|تعداد مشاهده مقاله||111,648,719|
|تعداد دریافت فایل اصل مقاله||86,267,034|
Evaluation of the status of heavy metal pollution in surface water and sediments of the Nil River (North Eastern Algeria)
|مقاله 11، دوره 3، شماره 2، تیر 2017، صفحه 301-310 اصل مقاله (410.66 K)|
|نوع مقاله: Original Research Paper|
|شناسه دیجیتال (DOI): 10.7508/pj.2017.02. 011|
|Abderrezak Krika* 1؛ Fouad Krika2|
|1Department of Environmental Sciences and Agronomic Sciences, Faculty of Nature Life and Sciences, University of Jijel BP 98 Ouled Aissa, Jijel 18000, Algeria|
|2Department of Process Engineering, Faculty of Technology, University of Laghouat, BP 37G, Laghouat 03000, Algeria|
|Water and sediment samples were collected from six different stations, located along the Nil River between February and June 2015. Concentrations of cadmium, lead, zinc, and copper were determined. The extent of the sediment pollution was assessed, using the multiple pollution indices, namely contamination factor (CF), pollution load index (PLI), and the geoaccumulation index (Igeo). The results showed that the level of metals in water samples exceeded background concentrations for Cd and Pb, and the average values for those elements were higher than those of Zn and Cu, ranked as the following: Pb (0.58)> Zn (0.38)> Cd (0.32)> Cu (0.061). For sedimentary samples, the results showed that Zn and Pb concentrations were greater than the concentrations of Cu and Cd, exceeding the background values (except for Cu). The concentration of the tested heavy metals decreased to the following order: Zn (96.2)> Pb (61.5)> Cu (38.83)> Cd (2.34). The Igeo values revealed that Cd (2.87) and Pb (1.61) had accumulated significantly in the Nil River. Contamination factor (CF) confirmed that the sedimentary samples were moderate to very high in terms of Cd, Pb, and Zn contamination. The Pollution Load Index (PLI) values were above one (>1), indicating an advanced decline of the sediment quality. Also, the results showed that the stations, located at the middle portion of the river (S3, S4, and S5) have higher levels of metals than the other stations (S1, S2, and S6). The assessment of heavy metals' levels in water and sedimentary samples indicated that river water and the sediments in the study area were strongly impacted by agricultural activities and domestic waste water.|
|Algeria؛ Heavy metals؛ Nil River؛ sediments؛ water|
Adaikpoh, E.O., Nwajei, G.E. and Ogala, J.E. (2005). Heavy metals concentrations in coal and sediments from River Ekulu in Enugu, Coal City of Nigeria. J. App. Sci. Environ. Manag., 9(3), 5-8.
Akoto, O., Bruce, T.N. and Darko, G. (2008). Heavy metals pollution profiles in streams serving the Owabi reservoir. African J. Environ. Sci. Tech., 2(11), 354-359.
Akpor, O.B., Ohiobor, G.O. and Olaolu, T.D. (2014). Heavy metal pollutants in wastewater effluents: sources, effects and remediation. Adv. Biosci. Bioeng., 2(4): 37-43.
APHA (1998). Standard methods for examination of water and waste water (20th. Ed.). Washington DC: American Public Health Association.
Bai, J.H., Xiao, R., Zhang, KJ. and Gao, H.F. (2012). Arsenic and heavy metal pollution in wetland soils from tidal freshwater and salt marshes before and after the flow-sediment regulation regime in the Yellow River Delta China. J. Hydrol., 450-451, 244-253.
Bai, J., Cui, B., Chen, B., Zhang, K., Deng, W., Gao, H. and Xiao, R. (2011). Spatial distribution and ecological risk assessment of heavy metals in surface sediments from a typical plateau lake wetland, China. Ecol. Model., 222(2), 301-306.
Bhuiyan, M.A.H., Islam, M.A., Dampare, S.B., Parvez, L. and Suzuki, S. (2010). Evaluation of hazardous metal pollution in irrigation and drinking water systems in the vicinity of a coal mine area of north western Bangladesh. J. Hazard. Mater., 179, 1065-1077.
