Determining heavy metal and developing model for concentration in the feathers of house sparrow (Ni, Pb,Cd) in Tehran
الموضوعات :shahrzad khoram nejadian 1 , ana esmaili 2 , saeedreza asemi 3 , bahman Shams-Esfandabad 4
1 - Department of environment,damavand branch,islamic azad university, damavand,iran.
2 - department of environment, damavand branch, islamic azad university, damavand .iran
3 - department of environment,damavand branch, islamic azad unicersity,damavand miran
4 - 2. Department of Environment, Arak Branch, Islamic Azad University, Arak, Iran
الکلمات المفتاحية: Bioaccumulation, Heavy metal, House Sparrow, urban area,
ملخص المقالة :
: Heavy metals cause many problems in living organisms. Using living organism as a bio indicator is a useful way to show environment conditions. In these paper bioaccumulation of heavy metals in house sparrow feather were studied. The house sparrow is distributed in many parts of the world. The house sparrow lives in urban and rural areas. Due to living in residential areas, it is affected by man-made pollutants. The main source of air pollution in Tehran is fuel combustion in car engines. It seems that air pollution somehow accumulates in the body of urban birds. The house sparrow has been selected as a biological indicator in Tehran. Sample point were chosen in north, south, west and east of Tehran. In each area 10 samples were chosen. Amount of heavy metals in feathers measured by ICP. Zoning was done by using GIS According to result amount of nickel is higher than cadmium and lead. The accumulation of heavy metals in the feather tissue depends on the where the bird lives. The highest amount of lead, nickel and cadmium was 2.89, 451 and 25.9 ppb. The lowest amount of lead, nickel and cadmium was 0.88, 11.59 and 0.54 ppb. Result indicates that house sparrow could be used as a bio indicator of heavy metals in urban areas. The curve fitting application in MATLAB is used and shows the relation between heavy metal concentration in soil and concentration in feathers to predict amount of muscle concentration.
Abbasi, S., & Afrous, A. (2023). Potential adverse effects of heavy metals in Ahvaz oil field. Anthropogenic Pollution, (), -. doi: 10.22034/ap.2023.1962491.1132
Abbasi, S., Ali Mohammadian, H., Hosseini, S. M., Khorasani, N., Karbasi, A. A., & Aslani, A. (2017). The Concentration of Heavy Metals in Precipitated Particles on the Leaves of Street Side Trees in the Urban Environments (Tehran– Iran). Anthropogenic Pollution, 1(1), 1-8.
Ajami, F., & Fataei, E. (2015). Determination of Heavy Metals level (lead, cadmium, chrome) in waters of Meshkinshahr River for agricultural use. Advances in Bioresearch, 6(3), 12-15.
Ajami, F., Fataei, E., & Branch, A. (2015). Environmental Effects of Heavy Metals in Determining the Quality of Surface Water for Agricultural Purposes in Meshginshahr. Indian Journal Of Natural Sciences, 5(30), 6887.
Aziz, B., Zubair, M., Irshad, N., Ahmad, K. S., Mahmood, M., Tahir, M. M., Shah, K. H., & Shaheen, A. (2021). Biomonitoring of Toxic Metals in Feathers of Birds from North-Eastern Pakistan. Bulletin of environmental contamination and toxicology, 106(5), 805–811.
Babaei, A. A., Ghanbari, F., & Yengejeh, R. J. (2017). Simultaneous use of iron and copper anodes in photoelectro-Fenton process: concurrent removals of dye and cadmium. Water Science and Technology, 75(7), 1732-1742.
Bayrami, N., Fataei, E., Kharrat Sadeghi, M., & Javanshir Khoei, A. (2020). Evaluation of bioaccumulation of lead metal pollutant in two biotic and abiotic compartments of the Caspian Sea coastal sediments. Journal of Marine Biology, 12(3), 1-14.
Burger J, Gochfeld M, Jeitner C, Snigaroff D, Snigaroff R, Stamm T, Volz C (2008) Assessment of metals in down feathers of female common eiders and their eggs from the Aleutians: arsenic, cadmium, chromium, lead, manganese, mercury, and selenium. Environ Monit Assess 143:247–256.
