Abrahim, G.M.S. (2005). Ph.D. Thesis, “Holonce sediment of Tamaki estuary: Characterization and impact of recent human activity on an urban estuary in Auckland, New Zealand”, University of Auckland, New Zealand, pp. 361.
Andy, H. H., and Khaled, A. (2009). Heavy metals contamination in sediments of the western part of Egyptian Mediterranean Sea: Australian Journal of Basic and Applied Sciences, v. 3, p. 3330-3336.
Angulo, E. (1996). The Tomlinson's pollution load index applied to heavy metal “Mussel-Watch” data: a useful index to assess coastal pollution. Sciences Total Environment, 187(3): 19-56.
Azimi, A., Dadollahi Sohrab, A., Safahieh, A., Zolgharnein, H., Savari, A., Faghiri, A. (2012). Studying the levels of heavy metals mercury, cadmium, lead and copper in the sediments of the northwest of the Persian Gulf - Imam Khomeini Port, Oceanography, 3(11): 33-41.
Bhuyan, M.S., Abu Bakar, M., Akhtar, A., Hossain, M.B., Ali, M.M., Islam, M.S. (2017). Heavy metal contamination in surface water and sediment of the Meghna River, Bangladesh. Environmental Nanotechnology, Monitoring & Management 8 :273–279.
Cabrera, F., Clemente, L., Daz Barreintos, E., Lopez, R., Murillo, J.M. (1999). Heavy metal pollution of soils affected by the Gaudiamar toxic flood. The Science of Total Environment 242, 117-129.
Feng Peng J., Song Y., Yuan P., Cui X. and Qiu G. (2009). The remediation of heavy metals contaminated sediment. Journal of Hazardous Materials, 161, pp. 633-640.
Hakanson, l. (1980). An ecological risk index for aquatic pollution control: a sedimentological approach. Water Res, 14(8): 975-1001.
Hall, J.E. (2002). Bioconcentration, Bioaccumulation, and Biomagnification in Puget Sound Biota: Assessing the Ecological Risk of Chemical Contaminants in Puget Sound. University of Washington Tacoma. 19 p.
Hossain, M. N., Rahaman, A., Hasan, M. J., Uddin, M. M., Khatun, N., & Shamsuddin, S. M. (2021). Comparative seasonal assessment of pollution and health risks associated with heavy metals in water, sediment and Fish of Buriganga and Turag River in Dhaka City, Bangladesh. SN Applied Sciences, 3(4): 1–16.
Idris, A.M., Eltayeb, M.A.H., Potgieter-Vermaak, S.S., Van Grieken, R. and Potgieter, J.H. (2007). Assessment of heavy metals pollution in Sudanese harbors along the Red Sea Coast. Microchem. J, 87(11): 104-112.
Junubi, R. (2004). Contamination of water production resources and prevention techniques. Research Project of Rural Water and Water waste Company of West Azarbayjan Orumiyeh, Iran. pdfistical analyses, Environment Monitoring Assess, 152(1-4): 309-317.
Kar, D., Sur, P., Mandal S.K., Saha, T. and Kole, R.K. (2008). Assessment of heavy metal pollution in surface water. International Journal Environmental Sciences Technology, 5(1): 119-124.
Li, J. L., Zuo, Q. T., Feng, F., Jia, H. T. (2022). Occurrence and ecological risk assessment of heavy metals from Wuliangsuhai Lake, Yellow River Basin, China. Water 14(8):1264
Liang P., Bartzas G. (2021). Editorial overview: Heavy metals and metalloids: a serious threat to environment and human health. Curr Opin Environ Sci Health 23:100287
Mekuria, D. M., Kassegne, A. B., & Asfaw, S. L. (2020). Little Akaki River sediment enrichment with heavy metals, pollution load and potential ecological risks in downstream. Central Ethiopia. Environmental Systems Research, 9, 1-14.
Milačič, R., Zuliani, T., Vidmar, J., Oprčkal, P., & Ščančar, J. (2017). Potentially toxic elements in water and sediments of the Sava River under extreme flow events. Science of the Total Environment, 605, 894-905.
Nkinda, M. S., Rwiza, M. J., Ijumba, J. N., & Njau, K. N. (2021). Heavy metals risk assessment of water and sediments collected from selected river tributaries of the Mara River in Tanzania. Discover Water, 1(1), 3.
Pahlevan, R. (2010). The effect of weathering in the Buyukmelen River basin on the geochemistry of suspended and bed sediments and the hyrogeo chemical characteristics of river water, Duzce, Turkey. Journal of Asian Earth Sciences. 39, 62–75.
Paneer Selvam A., Laxmi Priya S., Banerjee K., Hariharan G., Purvaja R. and Ramesh R. (2011). “Heavy metal assessment using geochemical and statistical tools in the surface sediment of Vembanad Lake, Southwest coast of India”, Environ Monit Assess., 184, 5899-5915.
Rastmanesh, F., Zarasvandi, A., Moslem, F. (2015). Assessment of heavy metal pollution in the surface sediments of the Karun River in Ahvaz city, Advanced Applied Geology, 5(17): 11-22.
Shi, H., Sun, Y., Zhao, X., & Qu, B. (2013). Influence on sorption property of Pb by fractal and site energy distribution about sediment of Yellow River. Procedia Environmental Sciences, 18, 464-471.
Sun, J., Wang, Z., Li, R., Ma, D., & Liu, B. (2011). Simulation of metal contents through correlated optimal monitoring metals of Dagu river sediments. Procedia Environmental Sciences, 8, 161-165.
Tomllinson, D. C. Wilson, J.G. Harris, C. R. and Jeffrey, D. W. (1980). Problems in the assessment of heavy metals levels in estuaries and the formation of pollution index‖ Helgol Meeresunters., 33, pp 566–569.
Vosough, A., Saeedi, M., and Lak, R. (2016). Pollution of granular river sediments with heavy metals, case study: Sefidroud River, Environmental Studies, 41(4): 887-907.
Wang, Q. Q., Duan, W. Y., Yao, X. M., Guo, X. N., Liu, D. Y., Gao, W. M., Zhang, J. D. (2022). Distribution and ecological risk assessment of heavy metals in the sediments of Changli ecological monitoring area, northwest of Bohai Bay, China. Environ Pollut Bioavailab 34(1):180–189.
Zhao, Y. Q., Yang, Y., Dai, R. K., Leszek, S., Wang, X. Y., Xiao, L. Z. (2021). Adsorption and migration of heavy metals between sediments and overlying water in the Xinhe River in central China. Water Sci Technol, 84(5):1257.
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