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

Abstract:

Lead being a toxic heavy metal that mankind is exposed to the highest levels of this metal. There are different sources of environmental pollution with lead as lead alkyl additives in petrol and manufacturing processes. The contaminated atmosphere in urban and industrial areas by lead in Egypt may lead to the contamination of foods beside the other different sources. The present investigation studied the risk assessment of lead in some Egyptian edible vegetables and fruits collected from different environments in Greater Cairo Governorate, i.e. industrial, heavy traffic and rural areas. A total of 325 leafy and fruity vegetables and fruits samples belonging to 11, 6 and 4 different species, respectively were randomly collected from markets of the three main models. Data indicated the variation of lead levels in different three areas. The highest levels of lead were detected in the samples collected from industrial and traffic areas. However, the lowest levels were found in the rural areas. It could be concluded that determination of lead levels in foods from different localities and environments at regularly is very important.

Keywords: Heavy metals, Lead, Vegetables, Fruits, Environments.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1110529

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1929

References:

[1] F. Beavington, P.A. Cawes, and A. Wakenshaw, “Comparative studies of atmospheric trace elements: improvement in air quality near copper smelters,” Total Environ., vol. 332, pp. 39-49, 2004.
[2] A.G. Fernandes, M.Ternero, and G.F. Barragan, “An approach to characterization of sources of urban air born particles through heavy metal speciation,” Chemosphere, vol.2, pp.123-136, 2000.
[3] M.S. Al-Masri, K. Al-Kharfan, and K. Al-Shamali, “Speciation of Pb, Cu, and Zn determined by sequential extraction for identification of air pollution sources in Syria,” Atmospheric Environment, vol 40, pp.753- 761, 2006.
[4] A. A. Shakour, N.M. El-Taieb, and S.K. Hassan, “Seasonal variation of some heavy metals in total suspended particulate matter in Great Cairo atmosphere,” The 2nd International Conference of Environmental Science and Technology, Egypt, 2006.
[5] P.S. Khillare, S. Balachandaran, and B.R. Meena, “Spatial and temporal variation of heavy metal in atmospheric aerosol of Delhi,” Environmental Monitoring and Assessment, vol. 90, pp. 1-21, 2004.
[6] Soliman and Borai, 2001, Cited by A.A Shakour, N.M. El-Taieb, and S.K. Hassan, “Seasonal variation of some heavy metals in total suspended particulate matter in Great Cairo atmosphere,” The 2nd International Conference of Environmental Science and Technology, Egypt, 2006.
[7] E. E. A. A, “Egyptian Environment Affair Agency,” Environmental Protection Low, no.4, 1994.
[8] WHO, “Lead Environmental Aspects,” Environmental Health Criteria 85, Geneva, 1992.
[9] F. Mapanda, E.N. Mangwayana, J. Nyamangara, and K.E. Giller, “The effect of long-term irrigation using wastewater on heavy contents of soils under vegetables in Harare,” Zimbabwe. Agric. Ecosys. Environ., vol.107, pp. 151-165, 2005.
[10] D. Demirezen, and A. Ahmet, “Heavy metal levels in vegetables in turkey are within safe limits for Cu, Zn, Ni and exceeded for Cd and pb,” J. Food Qual., vol. 29, pp.252-265, 2006.
[11] I. Sawidis, M.K. Chettri, A. Papaionnou, G. Zachariadis, and J. Stratis, “A study of metal distribution from lignite fuels using trees as biological monitors,” Ecolox. Environ. Safe, vol. 48, pp. 27-35, 2001.
[12] R.K. Sharma, M. Agrawal, and I. Marshall, “Heavy metals contamination in vegetables grown in wastewater irrigated areas of Varanasi, India B Environ,” Contam. Tox., vol. 77, pp. 312-318, 2006.
[13] W. Wenzel, and F. Jackwer, “Accumulation of heavy metals in plants grown on mineralized soils of the Austrian Alps,” Environ. Poll., vol.104, pp. 145-155, 1999.
[14] M. A. Abou Donia, “Lead concentrations in different animal's muscles and consumable organs at specific localities in Cairo,” Global Veterinaria, vol. 2, no.5, pp. 280-284, 2008.
