Authors: A. A. K. Abou-Arab, M. A. Abou Donia, Nevin E. Sharaf, Sherif R. Mohamed, A. K. Enab

Abstract:

Lead being a toxic heavy metal that mankind is exposed to the highest levels of this metal from environmental pollutants. A total of 180 Male scalp hair samples were collected from different environments in Greater Cairo (GC), i.e. industrial, heavy traffic and rural areas (60 samples from each) having different activities during the period of, 1/5/2010 to 1/11/2012. Hair samples were collected during five stages. Data proved that the concentration of lead in male industrial areas of Cairo ranged between 6.2847 to 19.0432 μg/g, with mean value of 12.3288 μg/g. On the other hand, lead content of hair samples of residential-traffic areas ranged between 2.8634 to 16.3311 μg/g with mean value of 9.7552 μg/g. While lead concentration on the hair of the male residents living in rural area ranged between 1.0499-9.0402μg/g with mean value of 4.7327 μg/g. The Pb concentration in scalp hair of Cairo residents of residential-traffic and rural traffic areas was observed to follow the same pattern. The pattern was that of decrease concentration of summer and its increase in winter. Then, there was a marked increase in Pb concentration of summer 2012, and this increase was significant. These were obviously seen for the residential-traffic and rural areas residents. Pb pollution in residents of industrial areas showed the same seasonal pattern, but there was marked to decrease in Pb concentration of summer 2012, and this decrease was significant. Lead pollution in residents of GC was serious. It is worth noting that the atmosphere is still contaminated by lead despite a decade of using unleaded gasoline. Strong seasonal variation in higher Pb concentration on winter than in summer was found. Major contributions to the pollution with Pb could include industry emissions, motor vehicle emissions and long transported dust from outside Cairo. More attention should be paid to the reduction of Pb content of the urban aerosol and to the Pb pollution health.

Keywords: Hair, lead, environmental exposure, seasonal variations, Egypt.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1337869

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1635

References:

