References

1. D. Seema, Bioremediation of heavy metal by algae: current and future perspective, J. Adv. Lab. Res. Biol., 3 (2012) 195–199.
2. H.H. Abdel Ghafar, M.A. Embaby, E.K. Radwan, A.M. Abdel- Aty, Biosorptive removal of basic dye methylene blue using raw and CaCl₂ treated biomass of green microalga Scenedesmus obliquus, Desal. Water Treat., 81 (2017) 274–281.
3. M. Gałczyńska, M. Buśko, Stan zbiorników wodnychw Polsce oraz potencjalne i stosowane metody ich ochrony I rekultywacji [State of water reservoirs in Poland and potential and used methods of their protection and recultivation], Wiadomości Melioracyjne Łąkarskie, 3 (2016) 129–135.
4. A.S. Piranti, D.N. Wibowo, The use of phytoplankton communities for assessment of water quality in the Wadaslintang Reservoir in Indonesia, J. Water Land Dev., 46 (2020) 170–178.
5. N. Ouali, B.E. Belabed, F. Zeghdoudi, M. Rachedi, Assessment of metallic contamination in sediment and mullet fish (Mugil cephalus Linnaeus, 1758) tissues from the East Algerian coast, J. Water Land Dev., 38 (2018) 115–126.
6. K.A. Tan, J. Lalung, N. Morad, N. Ismail, W.M. Wan Omar, M. Ali Khan, M. Sillanpää, M. Rafatullah, Post-treatment of palm oil mill effluent using immobilised green microalgae Chlorococcum oleofaciens, Sustainability, 13 (2021) 11562, doi: 10.3390/su132111562.
7. C.F.Z. Lacson, M.-C. Lu, Y.-H. Huang, Fluoride-rich wastewater treatment by ballast-assisted precipitation with the selection of precipitants and discarded or recovered materials as ballast, J. Environ. Chem. Eng., 9 (2021) 105713, doi: 10.1016/j.jece.2021.105713.
8. N.H. Omer, Water Quality Parameters, K. Summers, Ed., Water Quality, IntechOpen, 2022, pp. 1–18.
9. P.G. Hiremath, T. Theodore, Modelling of fluoride sorption from aqueous solution using green algae impregnated with zirconium by response surface methodology, Adsorpt. Sci. Technol., 35 (2017) 194–217.
10. S.F. Mohsenpour, S. Hennige, N. Willoughby, A. Adeloye, T. Gutierrez, Integrating micro-algae into wastewater treatment: a review, Sci. Total Environ., 752 (2021) 142168, doi: 10.1016/j.scitotenv.2020.142168.
11. F. Almomani, S. Judd, R.R. Bhosale, M. Shurair, K. Aljaml, M. Khraisheh, Intergraded wastewater treatment and carbon bio-fixation from flue gases using Spirulina platensis and mixed algal culture, Process Saf. Environ. Prot., 124 (2019) 240–250.
12. V.V. Redkina, R.R. Shalygina, M.V. Korneykova, Microfungi, algae and cyanobacteria in soils polluted with fluorine (Kola Peninsula, Russia), Czech Polar Rep., 10 (2020) 94–109.
13. G.Z. Kyzas, K.A. Matis, Wastewater treatment processes: part I, Processes, 8 (2020) 334, doi:10.3390/pr8030334.
14. M. Gałczyńska, N. Mańkowska, J. Milke, M. Buśko, Possibilities and limitations of using Lemna minor, Hydrocharis morsusranae and Ceratophyllum demersum in removing metals with contaminated water, J. Water Land Dev., 40 (2019) 161–173.
15. H. Obarska-Pempkowiak, K. Kołecka, K. Buchholtz, M. Gajewska, Ekoinżynieria w zintegrowanym odwadnianiu i stabilizacji osadów ściekowych w systemach trzcinowych [Ecoengineering of integrated dewatering and stabilization of sewage sludge in reed systems], Przemysl. Chem., 94 (2015) 2299–2303.