Burger, J., Veitch, C. R. and Gochfeld, M.: 1994, ‘Locational differences in metal concentrations of feathers of Australasian gannet (Morus serrator) in New Zealand’, Envir. Monit. Assess. 32, 47–57.
Duda-Chodak A, Blaszczyk U (2008) The impact of nickel on human health. J Elementol 13(4):685–696
Esteban M, Castaño A,.(2009). Non-invasive matrices in human biomonitoring: a review Environ. Int. 35, 2, 438 – 449.
Farsani, M. H., Yengejeh, R. J., Mirzahosseini, A. H., Monavari, M., Hassani, A. H., & Mengelizadeh, N. (2022). Effective leachate treatment by a pilot-scale submerged electro-membrane bioreactor. Environmental Science and Pollution Research, 29, 9218–9231.
Fataei, E, Monavari, SM, Hasani, AH Karbasi, AR Mirbagheri SA.(2010) Heavy metal and agricultural toxics monitoring in Garasou river in Iran for water quality assessment.Journal Asian Journal of Chemistry, 22(4):2991-3000
Fatemi F, Khoramnejadian S. Investigation of Cadmium and Arsenic Accumulation in Portunus pelagicus along the Asalouyeh Coast, Iran. J Earth Environ Health Sci 2016;2:34-8
Fazeli, S., Abdollahi, N., Imani Marrani, H., Malekizade, H., & Hosseinzadeh, H. (2019). A new robust adaptive decentralized tube model predictive control of continuous time uncertain nonlinear large-scale systems. Cogent Engineering, 6(1), 1680093.
Gazijahani, F. S., Hosseinzadeh, H., Tagizadeghan, N., & Salehi, J. (2017, 19-20 April 2017). A new point estimate method for stochastic optimal operation of smart distribution systems considering demand response programs. Paper presented at the 2017 Conference on Electrical Power Distribution Networks Conference (EPDC).
Ghomi Avili, F. Removal of Heavy Metals (Lead and Nickel) from Water Sources by Adsorption of Activated Alumina. Anthropogenic Pollution.(2021), 5(2), 1-7.
Gooran Ourimi, H., & Nezhadnaderi, M. (2020). Comparison of the application of Heavy metals adsorption methods from aqueous solutions for development of sustainable environment. Anthropogenic Pollution, 4(2), 15-27.
Hadi Bonab, S., Abazari, R., Bagheri Vakilabad, A., & Hosseinzadeh, H. (2020). Generalized metric spaces endowed with vector-valued metrics and matrix equations by tripled fixed point theorems. Journal of Inequalities and Applications, 2020, 1-16.
Hahn E, Hahn K, Markus Stoeppler M.(1993). Bird feathers as bioindicators in areas of the German environmental specimen bank - bioaccumulation of mercury in food chains and exogenous deposition of atmospheric pollution with lead and cadmium, Science of The Total Environment, 139–140, 259-270.
Hajjabbari, S., & Fataei, E. (2016). Determination cadmium and lead pollution resources of Ardabil Plain underground waters. Open Journal of Ecology, 6(9), 554-561.
Jalilzadeh Yengejeh, R., Sekhavatjou, M., Maktabi, P., Arbab Soleimani, N., Khadivi, S., & Pourjafarian, V. (2014). The Biodegradation of Crude Oil by Bacillus subtilis Isolated from Contaminated Soil in Hot Weather Areas. International Journal of Environmental Research, 8(2), 509-514. doi: 10.22059/ijer.2014.744
Jaspers Veerle L.B. , Adrian Covaci, Dorte Herzke, Igor Eulaers, Marcel Eens.2019. Bird feathers as a biomonitor for environmental pollutants: Prospects and pitfalls, TrAC Trends in Analytical Chemistry, 118, 223-226.
Karimi O, Hesaraki S, Mortazavi S P. The Effect of Cadmium on the Ultrastructure and Metallothionein Levels in the Liver and Kidneys of Japanese quail. IJT 2018; 12 (2) :21-25
Khalili Arjaghi, S., Ebrahimzadeh Rajaei, G., Sajjadi, N., Kashefi Alasl, M., & Fataei, E. (2020). Removal of Mercury and Arsenic Metal Pollutants from Water Using Iron Oxide Nanoparticles Synthesized from Lichen Sinensis Ramalina Extract. Journal of Health, 11(3), 397-408.
