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A Novelhybrid Bio-System for Wastewater Treatment Using Algerian Agricultural Wastes

;9:1314-1321. DOI: 10.1016/j.crci.2006.05.006. [15] Jerold M, Sivasubramanian V. Biosorptive removal of malachite green from aqueous solution using brown marine macro algae Sargassums swartzii. Des Water Treat. 2016;57:25288-25300. DOI: 10.2166/wst.2016.513. [16] Chikhi S, Bouzid B, Hamitouche A. Extraction characterization and application of biocoagulant for treating dyes containing solution using aristeusantenntus and aristaeomorphafoliacea red shrimps. Iner Resear J Public Environ Health. 2017;4:249-258. DOI: 10.15739/irjpeh.17.029. [17] Jothi N, Kunthavai

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Biosorption of aniline blue from aqueous solution using a novel biosorbent Zizyphus oenoplia seeds: Modeling studies

the Removal of Malachite Green Using Tamarind Fruit Shell as Biosorbent. CLEAN Soil, Air, Water . 38(5–6), 437–445. DOI: 10.1002/clen.200900234. 19. Kapur, M. & Mondal, M.K. (2013). Mass transfer and related phenomena for Cr(VI) adsorption from aqueous solutions onto Mangifera indica sawdust. Chem. Eng. J. 218, 138–146. 20. Mohanty, K., Das, D. & Biswas, M.N. (2005). Adsorption of phenol from aqueous solutions using activated carbons prepared from Tectona grandis sawdust by ZnCl 2 activation. Chem. Eng. J

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Various aspects of piscine toxicology

'lveda MS. (2010) The effects of silver nanoparticles on fathead minnow ( Pimephales promelas) embryos. Ecotoxicology   19 : 185-195. Mc Aloose D and Newton AL. (2009). Wildlife cancer: a conservation perspective. Nature Reviews   9 : 517-526. Mitrowska K, Posyniak A, Żmudzki J. (2008). Tissue distribution and persistence of malachite green and leucomalachite green in common carp Medycyna Wet   64 : 1055-1058 [in Polish]. Modrá H, Svobodová Z. (2009). Incidence odf animal poisoing cases in

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The Nightmare: Genetically Modified Organisms as Alien Species

meeting of the Conference of the Parties UN conference adopts international liability rules for ecological damage resulting from genetically modified organisms, available at: (10.12.2013). 28. Vijayalakshmidevi S. R. and Muthukumar K., 2013 ‒ Biodegradation of malachite green by Ochrobactrum sp., World Journal of Microbiology and Biotechnology. (in printing) 29. Waminal N. E., Ryu K. H., Choi S

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Comparative studies on the adsorption of Pb(II) ions by fly ash and slag obtained from CFBC technology

–465. DOI: 10.1016/S0032-9592(98)00112-5. 38. Wong, K.K., Lee, C.K., Low, K.S. & Haron, M.J. (2003). Removal of Cu(II) and Pb(II) by tartaric acid modified rice husk from aqueous solutions. Chemosphere . 50, 23-28. DOI: 10.1016/S0045-6535(02)00598-2. 39. Wang, S.B. & Ariyanto, E. (2007). Competitive adsorption of malachite green and Pb ions on natural zeolite. J. Colloid Interf. Sci. 314, 25–31. DOI: 10.1016/j.jcis.2007.05.032. 40. Kumar, P.S., Vincent, C., Kirthika, K. & Kumar, K.S. (2010). Kinetics and equilibrium studies of Pb 2+ ion removal from

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Technology of Lasers and Their Applications in Oral Surgery: Literature Review

therapy for the periodontal diseases: State of the art. J Photochem Photobiol B, 2005; 79(2):159-170. 43. De Oliveira RR, Schwartz-Fiho HO, Novaes AB Jr, Taba M Jr. Antimicrobial photodynamic therapy in the non-surgical treatment of an aggressive periodontitis: A preliminary randomized controlled clinical study. J Periodontol, 2007; 78(6):965-973. 44. Prates RA, Yamada AM Jr, Suzuki LC, Hashimoto MCE, Cai S, Gouw-Soares S, Gomes L, Ribeiro MS. Bactericidal effect of malachite green and red laser on Actinobacillus actinomycetemcomitans. J

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Simultaneous synthesis-immobilization of nano ZnO on perlite for photocatalytic degradation of an azo dye in semi batch packed bed photoreactor

.05.028. 43. Dijkstra, M.F.J., Panneman, H.J., Winkelman, J.G.M., Kelly, J.J. & Beenackers, A.A.C.M. (2002). Modeling the photocatalytic degradation of formic acid in a reactor with immobilized catalyst. Chem. Eng. Sci., 57(22-23), 4895-4907. DOI: 10.1016/S0009-2509(02)00290-7. 44. Behnajady, M.A., Modirshahla, N., Shokri, M. & Vahid, B. (2008). Effect of operational parameters on degradation of Malachite Green by ultrasonic irradiation. Ultrasonics Sonochemistry, 15(6), 10091014. DOI: 10.1016/j.ultsonch.2008.03.004.

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Sorption Equilibrium of Azo Dyes Direct Orange 26 and Reactive Blue 81 onto a Cheap Plant Sorbent/Równowaga Sorpcji Barwników Azowych Direct Orange 26 I Reactive Blue 81 Na Tanim Sorbencie Roślinnym

.126. [18] Guezguez I, Dridi-Dhaouadi S, Mhenni F. Sorption of Yellow 59 on Posidonia oceanica, a non-conventional biosorbent: Comparison with activated carbons. Industrial Crops and Products. 2009;29:197-204. DOI: 10.1016/j.indcrop.2008.05.002. [19] Garg VK, Kumar R, Gupta R. Removal of malachite green dye from aqueous solution by adsorption using agro-industry waste: a case study of Prosopis cineraria. Dyes Pigments. 2004;62:1-10. DOI: 10.1016/S0143-7208(03)00224-9. [20] Gupta VK, Suhas. Application of low-cost adsorbents for dye removal

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Synthesis of an optical catalyst for cracking contaminating dyes in the wastewater of factories using indium oxide in nanometer and usage in agriculture

., 2, 104–113. . 50. Farzin, N., deh Hossein, N., Shahram, N., Asif, M., Inderjeet, T., Shilpi, A. & Kumar, G.V. (2016). Removal of malachite green from aqueous solutions by cuprous iodide– cupric oxide nano-composite loaded on activated carbon as a new sorbent for solid phase extraction: Isotherm, kinetics and thermodynamic studies. J. Mol. Liq ., 213, 360–368. . 51. Tang, C.W. (2013). Study of Photocatalytic Degradation of Methyl Orange on Different Morphologies

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Equilibrium, kinetic and thermodynamic studies on methylene blue adsorption by Trichosanthes kirilowii Maxim shell activated carbon

chloride. J. Anal. Appl. Pyrolysis, 110, (1), 270–276. DOI: 10.1016/j.jaap.2014.09.006. 11. Mohammad, M., Maitra, S. & Dutta, B.K.(2018). Comparison of activated carbon and physic seed hull for the removal of malachite green dye from aqueous solution. Water, Air, Soil Pollut., 229, (2), 45. DOI: 10.1007/s11270-018-3686-4. 12. Monteiro, M.S., De, R.F., Chaves, J., Santana, S.A., Silva, H. & Bezerra, C. (2017). Wood (Bagassa guianensis Aubl) and green coconut mesocarp (cocos nucifera) residues as textile dye removers (Remazol Red and Remazol Brilliant Violet

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