Boufekane, A. and Saighi, O. (2013). Assessment of groundwater pollution by nitrates using intrinsic vulnerability methods: A case study of the Nil valley groundwater (Jijel, North-East Algeria). Afr. J. Environ. Sci. Technol., 7(10), 949-960.
Bryan, G.W. and Langston, W.J. (1992). Bioavailability, accumulation and effects of heavy metals in sediments with special reference to United Kingdom estuaries: a review. Environ. Pollut., 76, 89-131.
Buccolieri, A., Buccolieri, G., Cardellicchio, N., Atti, A.D., Leo, A.D. and Maci, A. (2006). United States Heavy metals in marine sediments of Taranto Gulf (Ionian Sea, Southern Italy). Mar. Chem., 99, 227-235.
Camusso., M., Vigano, L. and Baitstrini, R. (1995). Bioaccumulation of heavy metals in rainbow trout. Ecotox. Environ. Safe., 31, 133-141.
Du Laing, G., Moortel, A.V.D., Lesage, E., Tack, F.M.G. and Verloo, M.G. (2008). Chapter 11: factors affecting metal accumulation, mobility and availability in intertidal wetlands of the Scheldt Estuary (Belgium). In: Vymazal J (ed) Wastewater treatment, plant dynamics and management. Springer Science ? Business Media B.V, Netherlands, 121-133.
Esmaeilzadeh, M., Karbassi A. and Moattar F. (2016). Assessment of metal pollution in the Anzali Wetland sediments using chemical partitioning method and pollution indices.Acta. Oceanol. Sin., 35(10), 28-36.
Ferati, F., Kerolli-Mustafa, M. and Kraja-Ylli, A. (2015). Assessment of heavy metal contamination in water and sediments of Trepça and Sitnica rivers, Kosovo, using pollution indicators and multivariate cluster analysis. Environ. Monit. Assess., 187: 338 DOI 10.1007/s10661-015-4524-4.
Friberg, U., Norlberg, G.E. and Youk, V.B. (1980). -Handbook ou the toxicology of metals, Elsevier, North Holland, Amsterdam, 2ed, 709p.
Gupta, S.K, Vollmer, M.K. and Krebs, R. (1996). The importance of mobile, mobilisable and pseudo total heavy metal fractions in soil for three-level risk assessment and risk management. Sci. Total. Environ., 178, 11-20.
Hakanson, L. (1980). Ecological risk index for aquatic pollution control, a sedimentological approach. Water. Res., 14(8), 975-1001.
Islam, S.M.D., Bhuiyan, M.A.H., Rume, T. and Mohinuzzaman, M. (2016). Assessing Heavy Metal Contamination in the Bottom Sediments of Shitalakhya River, Bangladesh; Using Pollution Evaluation Indices and Geo-spatial Analysis. Pollution., 2(3), 299-312.
Kansal, A., Siddiqui, N.A. and Gautam, A. (2013). Assessment of heavy metals and their interrelationships with some physicochemical parameters in eco-efficient rivers of Himalayan region. Environ. Monit. Assess., 185, 2553-2563.
Karbassi A., Monavari, S., Bidhendi, G.R.N., Nouri, J. and Nematpour, K. (2008). Metal pollution assessment of sediment and water in the Shur River. Environ. Monit. Assess., 147, 107-16.
Kerolli-Mustafa, M., Fajković, H., Rončević, S. and Ćurković, L. (2015). Assessment of metals risks from different depths of jarosite tailing waste of Trepça Zinc Industry, Kosovo based on BCR procedure. J. Geochem. Explor., 148, 161-168.
Klavins, M., Briede, A., Rodinov, V., Kokorite, I., Parele, E. and Kļaviņa, I. (2000). Heavy metals in rivers of Latvia. Sci. Total. Environ., 262(1-2), 175-183.
Krauskopf, K.B. and Bird, D.K. (1995). Introduction to Geochemistry, 3rd ed., WCB McGraw-Hill, Boston, MA.
Laxen, D.P. and Harrison, R.M. (1983). Physico-chemical speciation of selected metals in the treated effluent of a lead-acid battery manufacturer and in the receiving river. Water. Res., 17(1), 71-80.
