References

1. M. Jaishankar, T. Tseten, N. Anbalagan, B.B. Mathew, K.N. Beeregowda, Toxicity, mechanism and health effect of some heavy metals, Interdiscip. Toxicol., 7 (2014) 60–72.
2. F. Soleymani, M.H. Khani, H. Pahlavanzadeh, M. Manteghian, Study of cobalt (II) biosorption on Sargassum sp. by experimental design methodology, Int. J. Environ Sci. Technol., 12 (2015) 1907–1922.
3. M.S. Rodrigues, L.S. Ferreiraa, J.C. Monteiro de Carvalho, A. Lodi, E. Finocchio, A. Converti, Metal biosorption onto dry biomass of Arthrospira (Spirulina) platensis and Chlorella vulgaris: multi-metal systems, J. Hazard. Mater., 246 (2012) 217–218.
4. I. Zinicovscai, L. Cepoi, Cyanobacteria for Bioremediation of Wastewaters, Springer, Switzerland, 2016.
5. N. Thajuddin, G. Subramanian, Cyanobacterial biodiversity and potential applications in biotechnology, Curr. Sci., 89 (2005) 47–57.
6. L. Campanella, G. Crescentini, P. Avino, Chemical composition and nutritional evaluation of some natural and commercial food products based on Spirulina, Analusis, 27 (1999) 533–540.
7. M.V. Frontasyeva, N. Tsibakhashvili, L. Mosulishvili, E.I. Kirkesali, Algae for the Production of Pharmaceuticals, F. Columbus, Ed., Bioprocesses Sciences and Technology, Nuovo Publishers, New York, 2010.
8. S. Melnic, D. Prodius, C. Simmon, L. Zosim, T. Chiriac, V. Bulimaga, V. Rudic, C.Turta, Biotechnological application of homo- and heterotrinuclear iron(III) furoates for cultivation of iron-enriched Spirulina, Inorg. Chim. Acta, 373 (2011) 167–172.
9. L.M. Mosulishvili, E.I. Kirkesali, A.I. Belokobylsky, A.I. Khizanishvili, M.V. Frontasyeva, S.S. Pavlov, S.F. Gundorina, Experimental substantiation of the possibility of developing selenium- and iodine-containing pharmaceuticals based on blue–green algae Spirulina platensis, J. Pharm. Biomed., 30 (2002) 87–97.
10. A. Saeid, K. Chojnacka, M. Korczyński, D. Korniewicz, Z. Dobrzański, Effect on supplementation of Spirulina maxima enriched with Cu on production performance, metabolical and physiological parameters in fattening pigs, J. Appl. Phycol., 25 (2013) 1607–1617.
11. S.G. Vasilieva, A.K. Tambiev, I.M. Sedykh, A.A. Lukyanov, L.N. Bannikh, The enrichment of biomass of cyanobacteria with vanadium using the cation and anion forms of its compounds, J. Trace Elem. Med. Biol., 25 (2011) 109–112.
12. A. Seker, T. Shahwan, A.E. Eroglu, S. Yılmaz, Z. Demirel, M. Conk Dalay, Equilibrium, thermodynamic and kinetic studies for the biosorption of aqueous lead(II), cadmium(II) and nickel(II) ions on Spirulina platensis, J. Hazard. Mater., 154 (2008) 973–980.
13. A.A. Al-Homaidan, H.J. Al-Houri, A.A. Al-Hazzani, G. Elgaaly, N.M.S. Moubayed, Biosorption of copper ions from aqueous solutions by Spirulina platensis biomass, Arab. J. Chem., 7 (2014) 57–62.
14. I. Zinicovscaia, L. Cepoi, T. Chiriac, L. Rudi, O.A. Culicov, M.V. Frontasyeva, S. Pavlov, E. Kirkesali, A. Akshintsev, E. Rodlovskaya, Spirulina platensis as biosorbent of chromium and nickel from wastewaters, Desal. Wat. Treat., 57 (2016) 11103–11110.
15. I. Zinicovscaia, Gh. Duca, V. Rudic, L. Cepoi, T. Chiriac, M.V. Frontasyeva, S.S. Pavlov, S.F. Gundorina, Spirulina platensis as biosorbent of zinc in water, Environ. Eng. Manage. J., 12 (2013) 1079–1084.
