Abstract
1. Dark diversity represents the set of species that can potentially inhabit a given area under particular ecological conditions, but are currently ‘missing’ from a site. This concept allows characterisation of the mechanisms determining why species are sometimes absent from an area that seems ecologically suitable for them.2. The aim of this study was to determine the dark diversity of hoverflies in south‐eastern Europe and to discuss the role of different functional traits that might increase the likelihood of species contributing to dark diversity. Based on expert opinion, the Syrph the Net database and known occurrences of species, the study estimated species pools, and observed and dark diversities within each of 11 defined vegetation types for 564 hoverfly species registered in south‐eastern Europe. To detect the most important functional traits contributing to species being in dark diversity across different vegetation types, a random forest algorithm and respective statistics for variable importance were used.3. The highest dark diversity was found for southwest Balkan sub‐Mediterranean mixed oak forest type, whereas the lowest was in Mediterranean mixed forest type. Three larval feeding modes (saproxylic, and phytophagous on bulbs or roots) were found to be most important for determining the probability of a species contributing to hoverfly dark diversity, based on univariate correlations and random forest analysis.4. This study shows that studying dark diversity might provide important insights into what drives community assembly in south‐eastern European hoverflies, especially its missing components, and contributes to more precise conservation prioritisation of both hoverfly species and their habitats.
Highlights
In order to understand and try to alleviate the negative consequences of biodiversity loss, detailed information on different aspects of biodiversity is essential (Hooper et al, 2005; Barton &Evans, 2017)
Based on known occurrence records of hoverflies in SE Europe, the Syrph the Net (StN) database (Speight et al, 2015), and expert opinion, we aim to assess the dark diversity of hoverflies in this region, as well as discuss the role of different functional traits in explaining the patterns of dark diversity
Mediterranean vegetation class could be responsible for the high dark diversity of hoverflies we report for this class
Summary
In order to understand and try to alleviate the negative consequences of biodiversity loss, detailed information on different aspects of biodiversity is essential (Hooper et al, 2005; Barton &Evans, 2017). Recent findings (Pärtel, 2011, 2014; Lewis et al, 2017) have shown that so-called ‘dark diversity’ could reveal new biodiversity patterns that would not be evident from investigating only observed diversity (Ronk et al., 2015). In order to examine dark diversity of a target site, the habitat-specific species pool must be established, i.e. the set of species that can inhabit a given area under designated ecological conditions (Cornell & Harrison 2014; Zobel, 2016). The species that are not recorded at a particular site, but that belong to its species pool and could potentially co-occur in the site given its biotic, abiotic processes and dispersal limitations, constitute the dark diversity of that site (Pärtel et al, 2011). Total observed diversity consists of species that belong to the habitatspecific species pool, it comprises species that are currently present in a particular community but are not part of the pool
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
