Add to ORKGThree white-rot fungi: Daedalea elegans, Polyporus giganteus, and Lenzites betulina were screened for their lignin degrading abilities on rice straw, maizecob, sawdust of Terminalia superba, and sugarcane bagasse at different time intervals (30, 60, and 90 days). All the fungi demonstrated varying levels of ligninolytic capability with different degrees of lignin degradation in all the fermented substrates. A significant difference (p<0.05) was observed in the mycelia extension of Daedalea elegans grown on the different agro-industrial wastes. D. elegans gave maximum extension of 4.5 cm on sugarcane bagasse. The highest lignin reduction of 92.9% (p<0.05) was recorded in maize cob fermented with Daedalea elegans after 90 days. On the basis o...
Locally isolated fungus, Neurospora discreta, was evaluated for its ability to degrade lignin in two...
Wood-rotting fungi represent an important component of forest ecosystems. Among them, white-rot fung...
Degradation of agricultural residues from palm oil industry is increasing due to its expansion. Lign...
Increased disposal costs in many parts of the world due to increasing population have increased inte...
<p>Agricultural wastes have attractive potential as alternate energy sources. However, a major bottl...
This paper reports the result of an experiment on the treatment of different forestry wastes, i.e., ...
This paper reports the result of an experiment on the treatment of different forestry wastes, i.e., ...
Lignocellulose is the most abundant natural polymer on earth. It isthe main agro-industrial waste co...
An investigation has been carried out to explore the lignin-degrading ability of white rot fungi, as...
Abstract: Corn cob is agricultural waste containing approximately 76 % holocellulose (cellulose and ...
Lignocellulosic materials consist of lignin walls and cellulose fibrils that are bounded into lignin...
Three white rot fungi (Lenzites betulinus, Trametes orientalis, and Trametes velutina) as well as th...
Enzymatic delignification of agro-wastes using Phanerochaete chrysosporium-IBL-03, a White Rot Fungu...
White rot fungi can be used as a pretreatment of biomass to degrade lignin. It also alters the struc...
In order to check the rate of biological degradation and biochemical changes of bagasse by saprophyt...
Locally isolated fungus, Neurospora discreta, was evaluated for its ability to degrade lignin in two...
Wood-rotting fungi represent an important component of forest ecosystems. Among them, white-rot fung...
Degradation of agricultural residues from palm oil industry is increasing due to its expansion. Lign...
Increased disposal costs in many parts of the world due to increasing population have increased inte...
<p>Agricultural wastes have attractive potential as alternate energy sources. However, a major bottl...
This paper reports the result of an experiment on the treatment of different forestry wastes, i.e., ...
This paper reports the result of an experiment on the treatment of different forestry wastes, i.e., ...
Lignocellulose is the most abundant natural polymer on earth. It isthe main agro-industrial waste co...
An investigation has been carried out to explore the lignin-degrading ability of white rot fungi, as...
Abstract: Corn cob is agricultural waste containing approximately 76 % holocellulose (cellulose and ...
Lignocellulosic materials consist of lignin walls and cellulose fibrils that are bounded into lignin...
Three white rot fungi (Lenzites betulinus, Trametes orientalis, and Trametes velutina) as well as th...
Enzymatic delignification of agro-wastes using Phanerochaete chrysosporium-IBL-03, a White Rot Fungu...
White rot fungi can be used as a pretreatment of biomass to degrade lignin. It also alters the struc...
In order to check the rate of biological degradation and biochemical changes of bagasse by saprophyt...
Locally isolated fungus, Neurospora discreta, was evaluated for its ability to degrade lignin in two...
Wood-rotting fungi represent an important component of forest ecosystems. Among them, white-rot fung...
Degradation of agricultural residues from palm oil industry is increasing due to its expansion. Lign...