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Warianty tytułu
Języki publikacji
Abstrakty
A review of literature data has been presented, concerning selected problems of the utilization of wastewater from woodworking industry with the participation of microorganisms. Special attention has been focused on the biodegradation of components contained in water extracts from natural wood, leachates from wood waste and industrial wastewater generated in manufacturing wood products. Significance of white-rot fungi in enzymatic decomposition of lignin complexes has been emphasized. Many of chemical compounds which have toxic effect on water organisms are present in wastewater from wood industry. Although a lot of these compounds are potentially biodegradable, the decomposition process, especially of adhesives, may be inhibited by their high and harmful concentrations.
Czasopismo
Rocznik
Tom
Strony
69--75
Opis fizyczny
Bibliogr. 29 poz., tab.
Twórcy
autor
- Warsaw University of Technology, Faculty of Environmental Engineering
autor
- Warsaw University of Technology, Faculty of Environmental Engineering
Bibliografia
- [1] LEDAKOWICZ S., MICHNIEWICZ M., JAGIELLA A., STUFKA-OLCZYK J., MARTYNELIS M., Elimination of resin acids by advanced oxidation processes and their impact on subsequent biodegradation, Water Res., 2006, 40, 3439.
- [2] POLAK J., JAROSZ-WILKOŁAZKA A., The reactions catalyzed by laccases. A mechanism and application in biotechnology, Biotechnologia, 2007, 4 (79), 82 (in Polish).
- [3] BONUGLI-SANTOS R.C., DURRANT L.R., DA SILVA M., DURAES SETTE L., Production of laccase, manganese peroxidase and lignin peroxidase by Brazilian marine-derived fungi, Enzyme. Microb. Technol., 2010, 46, 32.
- [4] ANTECKA A., BIZUKOJĆ M., LEDAKOWICZ S., The biosynthesis of laccase by Cerrena unicolor: kinetic aspects of biomass growth and enzyme production, Biotechnologia, 2008, 2 (81), 90 (in Polish).
- [5] GOMEZ E., AQUIAR A. P., BOSCOLO M., CARVALHO C.C., DA SILVA R., BONFÀ M.R.B., Ligninases production by basidiomycetes strains on lignocelulosis agricultural residues and decolorization of synthetic dyes, J. Biotechnol., 2007, 131, 211.
- [6] DORADO J., CLAASSEN F.W., VAN BEEK T.A., LENON G., WIJNBERG J.B.P.A., SIERRA-ALVAREZ R., Elimination and detoxification of softwood extractives by white-rot fungi, J. Biotechnol., 2000, 80, 231.
- [7] VAN BEEK T.A., KUSTER B., CLAASSEN F.W., TIENVIERI T., BERTAUD F., LENON G., PETIT-CONIL M., SIERRA-ALVAREZ R., Fungal bio-treatment of spruce wood with Trametes versicolor for pitch control: Influence on extractive contents, pulping process parameters, paper quality and effluent toxicity, Bioresour. Technol., 2007, 98, 302.
- [8] HEDMARK A., SCHOLZ M., Review of environmental effects and treatment of runoff from storage and handling of wood, Bioresour. Technol., 2008, 99, 5997.
- [9] KOSTAMO A., HOLBOM B., KUKKONEN J.V.K., Fate of wood extractives in wastewater treatment plants at kraft pulp mills and mechanical pulp mills, Water Res., 2004, 38, 972.
- [10] LIBRALATO G., LOSSO C., GHIRARDINI A.V., Toxicity of untreated wood leachates towards two saltwater organisms (Crassostrea gigas and Artemia franciscana), J. Hazard. Mater., 2007, 144, 590.
- [11] MASBOUGH A., FRANKOWSKI K., HALL K.J., DUFF S.J.B., The effectiveness of constructed wetland for treatment of woodwaste leachate, Ecol. Eng., 2005, 25, 552.
- [12] HARITASH A.K., KAUSHIK C.P., Biodegradation aspects of polycyclic aromatic hydrocarbons (PAHs). A review, J. Hazard. Mater., 2009, 169, 1.
- [13] PAN Pesticides Database – Chemicals, http://www.pesticideinfo.org
- [14] EIROA M., KENNES C., VEIGA M.C., Simultaneous nitrification and formaldehyde biodegradation in an activated sludge unit, Bioresour. Technol., 2005, 96, 1914.
- [15] EIROA M., KENNES C., VEIGA M.C., Formaldehyde and urea removal in a denitrifying granular sludge blanket reactor, Water Res., 2004, 38, 3495.
- [16] LU Z., HEGEMANN W., Anaerobic toxicity and biodegradation of formaldehyde in batch cultures, Water Res., 1998, 32 (1), 209.
- [17] LOTFY H.R., RASHED I.G., A method for treating wastewater containing formaldehyde, Water Res., 2002, 36, 633.
- [18] JIANG Y., WEN J., BAI J., JIA X., HU Z., Biodegradation of phenol at high initial concentration by Alcaligenes faecalis, J. Hazard. Mat., 2007, 147, 672.
- [19] OKAMOTO K., IZAWA M., YANASE H., Isolation and application of a styrene – degrading strain of Pseudomonas putida to biofiltration, J. Biosci. Bioeng., 2003, 95 (6), 633.
- [20] HOWARD G.T., Biodegradation of polyurethane: a review, Int. Biodeterior. Biodeg., 2002, 49, 245.
- [21] TSUJIYAMA S.-I., NITTA T., MAOKA T., Biodegradation of polyvinyl alcohol by Flammulina velutipes in an unsubmerged culture, J. Biosci. Bioeng., 2011, 112 (1), 58.
- [22] THOMPSON G., SWAIN J., KAY M., FORSTER C.F., The treatment of pulp and paper mill effluent. A review, Bioresour. Technol., 2001, 77, 275.
- [23] VIDAL G., BECERRA J., HERNANDEZ V., DECAP J., XAVIER C.R., Anaerobic biodegradation of sterols contained in kraft mill effluents, J. Biosci. Bioeng., 2007, 104 (6), 476.
- [24] NAIR J., JAYACHENDRAN K., SHANKAR S., Treatment of paper factory effluent using a phenol degrading Alcaligenes sp. under free and immobilized condition, Bioresour. Technol., 2007, 98, 714.
- [25] FIELD J.A., SIERRA-ALVAREZ R., Microbial degradation of chlorinated phenols, Rev. Environ. Sci. Biotechnol., 2008, 7, 211.
- [26] SHEEDY B.R., LAZORCHACK J.H., GRUNWALD D.J., PICKERING A.P., HALL D., WEBB R., Effects of pollution on freshwater organisms, Res. J. Water Pollut. C., 1991, 63, 619.
- [27] ZAŁĘSKA-RADZIWIŁŁ M., Determination of safe concentration of pollutants in surface based on toxicological tests, Ochr. Śr. Zasobów Nat., 1999, 18, 491 (in Polish).
- [28] GUIMARAES J.R., TURATO FARAH C.R., GUEDES MANIERO M., FADINI P.S., Degradation of formaldehyde by advanced oxidation processes, J. Environ. Manage., 2012, 107, 96.
- [29] SCHWINGEL DE OLIVEIRA I., VIANA L., VERONA C., VARGAS FALLAVENA V.L., NUNES AZEVEDO C.M., PIRES M., Alkydic resin wastewaters treatment by Fenton and photo-Fenton processes, J. Hazard. Mater., 2007, 146 (3), 564.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e9e089cd-1e29-4ec2-ab02-802fd221e953