Heavy metals build-up on urban road sediments: Factors of interest for public health. ; Acumulación de metales pesados en sedimentos viales urbanos: factores de interés en salud pública

Item request has been placed!

Item request cannot be made.

Processing Request

Read More Add to Saved list

Author(s): Zafra-Mejía, Carlos; Rondón-Quintana, Hugo; Beltrán-Vargas, Julio
Source:
Revista de la Facultad de Medicina; Vol. 65 Núm. 4 (2017); 655-664 ; Revista de la Facultad de Medicina; Vol. 65 No. 4 (2017); 655-664 ; Revista de la Facultad de Medicina; v. 65 n. 4 (2017); 655-664 ; 2357-3848 ; 0120-0011
Subject Terms:
Heavy Metals; Land Tenure; Public Health; Rain; Vehicular Emissions; Environmental pollution; Agua de lluvia; Metales pesados; Salud pública; Emisiones de Vehículos; Usos del suelo; Contaminación ambiental
Document Type:
article in journal/newspaper
review
Language:
Spanish; Castilian

Additional Information
- Publication Information:
  Universidad Nacional de Colombia - Sede Bogotá - Facultad de Medicina
- Publication Date:
  2017
- Collection:
  Universidad Nacional de Colombia: Portal de Revistas UN
- Abstract:
  Introduction: Rapid urbanization and intense human activity have turned cities into a focus of pollutants emissions, thus generating all sorts of environmental and public health problems involving heavy metals.Objectives: To identify and analyze the physical factors (PF) involved in the accumulation of heavy metals in road sediments to enable decision-making processes directed to control heavy metal pollution from a urban public health perspective.Materials and methods: An international systematic review was conducted in related scientific literature published between January 1, 1970 and December 31, 2015. Springer, ScienceDirect and Google Scholar were the consulted databases. A citation frequency index (Q) was developed to establish an order of relevance of the detected PF, while cluster analysis, Student’s t-test, Pearson’s correlation coefficient and linear regression tests were used to study the correlation between the variables identified. Finally, 79 documents were selected for the construction of the manuscript.Results: The studies cited precipitation (Q1), land use (Q2) and traffic (Q2) as dominant PF. Therefore, a comprehensive view for public health management should consider two scenarios and their corresponding dominant PFs: meteorological (PF: precipitation) and anthropogenic (PF: land use and traffic).Conclusion: A different intervention order is suggested for the institutions in charge of controlling heavy metal pollution and public health management in urban areas. ; Introducción. La rápida urbanización y la intensa actividad humana han hecho de las ciudades un foco de emisiones contaminantes; esta situación genera una variedad de problemas ambientales y de salud pública que involucran metales pesados.Objetivos. Identificar y analizar los factores físicos (FF) que intervienen en la acumulación de metales pesados en sedimentos viales con el fin de facilitar la toma de decisiones en el control de la contaminación metálica desde la salud pública urbana.Materiales y métodos. Se realizó una revisión ...
- File Description:
  application/pdf; text/html; application/xml
- Relation:
