Document Type : Research Paper
Authors
1 PhD Scholar, Department of Environmental Pollution, Tonekabon Branch, Islamic Azad University, Tonekabon, Iran
2 Assist. Professor, Department of Environment, Tonekabon Branch, Islamic Azad University, Tonekabon, Iran
Abstract
The purpose of the present study was to assess the concentration of Cd, As, Cu, and Zn metals in water and sediments of rivers in the west of Mazandaran province, Iran. The number of water and sediment samples was 36 taken from four stations from April 2019 to March 2020 and analyzed with three replicates. Mean values of total environmental factors at the four stations during winter and summer seasons were as T=11.21-16.46 °C, salinity=3.58-6.47 g/l, pH=5.42-5.92, TDS=3.52-6.25 g/l, electrical conductivity=6.27-11.12 µmho/cm, nitrite=0.01-0.03 mg/l, and nitrate=1.37-3 mg/l respectively. The quality of environmental factors was found within the normal range for water quality in Iran for different types of land use: agricultural, industrial, recreational, and hot-and cold-water fish farming. Mean values of total adsorption of cadmium, arsenic, copper, and zinc were 0.25, 0.77, 11.44, and 11.02 mg/l respectively in water samples, and 0.2, 3.83, 20.91, and 59.27 µg/g in sediment samples. The adsorption of all metals was higher at the beginning of the cultivation season compared with the non-cultivation season both in water and sediment samples. Safarood river was the most polluted of all rivers. The concentration of metals was higher than the permissible limit in water, but lower in sediments (except for copper and arsenic) in all four rivers.
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Abrahim, G. (2005). Holocene sediments of Tamaki Estuary: Characterisation and impact of recent human activity on an urban estuary in Auckland, New Zealand [dissertation]. Auckland: University of Auckland.
Ahmad, K., Mehdi, Y., Haque, R. and Mondol, P. (2010). Heavy metal concentrations in some macrobenthic fauna of the Sundarbans mangrove forest, southwest coast of Bangladesh, pp.105-110.
Al-Edresy, M. A. M., Wasel, S. O. and Al-Hagibi, H. A. (2019). Ecological risk assessment of heavy metals in coastal sediments between Al-Haymah and Al-Mokha, South Red Sea, Yemen. Int. J. Hydrol., 3(2),159-173.
Alipoor, V., Rahimibashar, M. R. and Aliov, A.R. (2011). Temporal and spatial variability of macrofauna in a microtidal estuary (Sefid-Rood River Estuary, South of Caspian Sea), Res. J. Fish. Hydrobio., 6, 432-435 [In Persian].
Aller, Y., Woodin, S. A., Aller, R.C. (2001). Organism sediment interactions. University of South Carolina Press. Belle W Baruch Library in Marine Science., 21, 403.
American Public Health Association (APHA). (2005). Standard Methods for Examination of water and wastewater. 21st ed. Washington, DC.
Azimzadeh, B. and Khademi H. (2013). Estimation of Background Concentration of Selected Heavy Metals for Pollution Assessment of Surface Soils of Mazandaran Province, Iran. J. Soil Water (Agri. Sci. Technol.), 27(3), 548-559.
Bagheri, H. and Azimi, A. (2015). The Distribution of heavy metals in surface sediments of Sisangan Coasts-the southern coast of Caspian Sea. J. Oceanogr., 6 (21), 27-36 [In Persian].
Chegini Far, M. B., Mashinchian Moradi, A. and Moghaddasi, B. (2017). Assessment of the heavy metals (cadmium, copper, lead) pollution in the sediments of Amir-Abad port and its relation on diversity and density of benthic foraminifera. Iran. J. Marine Sci. Technol., 20(80): 62-69. [In Persian]
Chen, C. W., Kao, C. M., Chen, C. F. and Dong, C.D. (2007). Distribution and accumulation of heavy metals in the sediments of Kaohsiung Harbor, Taiwan. Chemosphere., 66(8),1431-1440.
