References

1. H. Saouli, Etude de l’influence de paramètres opératoires sur le rendement de rétention de métaux lourds sur des phosphates de calcium [Study of the Influence of Operating Parameters on the Rétention Efficiency of Heavy Metals on Calcium Phosphate], Mém. de magist., Université mouloud Mammeri Tizi-Ouzou-Algérie, 2008.
2. A. Viala, Eléments de toxicologie [Toxicology Elements], Edit. Tec & Doc Lavoisier et édit. médic. inter., 1998.
3. D. Mohan, C.U. Pittman Jr., P.H. Steele, Single, binary and multicomponent adsorption of copper and cadmium from aqueous solutions on Kraft lignin—a biosorbent, J. Colloid Interface Sci., 297 (2006) 489–504.
4. D. Mohan, K.P. Singh, Single- and multi-component adsorption of cadmium and zinc using activated carbon derived from bagasse—an agricultural waste, Water Res., 36 (2002) 2304–2318.
5. K. Nomiyama, Toxicity of Cadmium—Mechanism and Diagnosis, Proc. of the Inter. Conf. Heal., 1973, pp. 15–23.
6. D. Purves, Trace Element Contamination of the Environment, Elsevier Science, Amsterdam, Oxford, New York, 1977, pp. 170–182.
7. G. Keck, E. Vernus, Déchets et risques pour la santé [Waste and Health Risks], Tech. de l’ing. (G2450), 2000, pp. 1–17.
8. Y. Andrés, C. Brasquet Faur, C. Gérente, P. Cloirec, Elinimation des ions métalliques et des métalloides dans l’eau [Removal of metal ions and metalloids in water], Tech. de l’ing. (W 8000), 2007, pp. 1–14.
9. R. Jocelyn, Calcination des Sédiments de Dragage Contaminés: Etudes des Propriétés Physico-chimiques [Calcination of Contaminated Dredged Sediments: Studies of Physicochemical Properties], Thèse de doctorat, Institut National des Sciences Appliquées de Lyon-France, 2008.
10. S.S. Tahir, R. Naseem, Removal of Cr(III) from tannery wastewater by adsorption onto bentonite clay, Sep. Purif. Technol., 53 (2007) 312–321.
11. A. Mathee, T. Khan, N. Naicker, T. Kootbodien, S. Naidoo, P. Becker, Lead exposure in young school children in South African subsistence fishing communities, 126 (2013) 179–183.
12. J.O. Nriagu, J.M. Pacyna, Quantitative assessment of worldwide contamination of air, water and soils by trace metals, Nature, 333 (1988) 134–139.
13. J. Emmanuel, La production et le traitement des eaux destinées à l’alimentation et à la préparation de denrées alimentaires [The production and treatment of water intended for feeding and for the preparation of foodstuffs], Agence de l’eau Seine-Normandie.
14. Y. Ku, I.-L. Jung, Photocatalytic reduction of Cr(VI) in aqueous solutions by UV irradiation with the presence of titanium dioxide, Water Res., 35 (2001) 135–142.
15. S. Messeaouda, Etude de la capacité de rétention et d’élimination des cations métalliques par des adsorbants naturels [Study of the retention and elimination capacity of metal cations by natural sorbents], Thèse de doctorat, Université de Mustapha Stambouli, Mascara Faculté des Sciences de la Nature et de la Vie Département de Biologie-Algérie, 2015.
16. G. Tchangbeddji, G. Djeteli, K.A. Kili, J.M. Savariault, J.L. Lacout, Chemical and structural characterization of natural phosphate of hahotoe (Togo), Bull. Chem. Soc. Ethiop., 17 (2003) 139–146.
17. M. Koriko, A. Zanguina, G. Tchangbedji, M. El Meray, I. Natatou, M. Hafidi, M. Sarakha, Etude de la dissolution des phosphates de Hahotoé-Kpogamé (Togo) par les acides humiques naturels [Study of the dissolution of rock phosphate of Hahotoé-kpogamé by natural humic acids], J. Soc. Ouest-Afr. Chim., 30 (2010) 41–47.
18. R.-L. Tseng, S.-K. Tseng, Characterization and use of high surface area activated carbons prepared from cane pith for liquid-phase adsorption, J. Hazard. Mater., 136 (2006) 671–680.
19. S. Brunauer, P.H. Emmet, E. Teller, Adsorption of gases in multimolecular layers, J. Am. Chem. Soc., 60 (1938) 309–315.
20. M.A. Ferro-Garcia, J. Rivera-Utrilla, I. Bautista-Toledo, A.C. Moreno-Castilla, Adsorption of humic substances on activated carbon from aqueous solutions and their effect on the removal of Cr(III) ions, Langmuir, 14 (1998) 1880–1886.
21. H. Sontheimer, J.C. Crittenden, R.S. Summers, Activated carbon for water treatment, DVGW Forschungsstells Enger-Bunte Institut, 1988.
22. I. Tchakala, M.L. Bawa, T. Kodom, G. Djaneye-Boundjou, V.K. Doni, P. Nambo, Kinetics of the adsorption of anionic and cationic dyes in aqueous solution by low-cost activated carbons prepared from sea cake and cotton cake, Am. Chem. Sci. J., 4 (2014) 38–57.
