پیوندهای مفید
اخبار و اعلانات
آمار
| تعداد نشریات | 158 |
| تعداد شمارهها | 6,225 |
| تعداد مقالات | 67,685 |
| تعداد مشاهده مقاله | 114,971,775 |
| تعداد دریافت فایل اصل مقاله | 89,643,142 |
Assessment of Pb and Ni contamination in the topsoil of ring roads' green spaces in the city of Hamadan | ||
| Pollution | ||
| مقاله 4، دوره 4، شماره 1، فروردین 2018، صفحه 43-51 اصل مقاله (635.7 K) | ||
| نوع مقاله: Original Research Paper | ||
| شناسه دیجیتال (DOI): 10.22059/poll.2017.233828.280 | ||
| نویسنده | ||
| Soheil Sobhan Ardakani* | ||
| Department of the Environment, College of Basic Sciences, Hamedan Branch, Islamic Azad University, Hamedan, Iran | ||
| چکیده | ||
| Due to rapid industrialization and urbanization, environmental pollution has become a major concern in developing countries; therefore, the main objective of the current study is to determine heavy metal contents of Pb, and Ni for 42 topsoil samples, collected from 14 green spaces along the 1st and 2nd ring roads in Hamedan City in 2016. For this purpose, after determining some chemical properties as well as acid digestion of soil samples, Pb and Ni concentrations have been found in the soil samples with ICP-OES. All statistical analyses have been conducted, using SPSS 18.0 statistical package, with the results showing that the metal levels in soil samples, collected from green space of 1st and 2nd ring road, have been 34.86±10.28 and 41.57±10.08 mg/kg for Pb and 14.0-20.33 and 14.0-20.0 mg/kgfor Ni, respectively. Also the mean concentration of Pb and Ni have been lower than MPL. According to heavy metal concentration maps, the spatial distribution patterns of Pb, and Ni contents in the soil samples are generally similar along the 1st and 2nd ring road. Due to the fact that traffic volume in the 2nd ring was higher than the 1st one, there has been a significant difference in the mean contents of Pb between the topsoil samples, collected from the 1st and 2nd ring roads; therefore, it is recommended to keep environmental health in order to control the anthropogenic sources, causing the pollutants discharge into the environment is recommended. | ||
| کلیدواژهها | ||
| Green space؛ Heavy metals؛ roadside؛ soil contamination؛ Spatial distribution | ||
| مراجع | ||
|
Adekunle, I.M. and Akinyemi, M.F. (2004). Lead levels of certain consumer products in Nigeria: a case study of smoked fish foods from Abeokuta. Food Chem. Toxicol., 42: 1463-1468. Al-Chalabi, A.S. and Hawker, D. (2000). Distribution of vehicular lead in roadside soils of major roads of Brisbane, Australia. Water Air Soil Pollut., 118: 299-310. Alizamir, M. and Sobhanardakani, S. (2016). Forecasting of heavy metals concentration in groundwater resources of Asadabad Plain using artificial neural network approach. J. Adv. Environ. Health Res., 4(2): 68-77. Al-Shayeb, S.M. and Seaward, M.R.D. (2001). Heavy metal content of roadside soils along ring road in Riyadh (Saudi Arabia). Asian J. Chem., 13(2): 407-423. Aslam, J., Ahmad Khana, S. and Haque Khan, Sh. (2013). Heavy metals contamination in roadside soil near different traffic signals in Dubai, United Arab Emirates. J. Saudi Chem. Soc., 17(3): 315-319. Bakirdere, S. and Yaman, M. (2008). Determination of lead, cadmium and copper in roadside soil and plants in Elazig, Turkey. Environ. Monit. Assess., 136: 401-410. Canadian Council of Ministers of the Environment (CCME) (2007). Canadian Soil Quality Guidelines for the Protection of Environmental and Human Health, Canadian Council of Ministers of the Environment, Winnipeg. Chen, T.B., Zheng, Y.M., Lei, M., Huang, Z.C., Wu, H.T., Chen, H., Fanb, K.K., Yuc, K., Wub, X. and Tianb, Q.Z. (2005). Assessment of heavymetal pollution in surface soils of urban parks in Beijing, China. Chemosphere, 60(4): 542-551. Chow, T.J. (1970). Lead accumulation in roadside soil and grass. Nature, 225: 295-296. Curran-Cournane, F., Lear, G., Schwendenmann, L. and Khin, J. (2015). Heavy metal soil pollution