ABSTRACT
This work deals with the durability of a Pinus elliotti wood impregnated with alumina (Al2O3) particles. The samples were impregnated at three different Al2O3 weight fractions (c.a. 0.1%, 0.3% and 0.5%) and were then exposed to two wood-rot fungi, namely white-rot fungus (Trametes versicolor) and brown-rot fungus (Gloeophyllum trabeum). Thermal and chemical characteristics were evaluated by Fourier transform infrared spectroscopy (FT-IR) and thermogravimetric (TG) analyses. The wood which incorporated 0.3 wt% of Al2O3 presented a weight loss 91.5% smaller than the untreated wood after being exposed to the white-rot fungus. On the other hand, the highest effectiveness against the brown-rot fungus was reached by the wood treated with 5 wt% of Al2O3, which presented a mass loss 91.6% smaller than that of the untreated pine wood. The Al2O3-treated woods presented higher antifungal resistances than the untreated ones in a way that: the higher the Al2O3 content, the higher the thermal stability. In general, the impregnation of the Al2O3 particles seems to be a promising treatment for wood protection against both studied wood-rot fungi. Additionally, both FT-IR and TG results were valuable tools to ascertain chemical changes ascribed to fungal decay.
ABSTRACT
This study explores the biotechnological potential of lignocellulolytic fungi collected in an oak forest. Fungal collections were obtained from natural reserves located in Boyacá-Colombia, ranging from 2700 to 3000 m.a.s.l. Twenty-three strains were isolated on malt agar, molecular characterization was performed, and ligninolytic and cellulolytic enzymatic activities were screened. Several white-rot fungi of biotechnological importance were identified as follows: Trametes sp., Trametes versicolor, Trametes villosa, Pycnoporus sanguineus, Bjerkandera adjusta, Lentinula boryana, Panus conchatus, Antrodia neotropica, Brunneoporus malicola, Laetiporus gilbertsonii, Stereum sp., Ganoderma sp., and Dichomitus sp. The strains T. versicolor 0554 and 0583, T. villosa 0562, and B. adusta 0556 showed the highest response in the qualitative enzymatic assays. These strains were used to determine their ability to decolorate the dyes aniline blue and Congo red, and it was found that T. villosa 0562 reached a level of decolorization close to 90% after 48 h of submerged culture. The fungal strains obtained here could offer alternatives to develop a process to accomplish sustainable development objectives.
Subject(s)
Trametes , Wood , Colombia , Coloring Agents , Forests , Wood/microbiologyABSTRACT
Fungi constitute an invaluable natural resource for scientific research, owing to their diversity; they offer a promising alternative for bioprospecting, thus contributing to biotechnological advances. For a long time, extensive information has been exploited and fungal products have been tested as a source of natural compounds. In this context, enzyme production remains a field of interest, since it offers an efficient alternative to the hazardous processes of chemical transformations. Owing to their vast biodiversity and peculiar biochemical characteristics, two fungal categories, white-rot and anaerobic Neocallimastigomycota, have gathered considerable attention for biotechnological applications. These fungi are known for their ability to depolymerize complex molecular structures and are used in degradation of lignocellulosic biomass, improvement of animal feed digestibility, biogas and bioethanol production, and various other applications. However, there are only limited reports that describe proteolytic enzymes and esterases in these fungi and their synergistic action with lignocellulolytic enzymes on degradation of complex polymers. Thus, in this minireview, we focus on the importance of these organisms in enzyme technology, their bioprospecting, possibility of integration of their enzyme repertoire, and their prospects for future biotechnological innovation.
Subject(s)
Bioprospecting/methods , Biotechnology/methods , Neocallimastigomycota/enzymology , Soil Microbiology , Anaerobiosis , Biofuels , Biomass , Biotechnology/trends , Esterases/metabolism , Lignin/metabolism , Neocallimastigomycota/metabolism , Peptide Hydrolases/metabolism , Polymers/metabolism , Wood/microbiologyABSTRACT
The kingdom Fungi is represented by a large number of organisms, including pathogens that deteriorate the main structural components of wood, such as cellulose, hemicellulose and lignin. The aim of our work was to characterize the antifungal activity in Arthrobacter agilis UMCV2 and diverse amines against wood-decaying fungi. Four fungal organisms (designated as UMTM) were isolated from decaying wood samples obtained from a forest in Cuanajo-Michoacán, México. Two of them showed a clear enzymatic activity of cellulases, xylanases and oxido-reducing enzymes and were identified as Hypocrea (UMTM3 isolate) and Fusarium (UMTM13 isolate). In vitro, the amines showed inhibitory effect against UMTM growth and one of the amines, dimethylhexadecylamine (DMA16), exhibited strong potential as wood preventive treatment, against the attack of decaying fungi.