  https://revistas.unal.edu.co/index.php/revfacmed/article/view/57690/65144; https://revistas.unal.edu.co/index.php/revfacmed/article/view/57690/65136; https://revistas.unal.edu.co/index.php/revfacmed/article/view/57690/67531; Charlesworth S, De Miguel E, Ordóñez A. A review of the distribution of particulate trace elements in urban terrestrial environments and its application to considerations of risk. Environ Geochem Health. 2011;33(2):103-23. http://doi.org/cwvq82.; Qing X, Yutong Z, Shenggao L. Assessment of heavy metal pollution and human health risk in urban soils of steel industrial city (Anshan), Liaoning, Northeast China. Ecotoxicol Environ Saf. 2015;120:377-85. http://doi.org/b968.; Moreno T, Karanasiou A, Amato F, Lucarelli F, Nava S, Calzolai G, et al. Daily and hourly sourcing of metallic and mineral dust in urban air contaminated by traffic and coal-burning emissions. Atmos Environ. 2013;68:33-44. http://doi.org/b97b.; Liu E, Yan T, Birch G, Zhu Y. Pollution and health risk of potentially toxic metals in urban road dust in Nanjing, a mega-city of China. Sci Total Environ. 2014;476-477:522-31. http://doi.org/b97d.; Stagge JH, Davis AP, Jamil E, Kim H. Performance of grass swales for improving water quality from highway runoff. Water Res. 2012;46(20):6731-42. http://doi.org/f4kxjw.; Wicke D, Cochrane TA, O’Sullivan A. Build-up dynamics of heavy metals deposited on impermeable urban surfaces. J Environ Manage. 2012;113:347-54. http://doi.org/f4ht56.; Amato F, Schaap M, Denier-van der Gon HAC, Pandolfi M, Alastuey A, Keuken M, et al. Short-term variability of mineral dust, metals and carbon emission from road dust resuspension. Atmos Environ. 2013;74:134-40. http://doi.org/f449r6.; Kurt-Karakus PB. Determination of heavy metals in indoor dust from Istanbul, Turkey: Estimation of the health risk. Environ Int. 2012;50:47-55. http://doi.org/f4gs5z.; Dockery D, Pope A. Epidemiology of acute health effects: summary of time series studies. In: Spengler JD, Wilson R, editors. Particles in our air. Concentration and health effects. Cambridge: Harvard University Press; 1996. p. 123-47.; Eriksson E, Baun A, Scholes L, Ledin A, Ahlman S, Revitt M, et al. Selected stormwater priority pollutants: a European perspective. Sci Total Environ. 2007;383(1-3):41-51. http://doi.org/cnxfmz.; Ellis JB, Revitt DM. Incidence of heavy metals in street surface sediments: Solubility and grain size studies. Water Air Soil Pollut. 1982;17(1):87-100.; Sansalone JJ, Buchberger SG. Partitioning and first flush of metals in urban roadway stormwater. J Environ Eng. 1997;123(2):134-43. http://doi.org/brm4vs.; Barrett ME, Irish Jr. LB, Malina Jr. JF, Charbeneau RJ. Characterization of highway runoff in Austin, Texas, area. J Environ Eng. 1998;124(2):131-7.; Wu JS, Allan CJ, Saunders WL, Evett JB. Characterization and pollutant loading estimation for highway runoff. J Environ Eng. 1998;124(7):584-92.; Legret M, Pagotto C. Evaluation of pollutant loadings in the runoff waters from a major rural highway. Sci. Total Environ. 1999;235(1-3):143-50. http://doi.org/dmvds9.; Barbosa AE, Hvitved-Jacobsen T. Highway runoff and potential for removal of heavy metals in an infiltration pond in Portugal. Sci Total Environ. 1999;235(1-3):151-9. http://doi.org/frtfvt.; Drapper D, Tomlinson R, Williams P. Pollutant concentrations in road runoff: Southeast Queensland case study. J Environ Eng. 2000;126(4):313-20.; Pagotto C, Legret M, Le Cloirec P. Comparison of the hydraulic behaviour and the quality of highway runoff water according to the type of pavement. Water Res. 2000;34(18):4446-54. http://doi.org/bjsp38.; Furumai H, Balmer H, Boller M. Dynamic behavior of suspended pollutants and particle size distribution in highway runoff. Water Sci. Technol. 2002;46(11-12):413-8.; Van Bohemen HD, Janssen Van De Laak WH. The influence of road infrastructure and traffic on soil, water, and air quality. Environ Manage. 2003;31(1):50-68. http://doi.org/bpkwjk.; Bäckström M, Nilsson U, Håkansson K, Allard B, Karlsson S. Speciation of heavy metals in road runoff and roadside total deposition. Water Air Soil Pollut. 2003;147(1-4):343-66.; Mangani G, Berloni A, Bellucci F, Tatàno F, Maione M. Evaluation of the pollutant content in road runoff first flush waters. Water Air Soil Pollut. 