is influenced by the location of green spaces within urban settings. Soil Res., 53: 306-315. Dantu, S. (2010). Geochemical patterns in soils in and around Siddipet, Medak District, Andhra Pradesh, India. Environ. Monit. Assess., 170: 681-701. Das, K.K., Das, S.N. and Dhundasi, S.A. (2008). Nickel, its adverse health effects & oxidative stress. Indian J. Med. Res., 128(4): 412-425. Dong-sheng, G. and Peart, M.R. (2006). Heavy metal concentrations in plants and soils at roadside locations and parks of urban Guangzhou. J. Environ. Sci., 18(3): 495-502. Ezer, M. (2009). Heavy metal content of roadside soil in kahramanmaras, Turkey. Fresen. Environ. Bull., 18(5): 704-708. Fakayode, S.O. and Olu-Owolabi, B.I. (2003). Heavy metal contamination of roadside topsoil in Osogbo, Nigeria: Its relationship to traffic density and proximity to highways. Environ. Geol., 44: 150-157. Farzan, M. and Sobhanardakani, S. (2016). Analysis of metals content (Fe, Pb and Cd) in surface runoff (Case study: Regions with high traffic intensity in Hamedan City) in 2014. J. Health Syst. Res., 12(2): 208-213. Ferguson, C. (1999). Assessing risks from contaminated sites: policy and practice in 16 European countries. Land Contam. Reclam., 7(2): 33-54. García, R. and Millán, E. (1994). Heavy metal contents from road soils in Guipúzcoa (Spain). Sci. Total Environ.,146-147: 157-161. Harrison, R.M., Laxen, D.P.H. and Wilson, S.J. (1981). Chemical association of lead, cadmium, copper, and zinc in street dusts and roadside soils. Environ. Sci. Technol., 15: 1378-1383. Hayzoun, H., Garnier, C., Durrieu, G., Lenoble, V., Bancon-Montigny, C., Ouammou, A. and Mounier, S. (2014). Impact of rapid urbanisation and industrialisation on river sediment metal contamination. Environ. Monit. Assess., 186: 2851-2865. Ho, Y.B. and Tai, K.M. (1998). Elevated levels of lead and other metals in roadside soil and grass and their use to monitor aerial metal depositions in Hong Kong. Environ. Pollut., 49: 37-51. Hursthouse, A., Tognarelli, D., Tucker, P., Ajmone Marsan, F., Martini, C., Madrid, L., Madrid Díaz, F. and Díaz Barrientos, E. (2004). Metal content of surface soils in parks and allotments from three European cities: initial pilot study results. Land Contam. Reclam., 12(3): 189-196. Karbassi, A.R., Bayati, I. and Moattar, F. (2006). Origin and chemical partitioning of heavy metals in riverbed sediments. Int. J. Environ. Sci. Technol., 3(1): 35-42. Karbassi, A.R., Nabi-bidhendi, Gh.R. and Bayati, I. (2005). Environmental geochemistry of heavy metals in a sediment core of Bushehr, Persian Gulf. J. Environ. Health Sci. Eng., 2(4): 255-260. Kelepertsis, A., Alexakis, D. and Kita, I. (2001). Environmental geochemistry of soils and waters of Susaki Area, Korinthos, Greece. Environ. Geochem. Health, 23: 117-135. Kuzmanoski, M.M., Todorović, M.N., Aničić Urošević, M.P. and Rajšić, S.F. (2014). Heavy metal content of soil in urban parks of Belgrade. Hem. Ind., 68(5): 643-651. Lagerwerff, J.V. and Specht, A.W. (1970). Contamination of roadside soil and vegetation with cadmium, nickel, lead, and zinc. Environ. Sci. Technol., 4(7): 583-586. Lee, C.S.L., Li, X., Shi, W., Cheung, S.C.N. and Thornton, I. (2006). Metal contamination in urban, suburban, and country park soils of Hong Kong: a study based on GIS and multivariate statistics. Sci. Total Environ., 356(1): 45-61. Luo, X.S., Ding, J., Xu, B., Wang, Y.J., Li, H.B. and Yu, S. (2012). Incorporating bioaccessibility into human health risk assessments of heavy metals in urban park soils. Sci. Total Environ., 424: 88-96. Lyu, S. and Chen, W. (2016). Soil quality assessment of urban green space under long-term reclaimed water irrigation. Environ. Sci. Pollut. Res., 23(5): 4639-4649. Madrid, L., Diaz-Barrientos, E. and Madrid, F. (2002). Distribution of heavy metal contents of urban soils in parks of Seville. Chemosphere, 49: 1301-1308. Mirzaei, R., Teymourzade, S., Sakizadeh, M. and Ghorbani, H. (2015). Comparative