1 |
Wood-water relationships and their role for wood susceptibility to fungal decay Brischke C, Alfredsen G Applied Microbiology and Biotechnology, 104(9), 3781, 2020 |
2 |
Cationic gemini compounds with antifungal activity and wood preservation potentiality Murguia MC, Machuca LM, Fernandez ME Journal of Industrial and Engineering Chemistry, 72, 170, 2019 |
3 |
Exploring the bioprospecting and biotechnological potential of white-rot and anaerobic Neocallimastigomycota fungi: peptidases, esterases, and lignocellulolytic enzymes da Silva RR, Pedezzi R, Souto TB Applied Microbiology and Biotechnology, 101(8), 3089, 2017 |
4 |
Two-stage fungal biopulping for improved enzymatic hydrolysis of wood Giles RL, Galloway ER, Elliott GD, Parrow MW Bioresource Technology, 102(17), 8011, 2011 |
5 |
Modelling the effect of temperature, water activity and pH on the growth of Serpula lacrymans Maurice S, Coroller L, Debaets S, Vasseur V, Le Floch G, Barbier G Journal of Applied Microbiology, 111(6), 1436, 2011 |
6 |
Evaluation of antifungal properties of octyl gallate and its synergy with cinnamaldehyde Hsu FL, Chang HT, Chang ST Bioresource Technology, 98(4), 734, 2007 |
7 |
Reactive oxygen species as agents of wood decay by fungi Hammel KE, Kapich AN, Jensen KA, Ryan ZC Enzyme and Microbial Technology, 30(4), 445, 2002 |
8 |
Production of metal chelating compounds by white and brown-rot fungi and their comparative abilities for pulp bleaching Milagres AMF, Arantes V, Medeiros CL, Machuca A Enzyme and Microbial Technology, 30(4), 562, 2002 |
9 |
The wood preservative potentials of heartwood extracts of Milicia excelsa and Erythrophleum suaveolens Onuorah EO Bioresource Technology, 75(2), 171, 2000 |