2005;160(1-4):213-28.; Preciado HF, Li LY. Evaluation of metal loadings and bioavailability in air, water and soil along two highways of British Columbia, Canada. Water Air Soil Pollut. 2006;172(1-4):81-108.; Tuccillo ME. Size fractionation of metals in runoff from residential and highway storm sewers. Sci Total Environ. 2006;355(1-3):288-300. http://doi.org/fmw2d4.; Westerlund C, Viklander M. Particles and associated metals in road runoff during snowmelt and rainfall. Sci Total Environ. 2006;362(1-3):143-56. http://doi.org/b59g75.; Barrett ME, Kearfott P, Malina Jr. JF. Stormwater quality benefits of a porous friction course and its effect on pollutant removal by roadside shoulders. Water Environ Res. 2006;78(11):2177-85.; Göbel P, Dierkes C, Coldewey WG. Storm water runoff concentration matrix for urban areas. J. Contam Hydrol. 2007;91(1-2):26-42. http://doi.org/b47z3m.; Kayhanian M, Suverkropp C, Ruby A, Tsay K. Characterization and prediction of highway runoff constituent event mean concentration. J Environ Manage. 2007;85(2):279-95. http://doi.org/dpgzxv.; Hallberg M, Renman G, Lundbom T. Seasonal variations of ten metals in highway runoff and their partition between dissolved and particulate matter. Water Air Soil Pollut. 2007;181(1-4):183-91. http://doi.org/c3rphk.; Murakami M, Nakajima F, Furumai H. The sorption of heavy metal species by sediments in soakaways receiving urban road runoff. Chemosphere. 2008;70(11):2099-109. http://doi.org/bhmpmf.; Li M, Barrett ME. Relationship between antecedent dry period and highway pollutant: conceptual models of buildup and removal processes. Water Environ. Res. 2008;80(8):740-7. http://doi.org/dpb7xk.; Nie F, Li T, Yao H, Feng M, Zhang G. Characterization of suspended solids and particle-bound heavy metals in a first flush of highway runoff. J Zhejiang Univ Sci A. 2008;9(11):1567-75. http://doi.org/b84dfc.; Gan H, Zhuo M, Li D, Zhou Y. Quality characterization and impact assessment of highway runoff in urban and rural area of Guangzhou, China. Environ Monit Assess. 2008;140(1-3):147-59. http://doi.org/b3742m.; Murakami M, Fujita M, Furumai H, Kasuga I, Kurisu F. Sorption behavior of heavy metal species by soakaway sediment receiving urban road runoff from residential and heavily trafficked areas. J Hazard Mater. 2009;164(2-3):707-12. http://doi.org/fd27g2.; Helmreich B, Hilliges R, Schriewer A, Horn H. Runoff pollutants of a highly trafficked urban road - Correlation analysis and seasonal influences. Chemosphere. 2010;80(9):991-7. http://doi.org/bvvqcz.; Camponelli KM, Lev SM, Snodgrass JW, Landa ER, Casey RE. Chemical fractionation of Cu and Zn in stormwater, roadway dust and stormwater pond sediments. Environ Pollut. 2010;158(6):2143-9. http://doi.org/dv62fg.; Zhao H, Li X, Wang X, Tian D. Grain size distribution of road-deposited sediment and its contribution to heavy metal pollution in urban runoff in Beijing, China. J. Hazard Mater. 2010;183(1-3):203-10. http://doi.org/dx8k6r.; Wei B, Yang L. A review of heavy metal contaminations in urban soils, urban road dusts and agricultural soils from China. Microchem J. 2010;94(2):99-107. http://doi.org/dp8fmc.; Davis B, Birch G. Comparison of heavy metal loads in stormwater runoff from major and minor urban roads using pollutant yield rating curves. Environ Pollut. 2010;158(8):2541-5. http://doi.org/dmw74j.; Tromp K, Lima AT, Barendregt A, Verhoeven JT. Retention of heavy metals and poly-aromatic hydrocarbons from road water in a constructed wetland and the effect of de-icing. J Hazard Mater. 2012;203-204:290-8. http://doi.org/cnn5zj.; Hilliges R, Schriewer A, Helmreich B. A three-stage treatment system for highly polluted urban road runoff. J Environ Manage. 2013;128:306-12. http://doi.org/b98m.; Kumar M, Furumai H, Kurisu F, Kasuga I. Potential mobility of heavy metals through coupled application of sequential extraction and isotopic exchange: Comparison of leaching tests applied to soil and soakaway sediment. Chemosphere. 