MacDonald, D.D., Ingersoll, C.G. and Berger, T.A. (2000). Development and evaluation of consensus-based sediment quality guidelines for freshwater ecosystems. Arch. Environ. Contam. Toxicol., 39, 20-31.
Min, X., Xie, X., Chai, L., Liang, Y., Li, M. and Ke, Y. (2013). Environmental availability and ecological risk assessment of heavy metals in zinc leaching residue. Trans. Nonferrous. Met. Soc. China., 23, 208-218.
Mohiuddin, K.M., Ogawa, Y., Zakir, H.M., Otomo, K. and Shikazono, N. (2011). Heavy metals contamination in water and sediments of an urban river in a developing country. Int. J. Environ. Sci. Technol., 8(4), 723-736.
Müller, G. (1981). Die Schwermetallbelstung der sedimente des Neckars und seiner Nebenflusse: eine Bestandsaufnahme. Chem. Zeitung., 105, 157-164.
Muller, G. (1969). Index of geo-accumulation in the sediments of the Rhine River. Geo-Journal., 2, 108-118.
Namminga, H.N. and Wilhm, J. (1976). Effects of high discharge and an oil refinery cleanup operation bon heavy metals in water and sediments in Skeleton Creek. Proceedings of the Oklahoma Academy of Science., 56, 133-138.
Olivares-Rieumont, S., De la Rosa, D., Lima, L., Graham, D.W., Katia, D., Borroto, J., Martinez, F. and Sánchez, J. (2005). Assessment of heavy metal levels in Almendares River sediments-Havana City, Cuba. Water. Res., 39(16), 3945-3953.
Rahman, M.S., Saha, N. and Molla, A.H. (2014). Potential ecological risk assessment of heavy metal contamination in sediment and water body around Dhaka export processing zone, Bangladesh. Environ. Earth. Sci., 71, 2293-2308.
Ramos, L., Fernández, M.A., González, M.J. and Hernández, L.M. (1999). Heavy Metal Pollution in Water, Sediments, and Earthworms from the Ebro River, Spain. Bull. Environ. Contam. Toxicol., 63, 305-311.
Segura, R., Arancibia, V., Zú˜niga, M. and Pastén, P. (2006). Distribution of copper, zinc,lead and cadmium concentrations in stream sediments from the Mapocho Riverin Santiago, Chile. J. Geochem. Explor., 91, 71-80.
Sekabira, K., OryemOriga, H., Basamba, T., Mutumba, G. and Kakudidi, E. (2010). Assessment of heavy metal pollution in the urban stream sediments and its tributaries. Int. J. Environ. Sci. Technol., 7(3), 435-446.
Singh, K.P., Malik, A., Sinha, S., Singh, V.K. and Murthy, R.C. (2005). Estimation of source of heavy metal contamination in sediments of Gomti River (India) using principal component analysis. Water. Air. Soil. Pollut., 166, 321-341.
Szefer, P., Szefer, K., Glasby, G.P., Pempkowiak, J. and Kaliszan, R. (1996). Heavy metal pollution in surficial sediments from the southern Baltic Sea off Poland. J. Environ. Sci. Health A., 31, 2723-2754.
Tao, Y., Yuan, Z., Wei, M. and Xiaona, H. (2012). Characterization of heavy metals in water and sediments in Taihu Lake, China. Environ. Monit. Assess., 184, 4367-4382.
Tomlinson, D., Wilson, J., Harris, C. and Jeffrey, D. (1980). Problems in the assessment of heavy metal levels in estuaries and the formation of a pollution index. Helgoländer. Meeresun., 33(1-4), 566-575.
Vaezi, A.R., Karbassi, A.R., Kokabi-Habibzadeh, S., Heidari, M., Valikhani Samani, A.R. (2016). Heavy metal contamination and risk assessment in the riverine sediment. Indian. J. Mar. Sci., 45(8), 1017-1023.
Wang, Y., Yang, Z., Shen, Z., Tang, Z., Niu, J. and Gao, F. (2011). Assessment of heavy metals in sediments from a typical catchment of the Yangtze River, China. Environ. Monit. Assess., 172(1-4), 407-417.
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