Ekpo, F. E., Agu, N. N. and Udoakpan, U. I. (2013). Influence of heavy metals concentration in three common fish, sediment and water collected within quarry environment, akamkpa l.g. Area, cross river state, Nigeria. Europe. J. Toxicol. Scie., 3, 1-11.
Ghaffarzadeh, M. and Sayad Ghobadi, A. (2018). Investigation of accumulation of heavy metals in soft and hard tissues of Barnacle. Case study of ships of Bandar Anzali. General Administration of Ports and Maritime of Guilan Province, 17 [In Persian].
Gu, Y.G., Lin, Q., Wang, X.H., Du, F.Y., Yu, Z.L. and Huang, H.H. (2015). Heavy metal concentrations in wild fishes captured from the South China Sea and associated health risks. Mar. Pollut. Bull., 96, 508e512.
Gurumoorthi, K. and Venkatachalapathy, R. (2016). Spatial and seasonal trend of trace metals and ecological risk assessment along Kanyakumari Coastal Sediments, Southern India. Pollut., 2(3), 269-287.
Hakanson, L. (1980). An ecological risk index for aquatic pollution control. A sedimentological approach. Water Res., 14(8), 975-1001.
Ho, H. H., Swennen, R., Cappuyns, V., Vassilieva, E., Neyens, G., Rajabali, M. and Tran, T. V. (2013). Assessment on pollution by heavy metals and arsenic based on surficial and core sediments in the Cam River Mouth, Haiphong Province, Vietnam. Soil Sediment Contamin. Int. J., 22(4), 415-432,
Iranian Water Quality Standard. (2016). Deputy Minister of Environment and Water Office. 1-14 [In Persian].
ISIRI (Institute of Standards and Industrial Research of Iran). (2006). Water quality – Determination of pond water fish culture for common cold and warm water fishes – Specification. ISIRI 8726., (1): 1-10. [In Persian]
Izanloo, H., Majidi, G., Nazri, SH., Maleki, F., Khazae, M., Tabatabaei Majd, M. S. and Vatan Khah, M. (2016). Survey of nitrate and nitrite concentration in Jiroft groundwater resources in 2009. J. Sabzevar Univ. Med. Sci., 22(6), 1035-1042 [In Persian].
Jiang, M., Zeng, G., Zhang, C., Ma, X., Chen, M. and Zhang, J. (2013). Assessment of heavy metal contamination in the surrounding soils and surface sediments in Xiawangang River, Qingshuitang District. PLOS One., 8(8),71176.
Kamaruzzaman, B.Y. Rina, Z., Akbar John B., and Jalal, K. C. A. (2011). Heavy metal accumulation in commercially important fishes of South West Malaysian Coast. Res. J. Environ. Sci., 5, 595-602.
Karbassi, A. R., Monavari, S. M., Nabi Bidhendi, G. H. R., Nouri, J. and Nematpour, K. (2008). Metal pollution assessment of sediment and water in the Shur River. Environ. Monit. Assess., 147, 107-116.
Keshavarzi, B., Ebrahimi, P. and Moore, F. (2015). A GIS-based approach for detecting pollution sources and bioavailability of metals in coastal and marine sediments of Chabahar Bay, SE Iran. Chemie der Erde- Geochem., 75(2), 185-195.
Liu, L., Wang, L., Yang, Z., Hu, Y. and Ma, M. (2017). Spatial and temporal variations of heavy metals in marine sediments from Liaodong Bay, Bohai Sea in China. Marine. Pollut. Bull., 124(1), 228-33.
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.
Maghsoudi, A., Vanaei, M. and Yazdi, M. (2015). Heavy metal pollution in stream sediments of the Neka River, N Iran. J. Geosci., 24 (95), 167-174 [In Persian].
