Landscape pattern and plant biodiversity in Mediterranean coastal dune ecosystems: Do habitat loss and fragmentation really matter?

Aim Habitat fragmentation and loss are two of the most important factors driving current biodiversity decline. Nonetheless, the relationship between biodiversity and landscape patterns appears more complex than generally expected, depending on the species and communities involved. We aim to enrich knowledge concerning the relationship between plant diversity and landscape patterns along linear landscapes, such as Mediterranean coastal dunes. A dedicated buffering method considering multiple nested extents was developed for sampling linear landscapes (e.g. coastal or fluvial), which traditionally present a challenge for standard round or square sampling buffering approaches. Location Tyrrhenian coast of central Italy. Methods Based on a database of plant community plots and functional traits from field measurements, for each plot we calculated taxonomic ( TD ) and functional ( FD ) diversity, which was further decomposed in functional evenness ( FD even ) and mean trait dispersion ( FD disp ). Relying on a land‐cover map, we computed a set of landscape metrics describing habitat loss, fragmentation and direct human disturbance at multiple extents around each plot. Diversity measures ( TD , FD , FD even and FD disp ) were then related to the landscape metrics at different scales via linear mixed‐effect models. Results Overall, the relationship between plant species diversity and landscape patterns was weak. We observed different responses of TD , FD , FD even and FD disp , which only emerged at fine‐medium scales. TD decreased with habitat loss and disturbance, while FD only with disturbance. FD even decreased in more fragmented areas, while FD disp was not affected by the selected landscape parameters. Main conclusions Like other transitional areas, coastal strand and dune ecosystems exhibit steep gradients in biotic and environmental factors, are dynamic in location, and could be among the earliest to be affected by environmental drivers. However, the response of Mediterranean coastal dune plant diversity to habitat loss and fragmentation is weak. For these reasons, we propose that these plant communities are adapted to the ever‐changing nature of the coastal environment and consequently to changes in landscape pattern.