16. I. Zinicovscaia, Gh. Duca, L. Cepoi, T. Chiriac, L. Rudi, T. Mitina, M.V. Frontasyeva, S. Pavlov, S.F. Gundorina, Biotechnology of metal removal from industrial wastewater: zinc case study, Clean Soil Air Water, 42 (2015) 112–117.
17. R. Vannela, S.K. Verma, Co²⁺, Cu²⁺ and Zn²⁺ accumulation by cyanobacterium Spirulina platensis, Biotechnol. Prog., 22 (2006) 1282–1293.
18. A. Çelekli, H. Bozkurt, Bio-sorption of cadmium and nickel ions using Spirulina platensis: kinetic and equilibrium studies, Desalination, 275 (2011) 141.
19. L.M. Mosulishvili, A.I. Belokobylsky, E.I. Kirkesali, M.V. Frontasyeva, S.S. Pavlov, N.G. Aksenova, Neutron activation analysis for studying Cr uptake in the blue-green microalga Spirulina platensis, J. Neutron. Res., 15 (2007) 49–54.
20. M. Frontasyeva, Neutron activation analysis for the Life Sciences. A review, PEPAN, 42 (2011) 322–378.
21. V. Rudic, Phycobilitechnology - fundamental research and practical achievements, Elena-VI, Chisinau, Chisinau, 2007 (in Romanian).
22. X. Li, A. Li, M. Long, X. Tian, Equilibrium and kinetic studies of copper biosorption by dead Ceriporia lacerata biomass isolated from the litter of an invasive plant in China, J. Environ. Health Sci. Eng., 13 (2015) 37.
23. P.R. Puranik, K.M. Paknikar, Biosorption of lead and zinc from solutions using Streptoverticillium cinnamoneum waste biomass, J. Biotechnol., 55 (1997) 113–124.
24. B. Kiran, K. Thanasekaran, Copper biosorption on Lyngbya putealis: application of response surface methodology (RSM), Int. Biodeterior. Biodegrad., 65 (2011) 840–845.
25. L. Hong, J.D. Simon, Current understanding of the binding sites, capacity, affinity, and biological significance of metals in melanin, J. Phys. Chem. B, 111 (2007) 7938–7947.
26. M. Gerlach A.X. Trautwein, L. Zecca, M.B.H. Youdim, P. Riederer, Moessbauer spectroscopic studies of purified neuromelanin isolated from the substantia nigra, J. Neurochem., 65 (1995) 923–926.
27. Anonymous, Chemistry of Iron in Natural Water, Geological Survey water-Supply Paper, United States Government Printing Office, 1962.
28. A. Tytłak, P. Oleszczuk, R. Dobrowolski, Sorption and desorption of Cr(VI) ions from water by biochars in different environmental conditions, Environ. Sci. Pollut. Res., 22 (2015) 5985–5994.
29. A.H. Sulaymon, A.A. Mohammed, T.J. Al-Musawi, Competitive biosorption of lead, cadmium, copper, and arsenic ions using algae, Environ. Sci. Pollut. Res., 20 (2013) 3011–3023.
30. A.B. Albadarin, H. Ala’a, N.A. Al-Laqtah, G.M. Walker, S.J. Allen, M.N. Ahmad, Influence of solution chemistry on Cr(VI) reduction and complexation onto date-pits/tea-waste biomaterials, Chem. Eng. J., 169 (2011) 20–30.
31. N. Kuyucak, B. Volesky, Desorption of cobalt-laden algal biosorbent, Biotechnol. Bioeng., 33 (1989) 809–940.
32. Dmytryk, A. Saeid, K. Chojnacka, Biosorption of microelements by spirulina: towards technology of mineral feed supplements, Sci. World J., 2014 (2014) 356–328.
33. E.L. Cochrane, S. Lu, S.W. Gibb, I. Villaescusa, A comparison of low-cost biosorbents and commercial sorbents for the removal of copper from aqueous media, J. Hazard. Mater., 137 (2006) 198–206.