Subject(s)
Amines/pharmacology , Antibiosis , Arthrobacter/physiology , Fusarium/growth & development , Hypocrea/growth & development , Wood/microbiology , Fungal Proteins/metabolism , Fungi/classification , Fungi/isolation & purification , Fusarium/drug effects , Fusarium/enzymology , Fusarium/isolation & purification , Hypocrea/drug effects , Hypocrea/enzymology , Hypocrea/isolation & purification , Mexico , Mycelium/enzymology , Mycological Typing Techniques , Pinus/microbiologyABSTRACT
El reino Fungi está representado por innumerable cantidad de organismos entre los cuales se encuentran hongos patógenos que deterioran los principales componentes estructurales de la madera, como celulosa, hemicelulosa y lignina. El objetivo de nuestro trabajo fue caracterizar la actividad antifúngica y la producción de diversas aminas de Arthrobacter agilis UMCV2 con acción antagónica sobre hongos xilófagos. Para ello, se aislaron 4 organismos fúngicos (designados en conjunto UMTM) a partir de madera en descomposición en un bosque de pino encino de la comunidad de Cuanajo, Michoacán, México. Dos de ellos presentaron una clara actividad enzimática de celulasas, xilanasas y enzimas accesorias óxido-reductoras, y fueron identificados como pertenecientes a 2 géneros agresivos para la madera: Hypocrea (aislado UMTM3) y Fusarium (aislado UMTM13). In vitro, las aminas evaluadas mostraron tener efecto inhibitorio sobre el crecimiento de los UMTM y la dimetilhexadecilamina; uno de estos compuestos mostró un fuerte potencial para ser utilizado como tratamiento preventivo contra el ataque de hongos destructores de madera.
The kingdom Fungi is represented by a large number of organisms, including pathogens that deteriorate the main structural components of wood, such as cellulose, hemicellulose and lignin. The aim of our work was to characterize the antifungal activity in Arthrobacter agilis UMCV2 and diverse amines against wood-decaying fungi. Four fungal organisms (designated as UMTM) were isolated from decaying wood samples obtained from a forest in Cuanajo-Michoacán, México. Two of them showed a clear enzymatic activity of cellulases, xylanases and oxido-reducing enzymes and were identified as Hypocrea (UMTM3 isolate) and Fusarium (UMTM13 isolate). In vitro, the amines showed inhibitory effect against UMTM growth and one of the amines, dimethylhexadecylamine (DMA16), exhibited strong potential as wood preventive treatment, against the attack of decaying fungi.
Subject(s)
Arthrobacter/isolation & purification , Wood/microbiology , Hypocrea/drug effects , Fusarium/drug effects , Amines/therapeutic use , Arthrobacter/metabolism , Hypocrea/isolation & purification , Fusarium/isolation & purificationABSTRACT
O conhecimento acerca da resistência dos compostos ligno-celulósicos ao ataque de microrganismos é primordial para servir de base à prevenção da deterioração e a correta destinação de emprego do material. Nesse sentido, avaliou-se a resistência natural a fungos apodrecedores de painéis aglomerados confeccionados com partículas de madeira (Eucalyptus grandis) e/ou bambu (Bambusa vulgaris). Foram produzidas, em laboratório, chapas aglomeradas nas dimensões 50x50x0,95cm e massa específica pré-estabelecida em 0,70g cm-3, nas proporções de 100:0, 75:25, 50:50, 25:75 e 0:100 de madeira e bambu, respectivamente. A massa de partículas representou 91 por cento da massa seca de cada painel, sendo, o restante, formado pelo adesivo ureia-formaldeído (8 por cento) e parafina (1 por cento). Para determinação da resistência natural ao ataque de fungos xilófagos, os painéis foram testados em laboratório e utilizados os fungos Gloeophyllum trabeum (podridão parda) e Trametes versicolor (podridão branca), de acordo com a ASTM D 2017 (2005). Quanto aos resultados, foi observado que os painéis confeccionados com mistura de partículas de madeira e bambu apresentaram menor resistência ao ataque dos fungos apodrecedores. Painéis que utilizaram apenas bambu ou madeira apresentaram resistência biológica semelhante. Dentre os fungos, T. versicolor atacou mais severamente os painéis.
The knowledge about lignocellulosic compounds strength to the attack of microorganisms is essential for preventing deterioration and also for knowing the correct usage of the material. Accordingly it was evaluated the natural resistance of wood panels made of particles of wood (Eucalyptus grandis) and/or bamboo (Bambusa vulgaris) to decay fungi. Particleboards were produced in laboratory, each of them with dimensions 50x50x0.95cm and density pre-set at 0.70g cm-3, in proportions of 100:0, 75:25, 50:50, 25:75 and 0:100 of wood and bamboo, respectively. The particles mass represented 91 percent of the dry mass of each panel while the remainder was formed by the urea-formaldehyde adhesive (8 percent) and paraffin (1 percent). The panels were tested in the laboratory and Gloeophyllum trabeum (brown rot) and Trametes versicolor (white rot) were used to determine the natural resistance to attack by wood decay fungi. It was observed that panels which were made with a mixture of particles of wood and bamboo were less resistant to attack by decay fungi. Panels that were made from bamboo or wood only showed similar biological resistance. Among fungi, T. versicolor was the one that attacked panels more severely.
