Informace o publikaci

The nature of dispersal barriers and their impact on regional species pool richness and turnover

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NEKOLA Jeffrey Clark DIVÍŠEK Jan HORSÁK Michal

Rok publikování 2022
Druh Článek v odborném periodiku
Časopis / Zdroj Global ecology and biogeography
Fakulta / Pracoviště MU

Přírodovědecká fakulta

Citace
www https://doi.org/10.1111/geb.13517
Doi http://dx.doi.org/10.1111/geb.13517
Klíčová slova climate suitability modelling; dispersal limitation; distinctiveness; Holarctic; isolation barriers; terrestrial gastropods
Popis Aim: We document realized and potential global species ranges based on empirically vetted species concepts in conjunction with global climate databases and climate suitability modelling. From this we investigate the nature of dispersal barriers and illustrate how they generate ecological uniqueness. Location: Holarctic. Methods: Fifty-two small body-size (i.e. < 5 mm) land snail taxa within the genera Euconulus, Pupilia and Vertigo were considered. These represent similar to 10% of all small body-size Holarctic land snails and are among the most proficient known passive dispersers. Their potential climatic ranges were determined using Maxent modelling based on 9205 occurrence records. From these we inferred the location, width and nature of isolating barriers and tested for their effects on regional species pool richness and turnover. Results: Use of unvetted traditional taxonomic concepts and unverified occurrence records would have created up to threefold higher or lower estimates of species-specific climatic tolerances than the actual values. Modelling must thus only use high quality occurrence data. All but one taxon were shown at a global scale to possess multiple isolated areas of appropriate climate. While oceans represented the most common barrier (37%), intra-continental barriers were in total almost twice as frequent (inappropriate climate - 29%, habitat/history - 27% and the Greenland ice sheet - 7%). These barriers restricted taxa to only a subset of their potential range, with European taxa possessing approximately twice the global occupancy rates as North American ones (median scores of 62 vs. 34%). As a result, regional taxa pools were three times smaller than their potential sizes, with 50% change in composition occurring over similar to 2600-km distances. Main conclusions: Even for these readily dispersing taxa, isolation barriers prevented species from saturating their potential global range, reduced the size of regional species pools by 2/3, and generated ecological uniqueness between them.
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