Biosurfactants for a Sustainable Future. Группа авторов

Biosurfactants for a Sustainable Future - Группа авторов


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      50 50 Veenanadig, N.K., Gowthaman, M.K., and Karanth, N.G.K. (2000). Scale up studies for the production of biosurfactant in packed column bioreactor. Bioprocess Engineering 22 (2): 95–99.

      51 51 Karanth, N.G.K., Deo, P.G., and Veenanadig, N.K. (1999). Microbial production of biosurfactants and their importance. Current Science 77: 116–126.

      52 52 Rahman, K.S.M., Rahman, T.J., McClean, S. et al. (2002). Rhamnolipid biosurfactant production by strains of Pseudomonas aeruginosa using low‐cost raw materials. Biotechnology Progress 18 (6): 1277–1281.

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      56 56 Nitschke, M. and Pastore, G.M. (2006). Production and properties of a surfactant obtained from Bacillus subtilis grown on cassava wastewater. Bioresource Technology 97 (2): 336–341.

      57 57 Gautam, K.K. and Tyagi, V.K. (2006). Microbial surfactants: A review. Journal of Oleo Science 55 (4): 155–166.

      58 58 Zinjarde, S.S. and Pant, A. (2002). Emulsifier from a tropical marine yeast, Yarrowia lipolytica NCIM 3589. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 42 (1): 67–73.

      59 59 Raza, Z.A., Rehman, A., Khan, M.S., and Khalid, Z.M. (2007). Improved production of biosurfactant by a Pseudomonas aeruginosa mutant using vegetable oil refinery wastes. Biodegradation 18 (1): 115–121.

      60 60 Ilori, M.O., Amobi, C.J., and Odocha, A.C. (2005). Factors affecting biosurfactant production by oil degrading Aeromonas spp. isolated from a tropical environment. Chemosphere 61 (7): 985–992.

      61 61 Ashby, R.D., McAloon, A.J., Solaiman, D.K. et al. (2013). A process model for approximating the production costs of the fermentative synthesis of sophorolipids. Journal of Surfactants and Detergents 16 (5): 683–691.

      62 62 Rodrigues, L.R., Teixeira, J.A., and Oliveira, R. (2006). Low‐cost fermentative medium for biosurfactant production by probiotic bacteria. Biochemical Engineering Journal 32 (3): 135–142.

      63 63 Daniels, L., Linhardt, R.J., Bryan, B.A., Mayerl, F. and Pickenhagen, W., Method for producing rhamnose. University of Iowa Research Foundation (UIRF) (1990) US Patent 4,933,281.

      64 64 Calvo, C., Toledo, F.L., Pozo, C. et al. (2004). Biotechnology of bioemulsifiers produced by micro‐organisms. Journal of Food Agriculture and Environment 2 (3): 238–243.

      65 65 Kosaric, N., Cairns, W.L., Gray, N.C.C. et al. (1984). The role of nitrogen in multi organism strategies for biosurfactant production. Journal of the American Oil Chemists' Society 61 (11): 1735–1743.

      66 66 Luna, J.M., Rufino, R.D., and Sarubbo, L.A. (2016). Biosurfactant from Candida sphaerica UCP0995 exhibiting heavy metal remediation properties. Process Safety and Environmental Protection 102: 558–566.

      67 67 Mulligan, C.N., Yong, R.N., and Gibbs, B.F. (1999). Removal of heavy metals from contaminated soil and sediments using the biosurfactant surfactin. Journal of Soil Contamination 8 (2): 231–254.

      68 68 Singh, A.K. and Cameotra, S.S. (2013). Efficiency of lipopeptide biosurfactants in removal of petroleum hydrocarbons and heavy metals from contaminated soil. Environmental Science and Pollution Research 20 (10): 7367–7376.

      69 69 Das, P., Mukherjee, S., and Sen, R. (2009). Biosurfactant of marine origin exhibiting heavy metal remediation properties. Bioresource Technology 100 (20): 4887–4890.

      70 70 Rufino, R.D., Rodrigues, G.I.B., Campos‐Takaki, G.M. et al. (2011). Application of a yeast biosurfactant in the removal of heavy metals and hydrophobic contaminant in a soil used as slurry barrier. Applied and Environmental Soil Science 2011: 1–7.

      71 71 Diaz, M.A., De Ranson, I.U., Dorta, B. et al. (2015). Metal removal from contaminated soils through bioleaching with oxidizing bacteria and rhamnolipid biosurfactants. Soil and Sediment Contamination: An International Journal 24 (1): 16–29.

      72 72 Mekwichai, P., Tongcumpou, C., Kittipongvises, S., and Tuntiwiwattanapun, N. (2020). Simultaneous biosurfactant‐assisted remediation and corn cultivation on cadmium‐contaminated soil. Ecotoxicology and Environmental Safety 192: 110–298.

      73 73 Grand View Research (2015). Available at: https://www.grandviewresearch.com/industry‐analysis/biosurfactants‐industry. Accessed March 8, 2018.

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      75 75 Markets and Markets (2017). Available at: https://www.marketsandmarkets.com/Market‐Reports/biosurfactant‐market‐163644922.html. Accessed March 8, 2018.

      76 76 Research and Markets (2017). Available at: https://www.researchandmarkets.com/reports/4437552/biosurfactants‐marketby‐type‐glycolipids#pos‐1. Accessed March 8, 2018.

      77 77 Zouboulis, A.I., Loukidou, M.X., and Matis, K.A. (2004). Biosorption of toxic metals from aqueous solutions by bacteria strains isolated from metal‐polluted soils. Process Biochemistry 39 (8): 909–916.

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