Metabolic activities and ultrastructure imaging at late-stage of wood decomposition in interactive brown rot - white rot fungal combinations

Tuulia Mali, Tiina Anna Karoliina Laine, Leena Hamberg, Taina Lundell

Research output: Contribution to journalArticleScientificpeer-review

Abstract

Basidiomycota brown rot fungus (Fomitopsis pinicola) and two white rot fungi (Phlebia radiata, Trichaptum abietinum) were cultivated on thin slices of spruce wood individually and in interspecies combinations. Within 12 months, F. pinicola substantially decomposed spruce wood observed as mass loss, also in three-species combinations. However, white rot fungi through hyphal interactions negatively affected the brown-rot indicative iron reduction capacity of F. pinicola. Decay-signature gene expression in mycelial interaction zones indicated suppression of brown rot mechanism but stimulation of enzymatic white-rot lignin attack by P. radiata. Wood ultrastructure imaging showed white-rot dominance in the fungal combinations, whereas destructive brown-rot was evident with F. pinicola alone. Our results confirm the dynamic pattern of enzyme production in fungal combinations, and transition from brown to white rot decomposition metabolism during the late stage of wood decay after one year of interspecific interactions.

Original languageEnglish
Article number101199
JournalFungal Ecology
Volume61
Number of pages12
ISSN1878-0083
DOIs
Publication statusPublished - Feb 2023
MoE publication typeA1 Journal article-refereed

Fields of Science

  • 11832 Microbiology and virology
  • Mycology
  • Fungal biology
  • Fungal ecology
  • Basidiomycota
  • Interspecific interactions
  • Iron reduction
  • Oxalic acid
  • Enzyme activity
  • Laccase
  • Manganese peroxidase
  • Wood biodegradation
  • White rot
  • Brown rot
  • PHANEROCHAETE-CHRYSOSPORIUM
  • OXALATE DECARBOXYLASE
  • MANGANESE PEROXIDASE
  • LIGNIN DEGRADATION
  • ENCODING GENES
  • DECAY
  • BASIDIOMYCETE
  • REVEALS
  • TRANSCRIPTION
  • BIOCONVERSION

Cite this