Authors: X. Vecino, J. M. Cruz, A. Moldes

Abstract:

The disposal and the treatment of sewage sludge is an expensive and environmentally complex problem. In this work, a lipopeptide biosurfactant extracted from corn steep liquor was used as ecofriendly and cost-competitive alternative for the mobilization and bioremediation of fluorene in sewage sludge. Results have demonstrated that this biosurfactant has the capability to mobilize fluorene to the aqueous phase, reducing the amount of fluorene in the sewage sludge from 484.4 mg/Kg up to 413.7 mg/Kg and 196.0 mg/Kg after 1 and 27 days respectively. Furthermore, once the fluorene was extracted the lipopeptide biosurfactant contained in the aqueous phase allowed the biodegradation, up to 40.5% of the initial concentration of this polycyclic aromatic hydrocarbon.

Keywords: Fluorene, lipopeptide biosurfactant, mobilization, sewage sludge.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1108448

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References:

[1] S.K. Samanta, O.V. Singh and R.K. Jain, “Polycyclic aromatic hydrocarbons: environmental pollution and bioremediation”, Trends Biotechnol. vol. 20, 2002, pp. 243–248.
[2] C.A. Menzie, B.B. Potocki and J. Santodonato, “Exposure to carcinogenic PAHs in the environment”, Environ. Sci. Technol. vol. 26, 1992, pp. 1278–1284.
[3] United States Environmental Protection Agency (USEPA), Appendix A to 4 CFR Part 423, November (2010). Available from: http://www.epa.gov/waterscience/methods/pollutants.htm
[4] J. Hall, “Ecological and economical balance for sludge management options”, WRcplc, Medmenham, Marlow, SL7 2HD, United Kingdom.
[5] M.T. Pena, M.C. Casais, M.C. Mejuto and R. Cela, “Development of a sample preparation procedure of sewage sludge samples for the determination of polycyclic aromatic hydrocarbons based on selective pressurized liquid extraction”, J. Chromatogr. A vol. 1217, 2010, pp. 425–435.
[6] Council of the European Community, 27 April, 2000.Working document on Sludge, 3rd Draft, Brussels.
[7] D.T. Sponza and O. Gok, “Aerobic biodegradation and inhibition kinetics of poly-aromatic hydrocarbons (PAHs) in a petrochemical industry wastewater in the presence of biosurfactants”, J. Chem. Technol. Biotechnol. vol. 87, 2012, pp. 658–672.
[8] E.C. Souza, T.C. Vessoni-Penn and R.P. De Souza Oliveira, “Biosurfactant-enhanced hydrocarbon bioremediation: An overview”, Int. Biodeter. Biodegr. vol. 89, 2014, pp. 88–94.
[9] A.B. Moldes, R. Paradelo, X. Vecino, J.M. Cruz, E. Gudiña, L. Rodrigues, J.A. Teixeira, J.M. Domínguez and M.T. Barral, “Partial characterization of biosurfactant from Lactobacillus pentosus and comparison with sodium dodecyl sulphate for the bioremediation of hydrocarbon contaminated soil”, BioMed Res. Int.2013, Article number 961842.
[10] A.B. Moldes, R. Paradelo, D. Rubinos, R. Devesa-Rey, J.M. Cruz and M.T. Barral, “Ex situ treatment of hydrocarbon-contaminated soil using biosurfactants from Lactobacillus pentosus”, J. Agr. Food Chem. vol. 59, 2011, pp. 9443–9447.
[11] M. Pacwa-Płociniczak, G.A. Płaza, Z. Piotrowska-Seget and S.S. Cameotra, “Environmental Applications of Biosurfactants: Recent Advances”, Int. J. Mol. Sci.vol. 12, 2011, pp. 633–654.
[12] S.S. Cameotra and R.S. Makkar, “Biosurfactant-enhanced bioremediation of hydrophobic pollutants”, Pure Appl. Chem.vol. 82, 2010, pp. 97–116.
[13] A.B. Moldes, A.M. Torrado, M.T. Barral and J.M. Domínguez, “Evaluation of biosurfactant production from various agricultural residues by Lactobacillus pentosus”, J. Agrc. Food Chem. vol. 55,2007, pp. 4481−4486.
[14] X. Vecino, L. Barbosa-Pereira, R. Devesa-Rey, J.M. Cruz and A.B. Moldes, “Study of the surfactant properties of aqueous stream from the corn milling industry”, J. Agr. Food Chem. vol. 62, 2014, pp. 5451– 5457.
[15] H.R. Rogers, “Sources, behaviour and fate of organic contaminants during sewage treatment and in sewage sludges”, Sci. Total Environ.vol.185, 1996, pp. 3–26.
[16] W. Zhou and L. Zhu, “Enhanced desorption of phenanthrene from contaminated soil using anionic/nonionic mixed surfactant”, Environ. Pollut. vol. 147, 2007, pp. 350–357
[17] C. N. Mulligan, “Environmental applications for biosurfactants”, Environ. Pollut. vol. 133, 2005, pp. 183–198.
[18] J. Ma, L. Xu, L. Jia, “Degradation of polycyclic aromatic hydrocarbons by Pseudomonas sp. JM2 isolated from active sewage sludge of chemical plant”, J. Environ. Sci. vol. 24, 2012, pp. 2141–2148.
[19] M.P. Kolomytseva, D. Randazzo, B.P. Baskunov, A. Scozzafava, F. Briganti, L.A. Golovleva, “Role of surfactants in optimizing fluorene assimilation and intermediate formation by Rhodococcus rhodochrous VKM B-246”, BioresourceTechnol.vol. 100, 2009, pp. 839–844.