[15] A.A.K. Abou-Arab, and M. A. Abou Donia, “Lead content in Egyptian foods and the role of washing and peeling on its levels,” J. Egypt. Soc. Toxicol., vol. 26, pp. 13-21, Jan, 2002.
[16] A.A.K. Abou-Arab, “Heavy metal contents in Egyptian meat and the role of detergent washing on their levels,” Food and Chemical Toxicology, vol.39, pp. 593-599, 2001.
[17] A.A.K. Abou-Arab, and M.A. Abou Donia, “Heavy metals in Egyptian spices and medicinal plants and the effect of processing on their levels,” J. Agric. Food Chem., vol. 48, pp. 2300-2304, 2000.
[18] R. Caggiano, S. Sabia, M. D'Emilio, A. Anastasio, and M. Ragosta, “Metal levels in fodder, milk, dairy products, and tissues sampled in bovine farms of Southern Italy,” Environmental Research, vol.99, pp. 48-57, 2005.
[19] A. Lante, G. Lomolino, M. Cagnin, and P. Spettoli, “Content and characterization of minerals in milk and in crescenza and squacquerone Italian fresh cheese by ICP-OES,” Food Control, vol.17, pp. 229-233 2004.
[20] R.M. Tripathi, R. Raghunath, V.N. Sastry, and T.M. Krishnamoorthy, “Daily intake of heavy metals by infants through milk and milk products,” The Science of the Total Environment, vol. 227, pp. 229-235, 1999.
[21] P.C. Onianwa, I.G. Adetola, C.M.A. Iwegbue, M.F. Ojo, and O.O. Tella, “Trace heavy metals composition of some Nigerian beverages and food drinks,” Food Chemistry, vol. 66, pp. 275-279, 1999.
[22] N.V. Sharaf, A.A. Shakour, N.M. Amer, M.A. Abou-Donia, and N. Khatab, “Evaluation of children's blood lead level in Cairo, Egypt,” American-Eurasian J. Agric. Environ. Sci., vol. 3, no.3, pp. 414-419, 2008.
[23] P.R.M. Correia, E. Oliveira, and P.V. Oliveira, “Simultaneous determination of Cd and Pb in foodstuffs by electrothermal atomic absorption spectrometry,” Analytica Acta, vol. 405, pp. 405-211, 2000.
[24] P.B. Ryan, N. Huet, and D.L. Maclntosh, “Longitudinal investigation of exposure to arsenic, cadmium and lead in drinking water,” Environmental Health Perspectives, vol. 108, pp. 731-735, 2000.
[25] C.H. Pitot, and P.Y. Dragan, “Chemical carcinogenesis. In: Casarett and Doull's Toxicology, 5th Edn.,” International Edition, McGraw Hill, New York, pp: 201-260, 1996.
[26] W. ED. Mertz, “Trace Elements in Human and Animal Nutrition,” Vol. 1 and II, 5th ed. Academic Press, New York, 1986.
[27] R.A. Goyer, “Results of lead research: prenatal exposure and neurological consequences,” Environmental Health Perspectives, vol.104, pp. 1050-1054, 1996.
[28] J.P.F. D'Mello, “Food Safety Contaminants and Toxins,” CABI Publishing, Wallingford, Oxon, UK, Cambridge, MA, 2003.
[29] AOAC, “Association of Official Analytical Chemists, Official Methods of Analysis. Metals and other elements at trace levels in foods,” Published by AOAC International Suite 400 2200 Wilson Boulevard Arlington, Virginia 22201-3301 USA, 2000.
[30] G.W. Snedecor, and W.G. Cochran, “Statistical Methods”, 7th Ed. Oxford and IBIT public. Co. New York, 1980.
[31] K. Chojnacha, A. Chojnacki, H. Gorecka, and H. Gorecki, “Bioavailability of heavy metals from polluted soils to plants,” Sci. Total Environ, vol. 337, no.13, pp. 175-185, 2005.
[32] T. Khairiah, M.K. Zalifah, Y.H. Yin, and A. Aminnah, “The uptake of heavy metals by fruits type vegetables grown in selected agricultural areas,” Pak. J. Biol. Sci., vol. 7, no.8, pp. 1438-1442, 2004.
[33] J.W. Delenberg, and W. VanDried, “Netherlands J. Agriculture Science,” vol.38, pp. 369-379., Cabrera et al., 1994, J. of Association Official Analytical Chemistry International, vol.17, no. 5, pp. 1249- 1252, 1990.
[34] K.P. Singh, D. Mohon, S. Sinha, and R. Dalwani, “Impact assessment of treated untreated wastewater toxicants discharge by sewage treatment plants on health, agricultural and environmental quality in waste water disposal area,” Chemosphere, vol. 55, pp. 227-255, 2004.
[35] M. Farooq, F. Anwar, and U. Rashid, “Appraisal of heavy metal contents in different vegetables grown in the vicinity of an industrial area,” Pak. J. Bot., vol. 40, no. 5, pp. 2099-2106, 2008.
[36] A. Kloke, D.R. Sauerbeck, and H. Vetter, “Changing metal cycles and human health,” Nriagu, J. ed, Springer Veriag Berlin, 113, 1994.