study of heavy metals concentration in topsoil of urban green space and agricultural land uses. Environ. Monit. Assess., 187: 741. Morillo, J., Usero, J. and Gracia, I. (2002). Partitioning of metals in sediments from the Odiel River (Spain). Environ. Int., 28(4): 263-271. Nabulo, G., Oryem-Origa, H. and Diamond, M. (2006). Assessment of lead, cadmium, and zinc contamination of roadside soils, surface films, and vegetables in Kampala City, Uganda. Environ. Res., 101(1): 42-52. Ndiokwere, C.L. (1984). A study of heavy metal pollution from motor vehicle emissions and its effect on roadside soil, vegetation and crops in Nigeria. Environ. Pollut. B., Chem. Phys.,7(1): 35-42. Pagotto, C., Rémy, N., Legret, M. and Le Cloirec, P. (2001). Heavy metal pollution of road dust and roadside soil near a major rural highway. Environ. Technol., 22: 307-319. Piron-Frenet, M., Bureau, F. and Pineau, A. (1994). Lead accumulation in surface roadside soil: its relationship to traffic density and meteorological parameters. Sci. Total Environ., 144(1-3): 297-304. Pouyat, R., Yesilonis, I., Szlavecz, K., Csuzdi, C., Hornung, E., Korsós, Z, Russell-Anelli, J. and Giorgio, V. (2008). Response of forest soil properties to urbanization gradients in three metropolitan areas. Landscape Ecol., 23: 1187-1203. Shah, A., Niaz, A., Ullah, N., Rehman, A., Akhlaq, M., Zakir, M. and Suleman Khan, M. (2013). Comparative study of heavy metals in soil and selected medicinal plants. J. Chem., 2013: 1-5. Shashank, S. and Prasad, F.M. (2010). Accumulation of lead and cadmium in soil and vegetable crops along major highways in Agra (India). E-J. Chem., 7(4): 1174-1183. Şireli, U.T., Göncüoğlu, M., Yıldırım, T., Gücükoğlu, A. and Çakmak, O. (2006). Assessment of heavy metals (cadmium and lead) in vacuum packaged smoked fish species (mackerel, Salmo salar and Oncorhynhus mykiss) marketed in Ankara (Turkey). Ege J. Fish. Aquat. Sci., 23(3-4): 353-356. Sobhanardakani, S. and Jafari, S.M. (2015). Metals analysis in common carp (Cyprinus carpio) from Shirinsu Wetland, Hamedan province, Iran. Arch. Hyg. Sci., 4(4): 172-178. Sobhanardakani, S., Taghavi, L., Shahmoradi, B. and Jahangard, A. (2017). Groundwater quality assessment using the water quality Pollution indices in Toyserkan Plain. Environ. Health Eng. Manage. J.,4(1); 21-27. Sobhanardakani, S., Mohammadi Roozbahani, M., Sorooshnia, R. and Karimi, H. (2016). Assessment of heavy metal contamination in surface soils of Ahvaz IV industrial estate, Khuzestan province, Iran. Iran. J. Health Sci., 4(1): 53-61. Solgi, E. (2016). Contamination of two heavy metals in topsoils of the urban parks Asadabad, Iran 2013. Arch. Hyg. Sci., 5(2): 92-101. Solgi, E. and Konani, R. (2016). Assessment of lead contamination in soils of urban parks of Khorramabad, Iran. Health Scope, 5(4): e36056. Tanee, F.B.G. and Albert, E. (2013). Heavy metals contamination of roadside soils and plants along three major roads in Eleme, Rivers State of Nigeria. J. Biol. Sci., 13(4): 264-270. Vince, T., Szabó, G., Csoma, Z., Sándor, G. and Szabó, S. (2014). The spatial distribution pattern of heavy metal concentrations in urban soils -a study of anthropogenic effects in Berehove, Ukraine. Cent. Eur. J. Geosci., 6(3): 330-343. Ward, N.I. (1990). Lead contamination of the London orbital (M25) motorway (since its opening in 1986). Sci. Total Environ.,93: 277-283. Wheeler, G.L. and Rolfe, G.L. (1979). The relationship between daily traffic volume and the distribution of lead in roadside soil and vegetation. Environ. Pollut., 18(4): 265-274. Xia, X., Chen, X., Liu, R. and Liu, H. (2011). Heavy metals in urban soils with various types of land use in Beijing, China. Hazard. Mater., 186(2): 2043-2050. Yousefi, M., Ehteshami, M. and Sadrnejad, S.A. (2015). Lead contamination and pollution indexes in roadside soil in Tehran, Iran. Iran. J. Health Sci., 3(4): 8-23. | ||
|
آمار تعداد مشاهده مقاله: 947 تعداد دریافت فایل اصل مقاله: 672 |
||