RESUMO
Background: The wastes of pecan nut (Carya illinoinensis (Wangenh.) K. Koch) production are increasing worldwide and have high concentrations of tannins and phenols. Aims: To study the biodegradation of lignocellulosic wastes of pecan used as solid substrate for the cultivation of the white-rot fungus Ganoderma lucidum (Curtis) P. Karst. Methods: Six formulations of pecan wastes were used as solid substrate: pecan shells (PS100), pecan pericarp (PP100), pecan wood-chips (PB100), and the combinations PS50+PP50, PB50+PS50 and PB50+PP50. The substrates were inoculated with a wild strain of G. lucidum collected in the Iberian Peninsula. The biodegradation capability of G. lucidum was estimated by using the mycelial growth rate, the biological efficiency, the production and the dry biological efficiency. Results: Notably, all solid substrates were suitable for G. lucidum growth and mushroom yield. The best performance in mushroom yield was obtained with PB100 (55.4% BE), followed by PB50+PP50 (31.7% BE) and PB50+PS50 (25.4% BE). The mushroom yield in the substrates containing pecan wood-chips (PB) was significantly higher. Conclusions: Our study is leading the way in attempting the cultivation of G. lucidum on lignocellulosic pecan waste. These results show an environmentally friendly alternative that increases the benefits for the global pecan industry, especially in rural areas, and transforms biomass into mushrooms with nutraceutical properties and biotechnological applications
Antecedentes: Los residuos de la producción de pacana (Carya illinoinensis [Wangenh.] K. Koch) se distribuyen por todo el mundo y poseen elevadas concentraciones de taninos y fenoles. Objetivos: Estudiar la biodegradación de los residuos lignocelulósicos de la pacana usados como sustrato sólido para el cultivo de Ganoderma lucidum (Curtis) P. Karst. Métodos: Se utilizaron seis formulaciones de sustratos sólidos a partir de los residuos: cáscara de la nuez (PS100), pericarpio de la nuez (PP100), astillas de ramas de poda (PB100) y las combinaciones PS50+PP50, PB50+PS50 y PB50+PP50. Los sustratos se inocularon con las hifas de una cepa silvestre de G. lucidum procedente de la península ibérica. La capacidad de biodegradación de G. lucidum se estimó mediante el ratio de crecimiento micelial, la eficiencia biológica, la producción de carpóforos y la eficiencia biológica en seco. Resultados: Notablemente, todos los sustratos sólidos utilizados resultaron adecuados para ser colonizados por G. lucidum y producir carpóforos. Los mejores rendimientos en cultivo se obtuvieron con la formulación PB100 (55,4% BE), seguida por PB50+PP50 (31,7% BE) y PB50+PS50 (25,4% BE). La producción de carpóforos en sustratos con astillas de ramas del árbol (PB) fue considerablemente más elevada que en aquellos que no contenían este residuo. Conclusiones: Este estudio muestra la posibilidad de cultivar G. lucidum sobre residuos lignocelulósicos de pacana. Los resultados obtenidos sugieren una alternativa respetuosa con el medio ambiente para el incremento de los beneficios en la industria de la pacana a nivel internacional, especialmente en zonas rurales, al convertir biomasa en la producción de un hongo de interés nutracéutico y con aplicaciones biotecnológicas
Assuntos
Carya , Biodegradação Ambiental , Resíduos de Alimentos , Microbiologia do Solo , Reishi/isolamento & purificação , Ganoderma/isolamento & purificação , Agaricales/crescimento & desenvolvimento , Substratos para Tratamento Biológico/análise , Lignina/análise , Micélio/crescimento & desenvolvimento , 24444RESUMO
The present work was aimed at optimizing a culture medium for biomass production and phenolic compounds by using Ganoderma lucidum. The culture was optimized in two stages; a Plackett-Burman design was used in the first one for identifying key components in the medium and a central composite design was used in the second one for optimizing their concentration. Both responses (biomass and phenolic compounds) were simultaneously optimized by the latter methodology regarding desirability, and the optimal concentrations obtained were 50.00 g/L sucrose, 13.29 g/L yeast extract and 2.99 g/L olive oil. Maximum biomass production identified in these optimal conditions was 9.5 g/L and that for phenolic compounds was 0.0452 g/L, this being 100% better than that obtained in the media usually used in the laboratory. Similar patterns regarding chemical characterization and biological activity towards Aspergillus sp., from both fruiting body and mycelium-derived secondary metabolites and extracts obtained in the proposed medium were observed. It was shown that such statistical methodologies are useful for optimizing fermentation and, in the specific case of G. lucidum, optimizing processes for its production and its metabolites in submerged culture as an alternative to traditional culture.
