Alidoust, D., Kawahigashi, M., Yoshizawa, S., Sumida, H. & Watanabe, M., 2015, "Mechanism of cadmium biosorption from aqueous solutions using calcined oyster shells", Journal of Environmental Management,150. 103-110.
Barka, N., Qourzal, S., Assabbane, A., Nounah, A. & Yhya, A. I., 2008, "Adsorption of disperse blue SBL dye by synthesized poorly crystalline hydroxyapatite", Journal of Environmental Sciences, 20(10), 1268-1272.
Bayramoğlu, G. & Arica, M. Y., 2007, "Kinetics of mercury ions removal from synthetic aqueous solutions using by novel magnetic p (GMA-MMA-EGDMA) beads", Journal of Hazardous Materials,144(1), 449-457.
Cheng, Q., Huang, Q., Khan, S., Liu, Y., Liao, Z., Li, G., et al., 2016, "Adsorption of Cd by peanut husks and peanut husk biochar from aqueous solutions", Journal of Ecological Engineering,87, 240-245.
Divband, L., 2010, "The use of nanotechnology to reduce the water salts", MSc Thesis, Shahid Chamran Universityof Ahvaz, Iran. (In Persian)
Ezzeddine, Z., Batonneau-Gener, I., Pouilloux, Y., Hamad, H., Saad, Z. & Kazpard, V., 2015, "Divalent heavy metals adsorption onto different types of EDTA-modified mesoporous materials: Effectiveness and complexation rate", Journal of Microporous and Mesoporous Materials, 212, 125-136.
Farasati, M., Haghighi, S. & Boroun, S., 2016, "Cd removal from aqueous solution using agricultural wastes", Journal of Desalination and Water Treatment, 57(24), 11162-11172.
Freundlich, H. M. F., 1906, "Over the adsorption in solution", Phys. Chem., 57(385471), 1100-1107.
Guler, U. A. & Sarioglu, M., 2013, "Single and binary biosorption of Cu (II), Ni (II) and methylene blue by raw and pretreated Spirogyra sp. Equilibrium and kinetic modeling", Journal of Environmental Chemical Engineering, 1(3), 369-377.
Hegazi, H. A., 2013, "Removal of heavy metals from wastewater using agricultural and industrial wastes as adsorbents", Journal of HBRC, 9(3), 276-282.
Ho, Y. S., McKay, G., Wase, D. A. J. & Forster, C. F., 2000, "Study of the sorption of divalent metal ions on to peat", Journal of Adsorption Science & Technology, 18(7), 639-650.
Iqbal, M. & Bhatti, I. A., 2014, "Re-utilization option of industrial wastewater treated by advanced oxidation process", Journal of Pakistan Journal of Agriculture Sciences,51(4), 1141-1147.
Kyzas, G. Z. & Kostoglou, M., 2014, "Green adsorbents for wastewaters: A critical review", Journal of Materials, 7(1), 333-364.
Lagergren, S., 1898, "About the theory of so-called adsorption of soluble substances, Journal of Kungliga Svenska Vetenskapsakademiens Handlingar,24, 1-39. (In German)
Langmuir, I., 1918, "The adsorption of gases on plane surfaces of glass, mica and platinum", Journal of the American Chemical Society, 40(9), 1361-1403.
Machida, M., Fotoohi, B., Amamo, Y. & Mercier, L., 2012, "Cadmium (II) and lead (II) adsorption onto hetero-atom functional mesoporous silica and activated carbon", Journal of Applied Surface Science,258(19), 7389-7394.
Malekian, R., Abedi-Koupai, J., Eslamian, S. S., Mousavi, S. F., Abbaspour, K. C. & Afyuni, M., 2011, "Ion-exchange process for ammonium removal and release using natural Iranian zeolite", Journal of Applied Clay Science,51(3), 323-329.
Mohammadi, P., 2014, "An overview of the standards and experience of using wastewater for irrigation", Iranian National Committee on Irrigation and Drainage, Tehran, Iran, 20-21. (In Persian).
Nowack, B., 2008, "Pollution prevention and treatment using nanotechnology", Journal of Nanotechnology, 2,
1-15.
Shaheen, S. M., Eissa, F. I., Ghanem, K. M., El-Din, H. M. G. & Anany, F. S. A., 2015, "Metal ion removal from wastewaters by sorption on activated carbon, cement kiln dust, and sawdust", Journal of Water Environment Research, 87(6), 506-515.
Sheeba Thavamani, S. & Rajkumar, R., 2013, "Removal of Cr (VI), Cu (II), Pb (II) and Ni (II) from aqueous solutions by adsorption on alumina", Research Journal of Chemical Sciences,3(8), 44-48.
Singha, A. S. & Guleria, A., 2015, "Utility of chemically modified agricultural waste okra biomass for removal of toxic heavy metal ions from aqueous solution", Journal of Engineering in Agriculture, Environment and Food,8(1), 52-60.
Smolyakov, B. S., Sagidullin, A. K., Bychkov, A. L., Lomovsky, I. O. & Lomovsky, O. I., 2015, "Humic-modified natural and synthetic carbon adsorbents for the removal of Cd (II) from aqueous solutions", Journal of Environmental Chemical Engineering, 3(3), 1939-1946.
Temkin, M. J. & Pyzhev, V., 1940, "Recent modifications to Langmuir isotherms", Journal of Acta Physiochin, 12, 217-222.
U.S. Environmental Protection Agency Office, 2007, Pollution prevention through nano technology, USEPA.
Unuabonah, E. I., Adebowale, K. O., Olu-Owolabi, B. I., Yang, L. Z., & Kong, L., 2008, "Adsorption of Pb (II) and Cd (II) from aqueous solutions onto sodium tetraborate-modified Kaolinite clay: Equilibrium and thermodynamic studies", Journal of Hydrometollrgy, 93(1), 1-9.
WHO., 1989, Health guidelines for the use of wastwater in agriculture, Technical Report No. 778. WHO, Geneva 74 P.
Wu, P., Li, C., Chen, J., Zheng, C. & Hou, X., 2012, "Determination of cadmium in biological samples: An update from 2006 to 2011", Journal of Applied Spectroscopy Reviews, 47(5), 327-370.
Yang, G., Tang, L., Lei, X., Zeng, G., Cai, Y., Wei, X. et al., 2014, "Cd (II) removal from aqueous solution by adsorption on α-ketoglutaric acid-modified magnetic chitosan", Journal of Applied Surface Science, 292, 710-716.
Zhao, M., Zhang, C., Zeng, G., Cheng, M. & Liu, Y., 2016, "A combined biological removal of Cd2+ from aqueous solutions using Phanerochaete chrysosporium and rice straw", Journal of Ecotoxicology and Environmental Safety,130, 87-92