Khalili Arjaghi, Sh., Ebrahimzadeh Rajaei, Gh., SAJJADI, N., KASHEFI ALASL, M., & FATAEI, E.. (2020). Removal of Mercury and Arsenic Metal Pollutants fromWater Using Iron Oxide Nanoparticles Synthesized from Lichen Sinensis Ramalina Extract. JOURNAL OF HEALTH AND HYGIENE, 11(3 ), 397-408.
Khayatnezhad, M. & nasehi, F. (2021). Industrial pesticides and a methods assessment for the reduction of associated risks: a Review. Advancements in Life Sciences, 8, 202-210.
Lasat, M.M. 2002. Phytoextraction of toxic metals: A review of biological mechanisms. Journal of Environmental Quality. 31(1): 109-120.
Manta DS, Angelone M, Bellanca A, Neria R, Sprovieria M.2002.Heavy metals in urban soils a case study from city of Palermo (Sicily), Italy. Sci Total Environ..2300(1–3):229–243.
Markowski M, Kalinski A, Skwarska J, Wawrzyniak J, Banbura M, Markowski J, Zielinski P, Banbura J (2013) Avian feathers as bioindicators of the exposure to heavy metal contamination of food. Bull Environ Contam Toxicol 91:302–305
Masoumi, A., & Yengejeh, R. J. (2020). Study of chemical wastes in the Iranian petroleum industry and feasibility of hazardous waste disposal. Journal of Environmental Health Science and Engineering, 18(2), 1037-1044.
Mboua, E. ., Bitondo, D. ., Tabi, F. O. ., & Boukong, A. . (2023). Availability of exchangeable potassium due to cocoa pods husk and coffee wastes amended with urea and impact on some other soil physico-chemical properties in a ferralsol of west Cameroon . Current Research in Agricultural Sciences, 10(1), 22–32. https://doi.org/10.18488/cras.v10i1.3366.
Millaku, Lulzim & Imeri, Resmije & Trebicka, Artan. (2014). House sparrow (Passer domesticus) as bioindicator of heavy metals pollution. European Journal of Experimental Biology. Voume 4. 77-80.
Outridge, P. M. and Scheuhammer. A. M. 2011. Bioaccumulation and toxicology of nickel: implications for wild mammals and birds. Environmental Reviews. 1(2): 172-197.
Raazi Tabari, M. R., Sabzalipour, S., Peyghambarzadeh, S. M., & Jalilzadeh, R. (2020). Vapor Loss of Volatile Organic Compounds (VOCs) from the Shipping Port of Abadan Petroleum Refinery. Pollution, 6(4), 863-878.
Sheybanifar, F., Mortazavi, S., & Mirsanjari, M. M. (2014). The Study of Heavy Metal accumulation (Zn, Cu, Pb and Cd ) in muscle of Great White Heron (Egretta alba) in Hara Biosphere Reserve. Journal of Environmental Studies, 40(4), 929-936.
Tabari, M. R. R., Sabzalipour, S., Peyghambarzadeh, S. M., & Jalilzadeh, R. (2021). Dispersion of volatile organic compounds in the vicinity of petroleum oroducts storage tank. Environmental Engineering & Management Journal (EEMJ), 20(7).
Tamer Albayrak, Asuman Karadeniz Pekgöz(2021), Heavy metal effects on bird morphometry: A case study on the house sparrow Passer domesticus, Chemosphere,276, 130056.
Varagiya, D., Jethva, B. & Pandya, D. Feather heavy metal contamination in various species of waterbirds from Asia: a review. Environ Monit Assess 194, 26 (2022).
Wang, S., Ma, J., Li, W., Khayatnezhad, M. & Rouyendegh, B. D. (2022). An optimal configuration for hybrid SOFC, gas turbine, and Proton Exchange Membrane Electrolyzer using a developed Aquila Optimizer. International Journal of Hydrogen Energy, 47, 8943-8955.
Ya J, Ju Z, H Wang H, Zhao H(2019). Exposure to cadmium induced gut histopathological damages and microbiota alterations of Chinese toad (Bufo gargarizans) larvae, Ecotoxicology and Environmental Safety,180,449-456.