16. K. Skrzypiec, M.H. Gajewska, The use of constructed wetlands for the treatment of industrial wastewater,
    J. Water Land Dev., 34 (2017) 233–240.
17. M. Urbanska, G. Kłosowski, Algae as biosorption material— removing and recycling of heavy metals from industrial wastewater, Environ. Prot. Nat. Resour., 51 (2012) 62–77.
18. A. Rahman, S. Agrawal, T. Nawaz, S. Pan, T. Selvaratnam, A review of algae-based produced water treatment for biomass and biofuel production, Water, 12 (2020) 2351, doi: 10.3390/w12092351.
19. A. Rahman, S. Kumar, A. Bafana, J. Lin, S.A. Dahoumane, C. Jeffryes, A mechanistic view of the light-induced synthesis of silver nanoparticles using extracellular polymeric substances of Chlamydomonas reinhardtii, Molecules, 24 (2019) 3506, doi: 10.3390/molecules24193506.
20. M.R. Krejci, L. Finney, S. Vogt, D. Joester, Selective sequestration of strontium in desmid green algae by biogenic co-precipitation with barite, ChemSusChem, 4 (2011) 470–473.
21. A. Rahman, J. Lin, F.E. Jaramillo, D.A. Bazylinski, C. Jeffryes, S.A. Dahoumane, In vivo biosynthesis of inorganic nanomaterials using eukaryotes - a review, Molecules, 25 (2020) 3246, doi: 10.3390/molecules25143246.
22. B. Sundaramoorthy, K. Thiagarajan, M. Shalini, M. Gopalakrishnan, M.A. Rashith Muhammad, C. Rajasekaran, Sorption sites of microalgae possess metal binding ability towards Cr(VI) from tannery effluents—a kinetic and characterization study, Desal. Water Treat., 57 (2016) 14518–14529.
23. T. Sivakumar, P. Senthil Kumar, Treatment of municipal wastewater using Scenedesmus abundans and studies on saccharification of grown biomass using ultrasound assistance, Desal. Water Treat., 89 (2017) 94–100.
24. T. Selvaratnam, A. Pegallapati, F. Montelya, G. Rodriguez, N. Nirmalakhandan, P.J. Lammers, W. van Voorhies, Feasibility of algal systems for sustainable wastewater treatment, Renewable Energy, 82 (2015) 71–76.
25. P.J. Lammers, M. Huesemann, W. Boeing, D.B. Anderson, R.G. Arnold, X. Bai, M. Bhole, Y. Brhanavan, L. Brown, J. Brown, J.K. Brown, S. Chisholm, C.M. Downes, S. Fulbright, Y. Ge, J.E. Holladay, B. Ketheesan, A. Khopkar,
    A. Koushik, P. Laur, B.L. Marrone, J.B. Mott, N. Nirmalakhandan, K.L. Ogden, R.L. Parsons, J. Polle, R.D. Ryan, T. Samocha, R.T. Sayre, M. Seger, T. Selvaratnam, R. Sui, A. Thomasson, A. Unc, W.V. Voorhies, P. Waller, Y. Yao, J.A. Olivares, Review of the cultivation program within the National Alliance for Advanced Biofuels and Bioproducts, Algal Res., 22 (2017) 166–186.
26. S. Qiu, S. Ge, P. Champagne, R.M. Robertson, Potential of Ulva lactuca for municipal wastewater bioremediation and fly food, Desal. Water Treat., 91 (2017) 23–30.
27. S. Devi, A. Murugappan, R. Rajesh Kannan, Textile dye wastewater treatment using freshwater algae in packed-bed reactor: modeling, Desal. Water Treat., 57 (2016) 17995–18002.
28. H. Khatoona, S. Banerjee, M.S. Syahiran, N.B. Mat Noordin, A.M. Ambok Bolong, A. Endut, Re-use of aquaculture wastewater in cultivating microalgae as live feed for aquaculture organisms, Desal. Water Treat., 57 (2016) 29295–29302.
29. K. Duangjan, B. Kumsiri, C. Pumas, Lipid production by microalga Scenedesmus sp. AARL G022 in the cultivation with effluent from chicken manure biogas plant, Desal. Water Treat., 57 (2016) 27191–27198.