Mirzaei, M., Riahi-Bakhtiari, A., Salman-Mahini, A. and Gholamalifard, M. (2014). Analysis of the physical and chemical quality of Mazandaran province (Iran) rivers using multivariate statistical methods. J. Mazandaran Univ. Med. Sci., 23(108), 41-52 [In Persian]
MOOPAM (Manual of Oceanographic Observations and Pollutant Analyses Methods). (2010). Regional Organization for the Protection of the Marine Environment. (Fourth Ed) Kuwait
Mortazavi, S., Hatami-Manesh, M. and Joudaki, F. (2019). Evaluation of toxicity and ecological risk assessment of heavy metals in surface sediments of Sezar River, Lorestan Province. Iran. J. Health Environ., 11(4), 487-504. [In Persian]
Muller, G. (1969). Index of geoaccumulation in sediments of the Rhine River. Geoj., 2, 108-118.
Nasrollahzadeh Saravi, H, Najafpour, S., Rezaei, M. and Solaimaniroudi, A. (2014). Temporal and spatial ofheavy metals concentrations (Zn, Cu, Ni, Pb, Cd and Hg) in Iranian coastal waters of the Southern Caspian Sea. J. Marine Bio., 3:6 (1), 1-12 [In Persian].
Pandey, J. and Pandey, U. (2009). Accumulation of heavy metals in dietary vegetables and cultivated soil horizon in organic farming system in relation to atmospheric deposition in a seasonally dry tropical region of India. Environ. Monit. Assess., 148(1-4), 61-74.
Pedersen, F., Bjørnestad, E., Andersen, H.V., Kjølholt, J. and Poll, C. (1998). Characterization of sediments from Copenhagen Harbour by use of biotests. Water Sci. Technol., 37(6-7), 23-40.
Qishlaqi, A. and Rostami, S. (2016). Contamination and fractionation of heavy metals in bedload sediments of the Siahrood River (Qaem-Shararea-Mazandaran Province). J. Stragraph. Sediment. Res., 32(2), 73-90.
Rajeshkumar, S., Li, X. (2018). Bioaccumulation of heavy metals in fish species from the Meiliang Bay, Taihu Lake, China. Toxicol. Report., 5, 288-95.
Sammut, J., Melville, M. D., Callinan, R. B. and Fraser, G.C. (2002). Estuarine acidification: Impacts on aquatic biota of draining acid sulphate soils. Austral. Geogr. Stud., 33, 89-100.
Seyedasri, S. M. and Tavana, A. (2019). Monitoring toxic and nontoxic metals contamination of soil in landfill of Tonekabon in Iran. J. Environ. Sci. Stud., 4(4), 2082-2092.
Shanbehzadeh, Y., Vahid Dastjerdi, Mohsenzadeh, W. and Kianizadeh, I. (2012). Reviewing the municipal waste management in Massjed Soleiman, Iran in connection with environmental health. J. Health Syst. Res., 8(3), 397-406 [In Persian].
Tabari, M. R., Makhlogh, A., Soleimanroudi, A., Ardeshiri, R. R. and Mahdavi, A. (2009). The survey of gravel and sand exploitation effects on bed algae and benthos in Shiroud River. The Second Conference on Agricultural Biotechnology, Horticulture Research Institute and Faculty of Agriculture, Shahid Bahonar University. 222-227 [In Persian].
Veerasingam, S., Raja, P., Venkatachalapathy, R., Mohan, R. and Sutharsan, P. (2010). Distribution of petroleum hydrocarbon concentrations in coastal sediments along Tamil Nadu coast, India. Carpath. J. Earth Environ. Sci., 5, 5–8.
WHO (1980). Technical report series. (Recommended health-based limits in occupational exposure to heavy metals). NO. 649.
Wu, Q.H., Zhou, H.C., Nora, F.Y., Tian, Y., Tan, Y., Zhou, S., Li, Q., Chen, Y. H. and Jonathan, Y. S. (2016) Contamination, toxicity and speciation of heavy metals in an industrialized urban river: implications for the dispersal of heavy metals. Mar. Pollut. Bull., 104(1–2):153–161.
Yari Moghadam, N., Cheraghi, M., Hasani, A. and Javid, A. (2014). The amount of heavy metals (Zn, Cu, Pb and Cd) in Abshineh River, Hamadan, Iran. J. Health Develop., 2(4), 296-304 [In Persian].
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