ABSTRACT
The knowledge about lignocellulosic compounds strength to the attack of microorganisms is essential for preventing deterioration and also for knowing the correct usage of the material. Accordingly it was evaluated the natural resistance of wood panels made of particles of wood (Eucalyptus grandis) and/or bamboo (Bambusa vulgaris) to decay fungi. Particleboards were produced in laboratory, each of them with dimensions 50x50x0.95cm and density pre-set at 0.70g cm-3, in proportions of 100:0, 75:25, 50:50, 25:75 and 0:100 of wood and bamboo, respectively. The particles mass represented 91% of the dry mass of each panel while the remainder was formed by the urea-formaldehyde adhesive (8%) and paraffin (1%). The panels were tested in the laboratory and Gloeophyllum trabeum (brown rot) and Trametes versicolor (white rot) were used to determine the natural resistance to attack by wood decay fungi. It was observed that panels which were made with a mixture of particles of wood and bamboo were less resistant to attack by decay fungi. Panels that were made from bamboo or wood only showed similar biological resistance. Among fungi, T. versicolor was the one that attacked panels more severely.
O conhecimento acerca da resistência dos compostos ligno-celulósicos ao ataque de microrganismos é primordial para servir de base à prevenção da deterioração e a correta destinação de emprego do material. Nesse sentido, avaliou-se a resistência natural a fungos apodrecedores de painéis aglomerados confeccionados com partículas de madeira (Eucalyptus grandis) e/ou bambu (Bambusa vulgaris). Foram produzidas, em laboratório, chapas aglomeradas nas dimensões 50x50x0,95cm e massa específica pré-estabelecida em 0,70g cm-3, nas proporções de 100:0, 75:25, 50:50, 25:75 e 0:100 de madeira e bambu, respectivamente. A massa de partículas representou 91% da massa seca de cada painel, sendo, o restante, formado pelo adesivo ureia-formaldeído (8%) e parafina (1%). Para determinação da resistência natural ao ataque de fungos xilófagos, os painéis foram testados em laboratório e utilizados os fungos Gloeophyllum trabeum (podridão parda) e Trametes versicolor (podridão branca), de acordo com a ASTM D 2017 (2005). Quanto aos resultados, foi observado que os painéis confeccionados com mistura de partículas de madeira e bambu apresentaram menor resistência ao ataque dos fungos apodrecedores. Painéis que utilizaram apenas bambu ou madeira apresentaram resistência biológica semelhante. Dentre os fungos, T. versicolor atacou mais severamente os painéis.
ABSTRACT
The knowledge about lignocellulosic compounds strength to the attack of microorganisms is essential for preventing deterioration and also for knowing the correct usage of the material. Accordingly it was evaluated the natural resistance of wood panels made of particles of wood (Eucalyptus grandis) and/or bamboo (Bambusa vulgaris) to decay fungi. Particleboards were produced in laboratory, each of them with dimensions 50x50x0.95cm and density pre-set at 0.70g cm-3, in proportions of 100:0, 75:25, 50:50, 25:75 and 0:100 of wood and bamboo, respectively. The particles mass represented 91% of the dry mass of each panel while the remainder was formed by the urea-formaldehyde adhesive (8%) and paraffin (1%). The panels were tested in the laboratory and Gloeophyllum trabeum (brown rot) and Trametes versicolor (white rot) were used to determine the natural resistance to attack by wood decay fungi. It was observed that panels which were made with a mixture of particles of wood and bamboo were less resistant to attack by decay fungi. Panels that were made from bamboo or wood only showed similar biological resistance. Among fungi, T. versicolor was the one that attacked panels more severely.
O conhecimento acerca da resistência dos compostos ligno-celulósicos ao ataque de microrganismos é primordial para servir de base à prevenção da deterioração e a correta destinação de emprego do material. Nesse sentido, avaliou-se a resistência natural a fungos apodrecedores de painéis aglomerados confeccionados com partículas de madeira (Eucalyptus grandis) e/ou bambu (Bambusa vulgaris). Foram produzidas, em laboratório, chapas aglomeradas nas dimensões 50x50x0,95cm e massa específica pré-estabelecida em 0,70g cm-3, nas proporções de 100:0, 75:25, 50:50, 25:75 e 0:100 de madeira e bambu, respectivamente. A massa de partículas representou 91% da massa seca de cada painel, sendo, o restante, formado pelo adesivo ureia-formaldeído (8%) e parafina (1%). Para determinação da resistência natural ao ataque de fungos xilófagos, os painéis foram testados em laboratório e utilizados os fungos Gloeophyllum trabeum (podridão parda) e Trametes versicolor (podridão branca), de acordo com a ASTM D 2017 (2005). Quanto aos resultados, foi observado que os painéis confeccionados com mistura de partículas de madeira e bambu apresentaram menor resistência ao ataque dos fungos apodrecedores. Painéis que utilizaram apenas bambu ou madeira apresentaram resistência biológica semelhante. Dentre os fungos, T. versicolor atacou mais severamente os painéis.