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1. Two contrasting disturbance regimes-wildfire and clear-cutting-are common in boreal forests and create fundamentally different conditions for succession of wood-inhabiting fungi. We investigated (i) how species richness and community composition change after these two disturbances and (ii) which stand-level characteristics drive diversity trajectories.2. In two chronosequences-managed clear-cut (1-109 years since clear-cut; n = 18) and unmanaged fire (4-375 years since fire; n = 18)-we combined fruiting-body surveys with DNA metabarcoding to quantify species richness of wood-inhabiting fungi, including total number of species, Agaricomycete and red-listed species. To identify drivers, we measured deadwood attributes and forest structural complexity using terrestrial laser scanning.3. Species richness, including red-listed species, was highest in unmanaged fire stands. Unmanaged fire stands had similar to 55 more total species than managed clear-cut stands at comparable time since disturbance (<= 109 years), and similar to 156 more species in stands >109 years. Communities differed markedly between chronosequence types. Managed clear-cut stands harboured a subset of species found in unmanaged fire stands, and nearly all red-listed and indicator species were exclusive to unmanaged fire stands. Total and Agaricomycete species richness increased with time in both chronosequences without saturating. Red-listed species richness remained low and did not increase with time in managed clear-cut stands, but was higher and increased with time in unmanaged fire stands. Conditional random forest models identified spruce deadwood percentage, deadwood volume, and forest structural complexity as dominant diversity drivers, with deadwood quality replacing forest structure as the best predictor for red-listed species. Species richness rose steadily with deadwood volume, levelling at similar to 50 m(3) ha(-1) for total species and >100 m(3) ha(-1) for red-listed species.4. Synthesis. Clear-cutting altered fungal recovery trajectories differently from fire. While fires leave standing and fallen dead trees that host fungal communities for centuries, clear-cutting removes these legacies and simplifies forest structure, resulting in a lack of recovery of red-listed species. These contrasting disturbance pathways shape boreal fungal communities through their effects on deadwood and structural continuity. Retaining high deadwood volumes and structural complexity can help maintain fungal diversity in managed forests; however, maintaining old-growth stands is essential for conserving highly diverse communities and red-listed species.

Nyckelord

biodiversity; boreal forests; chronosequence; coarse woody debris; forest management; global change; wildfire; wood-decaying fungi

Publicerad i

Journal of Ecology
2026, volym: 114, nummer: 3, artikelnummer: e70296

SLU författare

UKÄ forskningsämne

Ekologi

Publikationens identifierare

  • DOI: https://doi.org/10.1111/1365-2745.70296

Permanent länk till denna sida (URI)

https://res.slu.se/id/publ/146619