AI Article Synopsis
- Succession on dead wood and its relationship to environmental factors, particularly canopy cover, is less studied compared to terrestrial plant communities.
- A real-world experiment revealed that while fungal diversity initially increases, it decreases later in succession, with a more pronounced decline in open canopies, albeit similar diversity trends across treatments.
- The study found that species associated with either canopy type were fewer and less widespread, indicating that the fungal community on dead wood exhibits resilience to canopy loss in temperate forests.
Article Abstract
While the succession of terrestrial plant communities is well studied, less is known about succession on dead wood, especially how it is affected by environmental factors. While temperate forests face increasing canopy mortality, which causes considerable changes in microclimates, it remains unclear how canopy openness affects fungal succession. Here, we used a large real-world experiment to study the effect of closed and opened canopy on treatment-based alpha and beta fungal fruiting diversity. We found increasing diversity in early and decreasing diversity at later stages of succession under both canopies, with a stronger decrease under open canopies. However, the slopes of the diversity versus time relationships did not differ significantly between canopy treatments. The community dissimilarity remained mainly stable between canopies at ca. 25% of species exclusively associated with either canopy treatment. Species exclusive in either canopy treatment showed very low number of occupied objects compared to species occurring in both treatments. Our study showed that canopy loss subtly affected fungal fruiting succession on dead wood, suggesting that most species in the local species pool are specialized or can tolerate variable conditions. Our study indicates that the fruiting of the fungal community on dead wood is resilient against the predicted increase in canopy loss in temperate forests.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11245472 | PMC |
| http://dx.doi.org/10.1038/s41598-024-67216-1 | DOI Listing |
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