Actas de congresos
Radial Growth Rate As A Tool For The Selection Of Filamentous Fungi For Use In Bioremediation
Registro en:
Brazilian Archives Of Biology And Technology. , v. 49, n. SPEC. ISS., p. 29 - 34, 2006.
15168913
2-s2.0-33748705354
Autor
Gabiatti Jr. C.
Vendruscolo F.
Piaia J.C.Z.
Rodrigues R.C.
Durrant L.R.
Costa J.A.V.
Institución
Resumen
Radial growth on various agar media (potato dextrose agar, nutrient agar and agars containing glycerin, olive oil, soy oil, diesel oil, kerosene, hexane or toluene) was used to assess the filamentous fungi Aspergillus fumigatus as well as an unidentified Penicillium species and two unidentified isolates (EFB1 and FL3A) for use in bioremediation and in the treatment of oily effluents. The EFB1 isolate gave the most rapid radial growth, which was 0.481 mm.h -1 on nutrient agar, 0.432 mm.h-1 on glycerin agar, 0.431 mm.h-1 on diesel oil agar and 0.420 mm.h-1 on olive oil agar. For comparison, A. fumigatus gave a radial growth rate of 0.394 mm.h -1 on potato dextrose agar. 49 SPEC. ISS. 29 34 Barathi, S., Vasudevan, N., Utilization of Petroleum hydrocarbons by Pseudomonas fluorescens isolated from a petroleum-contaminated soil (2001) Environmental International, 26, pp. 413-416 Bento, F.M., Gaylarde, C.C., Biodeterioration of stored diesel oil: Studies in Brazil (2001) International Biodeterioration & Biodegradation, 47, pp. 107-112 Chaîneau, C.H., Morel, J., Dupont, J., Bury, E., Oudot, J., Comparison of the fuel oil biodegradation potential of hydrocarbon-assimilating microorganisms isolated from a temperate agricultural soil (1999) The Science of the Total Environment, 227, pp. 237-247 Crapez, M.A.C., Borges, A.L.N., Bispo, M.G., Biorremediação: Tratamento para derrames de petróleo (2002) Ciência Hoje, 30-179, pp. 32-37 Erhan, S.Z., Bagby, M.O., Vegetable-oil-based print ink formulation and degradation (1995) Industrial Crops and Products, 3, pp. 237-246 Hettige, G.E.G., Sheridan, J.E., Interactions of fungi contaminating diesel fuel (1989) International Biodeterioration, 25, pp. 299-309 Ijah, U.J.J., Studies on relative capabilities of bacterial and yeast isolates from tropical soil in degrading crude oil (1998) Waste Management, 18, pp. 293-299 Kim, H.-S., Jeon, J.-W., Lee, H., Extracellular production of a glycolipid biosurfactant, mannosylerythritol lipid, from candida antarctica (2002) Biotechnology Letters, 24, pp. 225-229 Kim, S.H., Lim, E.J., Lee, S.O., Purification and charaterization of biosurfactants from Nocardia sp. L-417 (2000) Biotechnology Applied Biochemistry, 31, pp. 249-253 Kim, H., Yoon, B., Lee, C., Production and properties of a lipopeptide biosurfactant from Bacillus subtillis C9 (1997) Journal of Fermentation and Bioengineering, 84 (1), pp. 41-46 Kosaric, N., Cairns, W.L., (1987) Biosurfactants and Biotechnology, , New York: Marcel Dekker, Inc Laszlo, J.A., Silman, R.W., Celular automata simulations of fungal growth on solid substrates (1993) Biotechnology Advances, 11, pp. 621-633 Lopes, P.T.C., Gaylarde, C., Use of immunofluorescence to detect the fungus Hormoconis resinae in aviation kerosine (1996) International Biodeterioration & Biodegradation, 37 (2), pp. 37-40 Makkar, R.S., Cameotra, S.S., An update on the use of unconventional substrates for biosurfactant production and their new application (2002) Applied Microbiology and Biotechnology, 58, pp. 428-434 Marchi, D.D., Carvalho, D.F., Durrant, L.R., Produção de biosurfactantes bacterianos em óleos vegetais e derivados de petróleo (1998) II Reunião Nacional de Microbiologia Aplicada Ao Meio Ambiente, , Paper presented, Florianópolis, SC Rahman, K.S., Banat, I.M., Thahira, J., Bioremediation of gasoline contaminated soil by a bacterial consortium amended with poultry litter, coir pith and rhamnolipid biosurfactant (2002) Bioresource Technolog., 81, pp. 25-32 Ururahy, A.F.P., Marins, M.D.M., Vital, R.L., Effect of aeration on biodegradation of petroleum waste (1998) Revista de Microbiologia, 29 (4), pp. 254-258 Veenanadig, N.K., Gowthaman, M.K., Karanth, N.G.K., Scale up studies for the production of biosurfactant in packed column bioreactor (2000) Bioprocess Engineering, 22, pp. 95-99 Wheeler, K.A., Hurdman, B.F., Pitt, J.I., Influence of pH on the growth of some toxigenic species of Aspergillus, Penicillium and Fusarium (1991) International Journal of Food Microbiology, 12, pp. 141-150 Zar, J., (1984) Biostatistical Analysis. 2. Ed., , Englewood Cliffs: Prentice Hall