[1] S. M. Robaa, “Urban –Suburban/rural differences over greater Cairo, Egypt,” Atmosfera, vol. 16, pp.157-171, 2003.
[2] P. Ragan, and T. Turner, "Working to prevent lead poisoning in children: getting the lead out," JAAPA: Official Journal of the American Academy of Physician Assistants, vol. 22, no. 7, pp. 40–45, 2009.
[3] N. Mañay, A.Z. Cousillas, C. Alvarez, and T. Heller, "Lead contamination in Uruguay: the "La Teja" neighborhood case," Reviews of Environmental Contamination and Toxicology, vol.195, pp.93–115, 2008.
[4] C.S.C. Wong, and X.D. Li, “Pb contamination and isotopic composition of urban soils in Hong Kong,” The Science of the Total Environment, vol. 319, pp.185–195, 2004.
[5] T.M. Young, D.A. Heeraman, G. Sirin, .and L.L. Ashbaugh, “Resuspension of soil as a source of airborne lead near industrial facilities and highways,” Environmental Science and Technology, vol. 36, pp. 2484–2490, 2002.
[6] J.M. Pacyna, “Source inventories for atmospheric trace metals,” In: Harrison, R.M., Van Grieken, R. (Eds.), Atmospheric Particles, IUPAC Series on Analytical and Physical Chemistry of Environmental Systems, vol. 5. Wiley, Chichester, UK, pp. 385–423, 1998.
[7] T.L. Guidotti, and L. Ragan, "Protecting children from toxic exposure: three strategies," Pediatric clinics of North America, vol. 54, no.2, pp. 227– 235, 2007.
[8] D. Barltrop, C.D. Strehlow, I. Thornton, and J.S. Webb, "Absorption of lead from dust and soil,” Postgrad Med J., vol. 51, no.601, pp. 801– 804, 1975.
[9] A.D. Woolf, R. Goldman, and D.C. Bellinger, "Update on the clinical management of childhood lead poisoning,” Pediatric Clinics of North America, vol.54, no. 2, pp. 271–294, 2007.
[10] Z. Safar, and M.W. Labib, “Assessment of particulate matter and lead levels in the Greater Cairo area for the period 1998–2007,” J. of Advanced Research, vol.1, pp.53–63, 2010.
[11] N. Sturchio, M. Sultan, M.E. Sharkaway A.E. Maghraby, and A. Taher, “Concentration and isotopic composition of lead in Urban particulate air, Cairo, Egypt: Argonne National Laboratory, Argonne, IL and Centre for Environmental Hazard Mitigation, Cairo, University, Cairo, Egypt, 1996.
[12] E.E.A.A, “Egyptian Environment Affair Agency. Report – 1999 Baseline lead emissions inventory for the Greater Cairo Area; Cairo Air Improvement project (CAIP),” Chemonic International, Inc. USAID/Egypt, Office of Environment USAID Contract No. 263-C-00- 97-00090-00, 2002.
[13] J. Popko, S. Olszewski, K. Hukalowicz, R. Markiewicz, M.H. Borawska, and P. Szeparowicz, “Lead, cadmium, copper, and zinc concentrations in blood and hair of mothers of children with locomotor system malformations,” Polish J. of Environmental Studies, vol.12, no.3, pp. 375-379, 2003.
[14] B.A. Revich, “Lead in hair and urine of children and adults from industrialized areas,” Arch. Environ. Health, vol.49, pp. 59 – 62, 1994.
[15] A. Chatt, and S.A. Katz, “Hair analysis. Applications in the Biomedical and Environmental Sciences,” VCH publishers Inc: New York, pp.1- 134, 1998.
[16] R.D. Beaty, and J.D. Kerber, “Concepts, instrumentation and Techniques in Atomic Absorption Spectrophotometery,” Copyrighted by The Perkin-Elmer, Norwalk, CT, USA, 1993.
[17] G.W. Snedecor, and W.G. Cochran, “Statistical Methods”, 7th Ed. Oxford and IBIT public. Co. New York, 1980.
[18] E. Ali, and M. Nasralla, “Using hair as bioindicator for exposure to heavy metals in the Egyptian environment,” Egyptian J. of Occupational Medicine, vol.14, no. 2, pp. 287-292, 1990.
[19] J. Sen, “Human scalp hair as an indicator of environmental lead pollution and human exposure,” J. Hum. Ecol, vol.7, no.2, pp.133-141, 1996.
[20] D.S. Jamall, and P.V. Allen, “Use of hair as an indicator of environmental lead pollution in women of child bearing age in Karachi, Pakistan and Bangladesh,” Bull. Environ. Contam. Toxicol, vol.44, pp. 350-356, 1990.
[21] A.S. Zakey, M.M Abdel-Wahab, J.B.C. Pettersson, M. J. Gatari, and M. Hallquist, “Seasonal and spatial variation of atmospheric particulate matter in a developing mega city, the Greater Cairo, Egypt,” Atmosphera, vol. 21, no. 2, pp.171-189, 2008.
[22] M. J. Molina, and L. T. Molina, “Megacities and atmospheric pollution,” J. of the Air and Waste Management Association, vol. 54, no. 6, pp. 644–680, 2004.
[23] S.K.M. Hassan, “Metal concentrations and distribution in the household, stairs and entryway dust of some Egyptian homes,” Atmospheric Environment, vol. 54, pp.207-215, 2012.
[24] M.I. Khodeir, S.K. Hassan, and A.A. El-Abssawy, “An Evaluation of Loading Rate of dust, Pb, CD, and NI and metals Mass Concentration in the settled Surface Dust in Domestic Houses and Factors Affecting Them,” Indoor and Built Enviroment, vol.19, no.3, pp.391-399, 2010.
[25] A.S. Zakey, and M. A. Omran, “1st LAS/WMO International Symposium on Sand and Dust Storms,” WMO Programme on Weather prediction Research Report Series Project No. 10, World Meteorological Organization (WMO), Technical Document No. 864, 1997.
[26] D.P. Roy, J.S. Borak, S. Devadiga, D.E. Wolfe, M. Zheng, and J. Descloitres, “The MODIS land product quality assessment approach,” Remote Sensing Environ, vol. 83, pp.62-76, 2002.
[27] Y. Abo el Fetouh, H. El Askary, M .El Raey, M. Allali, W.A. Sprigg, and M. Kafat, “Annual Patterns of Atmospheric Pollutions and Episodes over Cairo Egypt,” Hindawi Publishing Corporation Advances in Meteorology Volume , Article ID 984853, pp.11 – 22, 2013.