Applying the dark diversity concept to plants at the European scale
Large-scale biodiversity maps are essential to macroecology. However, between-region comparisons can be more useful if patterns of observed species richness are supplemented by variations in dark diversity – the absent portion of the species pool. We aim to quantify and map plant diversity across Eu...
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Veröffentlicht in: | Ecography (Copenhagen) 2015-10, Vol.38 (10), p.1015-1025 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Large-scale biodiversity maps are essential to macroecology. However, between-region comparisons can be more useful if patterns of observed species richness are supplemented by variations in dark diversity – the absent portion of the species pool. We aim to quantify and map plant diversity across Europe by using a measure that accounts for both observed and dark diversity. To do this we need to delimit suitable species pools, and evaluate the potential and limitation of a large-scale dataset. We used Atlas Florae Europaeae (ca 20% of European plant species mapped within 50 × 50 km grid cells) and defined for each grid cell several species pools by applying various geographical and environmental filters: geographic species pool (number of species within 500 km radius), biogeographic species pool (additionally incorporating species distribution patterns, i.e. dispersion fields), site-specific species pool (additionally integrating environmental preferences of species based on species co-occurrence). We integrated dark diversity and observed diversity at a relative scale to calculate the completeness of site diversity: logistic expression of observed and dark diversity. We tested whether our results are robust against regional variation in data availability. We used independent regional databases to test if Atlas Florae Europaeae is a representative subset of total species richness. Environmental filtering was the most influential determinant of species pool size with more species filtered out in southern Europe. Both observed and dark diversity adhered to the well-known latitudinal gradient, but completeness of site diversity varied throughout Europe with no latitudinal trend. Dark diversity patterns were fairly insensitive to variations in regional sampling intensity. Atlas Florae Europaeae represented well the total variation in plant diversity. In summary, dark diversity and completeness of site diversity add valuable information to broad-scale diversity patterns since observed diversity is expressed at a relative scale. |
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ISSN: | 0906-7590 1600-0587 |
DOI: | 10.1111/ecog.01236 |