Abstract
AbstractAimKnowledge concerning species distribution is important for biodiversity conservation and environmental management. Fungi form a large and diverse group of species and play a key role in nutrient cycling and carbon storage. However, our understanding of fungal diversity and distribution remains limited, particularly at large spatial scales. Here, we predicted the diversity and distribution of ectomycorrhizal and saprotrophic macrofungi at relatively fine spatial resolution at a continental scale and examined the importance of variables that affect the distribution of these two functional groups.LocationEurope.Time period1990–2018.Major taxa studiedMacrofungi.MethodsFrom observations of 1,845 macrofungal species, we predicted the diversity and distribution of two functional groups of macrofungi at a resolution of 5 km across eight European countries based on 25 environmental variables using the MaxEnt model. We determined the importance of variables that affect the distribution of these two functional groups of macrofungi using the built‐in jackknife test in the model.ResultsAnalysis of the modelling results showed that eastern Denmark and southern Sweden are biodiversity hotspots for both functional groups of macrofungal species. Tree species and human disturbance (i.e., the human footprint index) were found to be the two most important predictor variables explaining the distribution of ectomycorrhizal and saprotrophic macrofungi.Main conclusionsOverall, our study demonstrates that tree species and human disturbance have played a more important role than climatic factors in determining the diversity and distribution of macrofungi at the continental scale. Our study suggests that fungal diversity and distribution might change considerably if the strongest predictors (i.e., tree species) were to be affected by climate change and/or human activity. Changes in fungal diversity might, in turn, influence other processes, because fungi are important in driving ecosystem processes, such as nutrient and carbon cycling.
Highlights
The measurement and understanding of species diversity and distribution forms a central topic in ecology and biogeography (Gaston, 2000)
Given that our study focused on two nutritional modes, we compiled checklists of nutritional mode at the species level based on the database published by Andrew, Heegaard, et al (2018), Sánchez-García et al (2020) and Nguyen et al (2016), in addition to genus-level databases published by Rinaldi et al (2008) and Tedersoo and Smith (2013)
We found that tree species and human disturbance appeared to be more important than climatic variables in influencing the diversity and distribution of macrofungi in Europe
Summary
The measurement and understanding of species diversity and distribution forms a central topic in ecology and biogeography (Gaston, 2000). Saprotrophic fungi are fungi that use non-living organic matter, such as dead plants and animals; they are decomposers in the ecosystem These saprotrophic fungi can release nutrients and energy stored in dead organisms, supporting the crucial process of nutrient cycling and partaking in the global carbon cycle (Dighton, 2016). Many macrofungal species form a food source for humans and wild animals, contributing to human welfare directly and indirectly (Boa, 2004) Despite their essential roles, the distribution pattern of macrofungi has rarely been explored in macroecology, and our knowledge of factors determining their distribution remains limited
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