23. A.K. Degbe, M. Koriko, S. Tchegueni, E. Aziable, I. Tchakala, M. Hafidi, M. El Meray, G. Tchangbedji, Biosorption of methylene blue solution: Comparative study of the cactus (Opuntia ficus indica) of Lomé (CL) and Marrakech (CM), J. Mater. Environ. Sci., 7 (2016) 4786–4794.
24. N. Filali, R. Mazouz, A. Hamel, Z. Hattab, K. Guerfi, Contribution to the study of the immobilization of lead ions from aqueous solution by adsorption on natural phosphate, Rev. Sci. Technol., 29 (2014) 88–99.
25. S. El Asri, A. Laghzizil, A. Alaoui, A. Saoiabi, R. M’Hamdi, K. El Abbassi, A. Hakam, Structure and thermal behaviors of moroccan phosphate rock (Bengurir), J. Therm. Anal. Calorim., 95 (2009) 15–19.
26. J. Madejová, P. Komadel, Baseline studies of the clay minerals society source clays: infrared methods, Clays Clay Miner., 49 (2001) 10–32.
27. A.A. Flemming, B. Ljerka, Infrared spectra of amorphous and crystalline calcium carbonate, Acta Chem. Scand., 45 (1991) 1018–1024.
28. R.L. Ledoux, J.L. White, Infrared studies of hydrogen bonding interaction between kaolinite surfaces and intercalated potassium acetate, hydrazine, formamide, and urea, J. Colloid Interface Sci., 21 (1966) 127–152.
29. V.C. Farmer, J.D. Russell, The infra-red spectra of layer silicates, Spectrochim. Acta, 20 (1964) 1149–1173.
30. R. Prost, Infrared study of the interactions between the different kinds of water molecules present in sepiolite, Spectrochim. Acta, Part A, 31 (1975) 1497–1499.
31. H. Bachouâ, M. Othmani, Y. Coppel, N. Fatteh, M. Debbabi, B. Badraoui, Structural and thermal investigations of a Tunisian natural phosphate rock, J. Mater. Environ. Sci., 5 (2014) 1152–1159.
32. N. Barka, A. Assabbane, A. Nounah, L. Laanab, Y.A. Ichou, Removal of textile dyes from aqueous solutions by natural phosphate as a new adsorbent, Desalination, 235 (2009) 264–275.
33. N. Barka, L’élimination des colorants de synthèse par adsorption sur un phosphate naturel et par dégradation photocatalytique sur TiO₂ supporté [Removal of synthetic dyes by adsorption on a rock phosphate and by photocatalytic degradation on supported TiO₂], Thèse de Doctorat, Université Ibn Zohr-Maroc, 2008.
34. G.F. Malash, M.I. El-Khaiary, Methylene blue adsorption by the waste of Abu-Tartour phosphate rock, J. Colloid Interface Sci., 348 (2010) 537–545.
35. L.C.A. Koffi, K. Adouby, E.N. Wandan, B. Yao, K.P. Kotchi, Sorption and desorption of Pb(II) from aqueous solution using Triplochiton scleroxylon sawdust as sorbent, J. Appl. Sci., 10 (2010) 1536–1544.
36. F. Naima, Utilisation des composes naturels (phosphate) dans les procedes de depollution des eaux contaminees par les metaux lourds [Use of natural compounds (phosphate) in processes for the depollution of water contaminated by heavy metals], Thèse de Doctorat, Universite Badji Mokhtar–Annaba (Algérie), 2015.
37. E. Keleş, A. Kadir Özer, S. Yörük, Removal of Pb²⁺ from aqueous solutions by rock phosphate (low-grade), Desalination, 253 (2010) 124–128.
38. H. Bachoua, H. Nasri, M. Debbabi, B. Badraoui, Using Tunisian phosphate rock and her converted hydroxyapatite for lead removal from aqueous solution, J. Eng. Res. Appl., 4 (2014) 171–178.
39. S. El Asri, Nouveaux matériaux de structure apatite préparés à partir du phosphate naturel marocain à applications environnementales [New Apatite Structural Materials Prepared from Moroccan Rock Phosphate for Environmental Applications], Thèse de Doctorat, Université Mohammed V – Agdal-Maroc, 2009.
40. C.H. Giles, D. Smith, A. Huitson, A general treatment and classification of the solute adsorption isotherm. I. Theoretical, J. Colloid Interface Sci., 47 (1974) 755–765.
41. K.M.A. Kifuani, V.P. Noki, D.P.J. Ndelo, Adsorption de la quinine bichlorhydrate sur un charbon actif peu coûteux à base de bagasse de canne à sucre imprégnée de l’acide phosphorique [Adsorption of quinine hydrochloride on an inexpensive activated carbon based on sugar cane bagasse impregnated with phosphoric acid], Int. J. Biol. Chem. Sci., 6 (2012) 1337–1359.
42. M. Mouflih, A. Aklil, N. Jahroud, M. Gourai, S. Sebti, Removal of lead from aqueous solutions by natural phosphate, Hydrometallurgy, 81 (2006) 219–225.
43. Z. Elouear, J. Bouzid, N. Boujelben, M. Feki, F. Jamoussi, A. Montiel, Heavy metal removal from aqueous solutions by activated phosphate rock, J. Hazard. Mater., 156 (2008) 412–420.