Table 3.
Laccase application for the valorization of agro-wastes.
| LC Origin | Application | Results | Reference |
|---|---|---|---|
| Trichoderma asperellum | Pretreatment of sweet sorghum stover for biohydrogen production | Removal of up to 77% of lignin; 3.26-fold increase in biohydrogen production. | [136] |
| Pleurotus ostreatus | Pretreatment of apple pomace, potato peels, and coffee silverskin for energy production | Up to 83% saccharification yields and ∼70% phenol reduction using 2.5% vanillin as redox mediator | [137] |
| P. djamor | Valorization of pineapple leaf waste for biofuel production | Removal of up to 78.57% of lignin, 2.6-fold increase in reducing sugars | [138] |
| P. djamor | Pretreatment of sugarcane tops | Decrease of up to 79.1% of lignin content; increase of 3.3 fold in fermentable sugars | [139] |
| Pycnoporus cinnabarinus | Valorization of sugarcane bagasse for energy production | Decrease of up to 27% of lignin content; increase of 39% of glucose release | [140] |
| Valorization of straw for energy production | Decrease of up to 31% of lignin content; increase of 46% of glucose release | ||
| Trametes maxima | Pretreatment of jute sticks for energy production | Decrease of up to 21.8% of lignin content; increase of 19.5% of glucose release using 5% HBT as redox mediator | [141] |
| Lentinus squarrosulus MR13 | Pretreatment of kans grass (Saccharum spontaneum) | Decrease of up to 87.8% of lignin content; increase of 9% of bioethanol production | [142] |
| Decrease of up to 81.2% of lignin content; production of up to 500 mg/g of fermentable sugars | [143] | ||
| T. versicolor | Pretreatment of coffee bean processing waste for composting | Increase in total plate count values | [144] |