2013;90(2):796-804. http://doi.org/f4jbkn.; Maniquiz-Redillas M, Kim LH. Fractionation of heavy metals in runoff and discharge of a stormwater management system and its implications for treatment. J Environ Sci. 2014;26(6):1214-22. http://doi.org/b98n.; Jiang W, Sha A, Xiao J, Li Y, Huang Y. Experimental study on filtration effect and mechanism of pavement runoff in permeable asphalt pavement. Constr Build Mater. 2015;100:102-10. http://doi.org/b98z.; Zhao H, Li X. Understanding the relationship between heavy metals in road-deposited sediments and washoff particles in urban stormwater using simulated rainfall. J Hazard Mater. 2013;246-247:267-76. http://doi.org/b982.; Zhang C, Yu ZG, Zeng G, Jiang M, Yang ZZ, Cui F, et al. Effects of sediment geochemical properties on heavy metal bioavailability. Environ Int. 2014;73:270-81. http://doi.org/f6rbzw.; Lau SL, Stenstrom MK. Metals and PAHs adsorbed to street particles. Water Res. 2005;39(17):4083-92. http://doi.org/b2smsx.; Kayhanian M, Fruchtman BD, Gulliver JS, Montanaro C, Ranieri E, Wuertz S. Review of highway runoff characteristics: Comparative analysis and universal implications. Water Res. 2012;46(20):6609-24. http://doi.org/b984.; Sartor JD, Boyd GB, Agardy FJ. Water pollution aspects of street surface contaminants. J Water Pollut Control Fed. 1974;46(3):458-67.; Viklander M. Particle size distribution and metal content in street sediments. J Environ Eng. 1998;124(8):761-6.; Liebens J. Heavy metal contamination of sediments in stormwater management systems: The effect of land use, particle size, and age. Environ Geol. 2002;41(3-4):341-51.; Herngren L, Goonetilleke A, Ayoko GA. Analysis of heavy metals in road-deposited sediments. Anal Chim Acta. 2006;571(2):270-8. http://doi.org/cx66p3.; Zhu W, Bian B, Li L. Heavy metal contamination of road-deposited sediments in a medium size city of China. Environ Monit Assess. 2008;147(1-3):171-81. http://doi.org/dfh84g.; Zhang M, Wang H. Concentrations and chemical forms of potentially toxic metals in road-deposited sediments from different zones of Hangzhou, China. J Environ Sci. 2009;21(5):625-31. http://doi.org/b85k8f.; Christoforidis A, Stamatis N. Heavy metal contamination in street dust and roadside soil along the major national road in Kavala’s region, Greece. Geoderma. 2009;151(3-4):257-63. http://doi.org/fhtpk9.; Bian B, Zhu W. Particle size distribution and pollutants in road-deposited sediments in different areas of Zhenjiang, China. Environ Geoche. Health. 2009;31(4):511-20. http://doi.org/dwbmd4.; Amato F, Pandolfi M, Viana M, Querol X, Alastuey A, Moreno T. Spatial and chemical patterns of PM10 in road dust deposited in urban environment. Atmos Environ. 2009;43(9):1650-9. http://doi.org/csfcsf.; Rijkenberg MJA, Depree CV. Heavy metal stabilization in contaminated road-derived sediments. Sci Total Environ. 2010;408(5):1212-20. http://doi.org/d4mjnq.; Duong TT, Lee BK. Determining contamination level of heavy metals in road dust from busy traffic areas with different characteristics. J Environ Manage. 2011;92(3):554-62. http://doi.org/cv4csz.; Apeagyei E, Bank MS, Spengler JD. Distribution of heavy metals in road dust along an urban-rural gradient in Massachusetts. Atmos. Environ. 2011;45(13):2310-23. http://doi.org/bz5qd6.; Zafra CA, Temprano J, Tejero I. Distribution of the concentration of heavy metals associated with the sediment particles accumulated on road surfaces. Environ Technol. 2011;32(9-10):997-1008. http://doi.org/b6n4wc.; Fujiwara F, Jiménez-Rebagliati R, Dawidowski L, Gómez D, Polla G, Pereyra V, et al. Spatial and chemical patterns of size fractionated road dust collected in a megacitiy. Atmos Environ. 