[37] S.M. Dogheim, E.M.M. Ashraf, S.A. Gad Alla, M.A. Khorshid, and S.M. Fahmy, “Pesticides and heavy metals levels in Egyptian leafy vegetables and some aromatic medicinal plants,” Food Additive and Contaminants, vol. 21, no.4, pp.323-330, 2004.
[38] K.M. Soliman, A.A.K. Abou-Arab, A. Badawy, and Khyria Naguib, “Heavy metals contamination levels in Egyptian vegetables and fruits and removed by washing procedure,” Bulletin of the Nutrition Institute, Cairo, Egypt, vol.17, pp.120-146, 1997.
[39] S. Karavoltsos, A. Sakellari, M. Dimopoulos, M. Dasenakis, and M. Scoullos, “Cadmium content in foodstuffs from the Greek market,” Food Addit. Contam., vol.19, no. 10, pp. 954- 962, 2002.
[40] T.E. Bahemuka, and E.B. Mubofu, “Heavy metals in edible green vegetables grown along the sites of the Sinza and Msimbazi rivers in Dar es Salaam, Tanzania,” Food Chem., vol. 66, pp.63-66, 1999.
[41] S. I. Rahlenbeck, A. Burberg, and R. D. Zimmermann, “Lead and cadmium in Ethiopian vegetables,” Bull. Environ. Contam. Toxicol., vol. 62, pp.30-33, 1999.
[42] Z. Parveen, M.I. Khuhro, and N. Rafiq, “Market basket survey for lead, cadmium, copper, chromium, nickel and zinc in fruits and vegetables,” Bull. Environ. Contam. Toxicol., vol. 71, pp. 1260-1264, 2003.
[43] F.S.H. Rizk, and M.I.M. Khoder, “Decreased lead concentration in Cairo atmosphere due to use of unleaded gasoline,” CEJOEM, vol.7, no.1, pp. 53-59, 2001.
[44] S.A. Mansour, M.H. Belal, A.A.K. Abou-Arab, and M.F. Gad, “Monitoring of pesticides and heavy metals in cucumber fruits produced from different farming systems,” Chemosphere, vol. 75, pp.601-609, 2009.
[45] M.A. Radwan, and A.K. Salama, “Market basket survey for some heavy metals in Egyptian fruits and vegetables,” Food and Chemical Toxicology, vol.44, pp. 1273-1278, 2006.
[46] A.A.K. Abou-Arab, and M.A. Abou Donia, “Occurrence of heavy metals in selected spices and medicinal plants in Egypt and their behavior during processing,” J. Agric. Sci. Mansoura Univ., vol. 24, no. 6, pp. 2937-2947, 1999.
[47] EHP, “Environmental Health Project. Lead exposure abatement plan for Egypt. Results of Environmental sampling for lead,” Revised November 1997. Prepared for the USAID Mission to Egypt under EHP Activity No. 256-CC. U.S. Agency for International Development, Washington DC 20523, 1997.
[48] FAO/WHO, “Codex Alimentarius XVII. Report of the joint FAO/WHO Expert Committee on Food,” WHO, Geneva. Arai, 2002, 1989.
[49] M. Muchuweti, J.W. Birkett, E. Chinyanga, R. Zvauya, M.D. Scrimshaw, and J.N. Lester, “Heavy metal content of vegetables irrigated with mixture of waste water and sewage sludge in Zimbabwe: Implications for human health,” Agric. Ecosys. Environ., vol. 112, pp. 41-48, 2006.
[50] K. Fytianos, G. Katsianis, P. Triantafyllou, and G. Zachariadis, “Accumulation of heavy metals in vegetables grown in an industrial area in relation to soil,” B. Environ. Contam. Tox., vol.67, pp. 423-430, 2001.
[51] M.S. Al Jassir, A. Shaker, and M.A. Khaliq, “Deposition of heavy metals on green leafy vegetables sold on roadsides of Riyadh City, Saudi Arabia,” B. Environ. Contam. Tox., vol. 75, pp. 1020-1027, 2005.
[52] EPA, “Air quality criteria for lead. EPA publication 600/8- 83/028 df. Environmental Protection Agency,” Research Triangle Park, NC USA, 1986.
[53] WHO, “Air Quality Guideline for Europe,” WHO Regional Publication,European Series No. 23, Copenhagen, 1987.
[54] WHO, “Lead Environmental Aspects,” Environmental Health Criteria 85, Geneva, 1989.
[55] G. Moriber, “Environmental Science,” Allyn and Bacon, Boston, MA, 1974.
[56] A. Turk, J. Turk, and J. wittes, “Ecología. Contamination Medio Ambiente. Editorial Interamericana,” Mexico, PP. 96-101. Cited by Durando and Aragon, 1982, 1973.
[57] M.M. Nasralla, and E.A. Ali, “Lead accumulation in edible portions of crops grown near Egyptian traffic roads,” Agriculture Ecosystems and Environment, vol.13, no. 1, pp. 73-82, 1985.
[58] M.A. Bosque, M. Schuhmacher, J.L. Domlngo, and J.M.L. Lobet, “Concentrations of lead and cadmium in edible vegetables from Tarragona Province, Spain,” The Science of the Total Environment, vol.95, pp. 61-67, 1990.