Assuntos
Biomassa , Compostos Fenólicos/análise , Meios de Cultura/análise , Micélio/isolamento & purificação , Reishi/isolamento & purificação , Metodologia como Assunto , Otimização de Processos , MétodosRESUMO
This study aimed at optimizing the medium of a new Ganoderma lucidum strain CAU5501 to enhance the yield of exopolysaccharides (EPS) and mycelial growth. Firstly, the suitable level of glucose, magnesium, phosphate and C/N ratio was determined by single factor experiment. Subsequently, the optimum concentrations of these medium components were investigated using the orthogonal matrix method. The results indicated that the higher levels of EPS were correlated with the level of cell growth when glucose concentration was studied (data no show). The optimum medium for EPS yield was found to be 70 g/l glucose, 5 C/N ratio, 2.5 g/l KH2PO4, 0.75 g/l MgSO4·7H2O, and for mycelial growth was 50 g/l glucose, 5 C/N ratio, 1.5 g/l KH2PO4, 0.5 g/l MgSO4·7H2O. When cultivated in the obtained optimal media in 3 L shake flask, compared to the basal medium, the EPS yield increased markedly from 1.003 to 1.723 g/l, and the mycelium formation was also markedly improved from 2.028 to 7.235 g/l. Results obtained in this study are beneficial to further study for enhancing the production of Ganoderma lucidum polysaccharides in large scale commercialized production.
Assuntos
Fosfatos/análise , Fosfatos/isolamento & purificação , Glucose/análise , Glucose/isolamento & purificação , Micélio/crescimento & desenvolvimento , Polissacarídeos/análise , Polissacarídeos/isolamento & purificação , Reishi/enzimologia , Reishi/isolamento & purificação , Ativação Enzimática , Métodos , Otimização de ProcessosRESUMO
El hongo Ganoderma lucidum, en los constituyentes de su biomasa, tiene compuestos con propiedades benéficas para la salud; es por esto que el conocimiento de las condiciones nutricionales adecuadas para su crecimiento permitirá su producción industrial y a bajo costo. En este trabajo se evaluó a nivel de matraz el efecto de la relación C/N, y la presencia de diferentes fuentes de carbono, nitrógeno y micronutrientes sobre la producción de biomasa. Empleando glucosa y peptona como fuentes de carbono y nitrógeno, respectivamente, se encontró una relación C/N óptima de 16,7:1 para la cual la máxima producción de biomasa fue de 25 g/L. Manteniendo esta relación C/N, y sustituyendo la glucosa por lactosa o harina de cebada y la peptona por extracto de levadura, la producción de biomasa se incrementó a 35 g/L. En presencia de harina de cebada la adición al medio de cultivo de sales de Mg y K, y de tiamina, no generó un mayor incremento en la producción de biomasa. La producción de biomasa de G. lucidum se ve favorecida por la presencia en el medio de cultivo de relaciones C/N cercanas a las reportadas conforme a la composición típica de los hongos, así como por la presencia de sustratos complejos como la harina de cebada que le aportan además de la fuente de carbono micronutrientes necesarios para su desarrollo.
Ganoderma lucidum fungus has some biomass components with beneficial health properties. The knowledge about its nutritionals requirements for growing will favor its industrial production at lower cost. In this work, the effect of C/N ratio, the presence of different carbon, nitrogen and micronutrients sources, on fungal biomass production, were evaluated. Using glucose and peptone as carbon and nitrogen sources, respectively, an optimal C/N ratio of 16,7:1 was found, for which the maximal biomass production was 25 g/L. Replacing glucose by lactose or barley flour and peptone by yeast extract at the same C/N ratio, the biomass production was enhanced to 35 g/L. With barley flour in the culture medium, the presence of Mg and K salts and thiamine did not turn out into a major increase of biomass. The G. lucidum biomass production is promoted by C/N ratios in the culture medium nearly equivalent to that found in the fungus, as well as the presence of complex substrates as barley flour which, additionally, contributes with important micronutrients along with the carbon source.