2011;45(8):1497-505. http://doi.org/dqcc55.; Yuen JQ, Olin PH, Lim HS, Benner SG, Sutherland RA, Ziegler AD. Accumulation of potentially toxic elements in road deposited sediments in residential and light industrial neighborhoods of Singapore. J Environ Manage. 2012;101:151-63. http://doi.org/f3xsjz.; Ma J, Singhirunnusorn W. Distribution and Health Risk Assessment of Heavy Metals in Surface Dusts of Maha Sarakham Municipality. Procedia-Social and Behavioral Sciences. 2012;50:280-93. http://doi.org/b99d.; Gunawardana C, Goonetilleke A, Egodawatta P, Dawes L, Kokot S. Source characterisation of road dust based on chemical and mineralogical composition. Chemosphere. 2012;87(2):163-70. http://doi.org/fzrwnm.; Zhang C, Qiao Q, Appel E, Huang B. Discriminating sources of anthropogenic heavy metals in urban street dusts using magnetic and chemical methods. J Geochem Explor. 2012;119-120:60-75. http://doi.org/gbbnsg.; Li H, Qian X, Hu W, Wang Y, Gao H. Chemical speciation and human health risk of trace metals in urban street dusts from a metropolitan city, Nanjing, SE China. Sci. Total Environ. 2013;456-457:212-21. http://doi.org/b99f.; García-Martínez LL, Poleto C. Assessment of diffuse pollution associated with metals in urban sediments using the geoaccumulation index (Igeo). J Soils Sed. 2014;14(7):1251-7.; Bian B, Lin C, Wu HS. Contamination and risk assessment of metals in road-deposited sediments in a medium-sized city of China. Ecotoxicol Environ Saf. 2014;112:87-95.; Kayhanian M, McKenzie ER, Leatherbarrow JE, Young TM. Characteristics of road sediment fractionated particles captured from paved surfaces, surface run-off and detention basins. Sci Total Environ. 2012;439:172-86. http://doi.org/b99h.; Crosby CJ, Fullen MA, Booth CA, Searle DE. A dynamic approach to urban road deposited sediment pollution monitoring (Marylebone Road, London, UK). J Appl Geophys. 2014;105:10-20. http://doi.org/b99h.; Li H, Shi A, Zhang X. Particle size distribution and characteristics of heavy metals in road-deposited sediments from Beijing Olympic Park. J Environ Sci. 2015;32:228-37. http://doi.org/b99j.; Zanders JM. Road sediment: Characterization and implications for the performance of vegetated strips for treating road run-off. Sci Total Environ. 2005;339(1-3):41-7. http://doi.org/cv2p4f.; Grottker M. Runoff quality from a street with medium traffic loading. Sci Total Environ. 1987;59:457-66.; Pérez G, López-Mesas M, Valiente M. Assessment of heavy metals remobilization by fractionation: Comparison of leaching tests applied to roadside sediments. Environ Sci Technol. 2008;42(7):2309-15. http://doi.org/b32bqp.; German J, Svensson G. Metal content and particle size distribution of street sediments and street sweeping waste. Water Sci Technol. 2002;46(6-7):191-8.; Ball JE, Jenks R, Aubourg D. An assessment of the availability of pollutant constituents on road surfaces. Sci Total Environ. 1998;209(2-3):243-54.; Deletic A, Orr DW. Pollution buildup on road surfaces. J Environ Eng. 2005;131(1):49-59.; Carrero JA, Arrizabalaga I, Bustamante J, Goienaga N, Arana G, Madariaga JM. Diagnosing the traffic impact on roadside soils through a multianalytical data analysis of the concentration profiles of traffic-related elements. Sci Total Environ. 2013;458-460:427-34. http://doi.org/b99k.; https://revistas.unal.edu.co/index.php/revfacmed/article/view/57690
- Online Access:
  https://revistas.unal.edu.co/index.php/revfacmed/article/view/57690
- Rights:
  Derechos de autor 2017 Revista de la Facultad de Medicina ; http://creativecommons.org/licenses/by/3.0/
- Accession Number:
  edsbas.C334BAF7

Comments

No Comments.

Heavy metals build-up on urban road sediments: Factors of interest for public health. ; Acumulación de metales pesados en sedimentos viales urbanos: factores de interés en salud pública

Contact

Follow us