30. M. Lagnika, M. Ibikounle, J.C. Montcho, V.D. Wotto, N.G. Sakiti, Caractéristiques physico-chimiques de l’eau des puits dans la commune de Pobè (Bénin, Afrique de l’ouest), J. Appl. Biosci., 79 (2014) 6887–6897.
31. A. Piwowar, J. Harasym, The importance and prospects of the use of algae in agribusiness, Sustainability, 12 (2020) 5669, doi: 10.3390/su12145669.
32. S.-W. Jo, J.-M. Do, H. Na, J.W. Hong, I.-S. Kim, H.-S. Yoon, Assessment of biomass potentials of microalgal communities in open pond raceways using mass cultivation, Peer J., 8 (2020) 1–30.
33. A. Jebali, F.G. Acién, N. Jiménez-Ruiz, C. Gómez, J.M. Fernández-Sevilla, N. Mhiri, F. Karray, S. Sayadi,
    E. Molina-Grima, Evaluation of native microalgae from Tunisia using the pulse-amplitude-modulation measurement of chlorophyll fluorescence and a performance study in semi-continuous mode for biofuel production, Biotechnol. Biofuels, 12 (2019) 119, doi: 10.1186/s13068-019-1461-4.
34. S. Ruma Arora, K. Sudhakar, R.S. Rana, Spirulina – from growth to nutritional product: a review, Trends Food Sci. Technol., 69 (2017) 157–171.
35. S. Dolatabadi, A.H. Seyyed, Wastewater treatment using Spirulina platensis, J. Chem. Biol. Phys. Sci. (JCBPS), 6 (2016) 1239–1246.
36. S. Zighmi, M.B. Goudjil, S.E. Bencheikh, S. Ladjel, D. Zerrouki, Contribution to the improvement of production techniques of algal biomass and operating renewable biofuel, Energy Procedia, 50 (2014) 574–580.
37. S. Zighmi, S. Ladjel, M.B. Goudjil, S.E. Bencheikh, Renewable energy from the seaweed Chlorella Pyrenoidosa cultivated in developed systems, Int. J. Renewable Energy Res. – IJRER, 7 (2017) 49–57.
38. S. Zighmi, S. Ladjel, M.B. Goudjil, S.E. Bencheikh, S. Saggai, Contribution to the study of water treatment by algue Chlorella pyrenoidosa, Saf. Sustainable Nat. Resour., 1 (2017) 8–14.
39. F. Matufi, A. Choopani, Spirulina, food of past, present and future, Health Biotechnol. Biopharma (HBB), 3 (2020) 1–20.
40. T. Ould Bellahcen, A. Bouchabchoub, M. Massoui, M. El Yachioui, Culture et production de Spirulina platensis dans les eaux usees domestiques, LARHYSS J., 14 (2013) 107–122.
41. J.J. DiNicolantonio, A.G. Bhat, J. Okeefe, Effects of Spirulina on weight loss and blood lipids: a review, Open Heart., 7 (2020) e001003, doi: 10.1136/openhrt-2018-001003.
42. N. Sahu, C. Bhan, J. Singh Gharu, Removal of fluoride from an aqueous solution by batch and column process using activated carbon derived from iron infused Pisum sativum peel: characterization, isotherm, kinetics study, Environ. Eng. Res., 26 (2021) 200241, doi: 10.4491/eer.2020.241.
43. W. Salah, M.T.M.H. Hamad, M.Z. Kamel, Application of statistical response surface methodology for optimization of fluoride removal efficiency by Padina sp. alga, Water Environ. Res., 92 (2020) 1080–1088.
44. D.S. Malik, C.K. Jain, A.K. Yadav, Removal of heavy metals from emerging cellulosic low-cost adsorbents: a review, Appl. Water Sci., 7 (2017) 2113–2136.
45. M.A. Barakat, New trends in removing heavy metals from industrial wastewater, Arabian J. Chem., 4 (2011) 361–377.
46. F. Fu, Q. Wang, Removal of heavy metal ions from wastewaters: a review, J. Environ. Manage., 92 (2011) 407–418.