al.  Nasal challenge with diesel exhaust particles can induce sensitization to a neoallergen in the human mucosa. , 1999, The Journal of allergy and clinical immunology.

[45]  Robert Gelein,et al.  EXTRAPULMONARY TRANSLOCATION OF ULTRAFINE CARBON PARTICLES FOLLOWING WHOLE-BODY INHALATION EXPOSURE OF RATS , 2002, Journal of toxicology and environmental health. Part A.

[46]  Yifang Zhu,et al.  Measurements of ultrafine particles and other vehicular pollutants inside school buses in South Texas , 2010 .

[47]  Francine Laden,et al.  Lung Cancer and Vehicle Exhaust in Trucking Industry Workers , 2008, Environmental health perspectives.

[48]  Zoran Ristovski,et al.  Ambient nano and ultrafine particles from motor vehicle emissions: Characteristics, ambient processing and implications on human exposure , 2008 .

[49]  P. A. Taylor,et al.  Missing data methods in PCA and PLS: Score calculations with incomplete observations , 1996 .

[50]  R. Barouki,et al.  Involvement of reactive oxygen species in the metabolic pathways triggered by diesel exhaust particles in human airway epithelial cells. , 2003, American journal of physiology. Lung cellular and molecular physiology.