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Fakultät für Biologie, Chemie und Geowissenschaften

Lehrstuhl Pflanzenökologie - Prof. Dr. Steven Higgins

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Dengler, J; Biurrun, I; Apostolova, I; Baumann, E; Becker, T; Berastegi, A; Boch, S; Cancellieri, L; Dembicz, I; Didukh, YP; Dolnik, C; Ermakov, N; Filibeck, G; Garcia-Mijangos, I; del Galdo, GG; Guarino, R; Janišová, M; Jaunatre, R; Jensen, K; Jeschke, M; Kącki, Z; Kozub, Ł; Kuzemko, AA; Löbel, S; Pedashenko, H; Polyakova, MA; Ruprecht, E; Szabó, A; Vassilev, K; Velev, N; Weiser, F: Scale-dependent plant diversity in Palaearctic grasslands: a comparative overview, Bulletin of the Eurasian Dry Grassland Group, 31, 12-26 (2016) [Link]
Stichworte: lpha diversity; biodiversity; bryophyte; Europe; lichen; Palaearctic biogeographic realm; scale dependence; semi-natural grassland; species-area relationship (SAR); species richness; steppe; world record
Abstract:
Abstract: Here we present an extensive overview of plant diversity values in Palaearctic grasslands for seven standard grain sizes from 0.0001 to 100 m2. The data originate from 20 studies, including the Field Workshops of the Eurasian Dry Grassland Group (EDGG), ranging geographically from Spain in the west to Siberia in the east, from Sicily in the south to Estonia in the north and from the sea coast up to 3100 m a.s.l. The majority of data is from dry grasslands (Festuco-Brometea, Koelerio-Corynephoretea, Cleistogenetea squarrosae), but there are also some mesic, wet, saline, acidic, alpine and Mediterranean grasslands included. Among others, we compiled data from 1795 1-m2, 1109 10-m2 and 338 100-m2 plots. In all cases we present mean, minimum and maximum richness for the seven grain sizes, plus, in cases where also terricolous bryophytes and lichens had been recorded, the same values for total “plant” species richness, non-vascular plant species richness and fraction of non-vascular plants. The maximum richness values were 82, 101 and 134 for all “plants”, and 79, 98 and 127 vascular plants at grain sizes of 1 m2, 10 m2 and 100 m2, respectively (all in Transylvania, Romania). Our overview comprises new, hitherto unpublished world records of vascular plant species richness at the scales of 0.0001 m2 (9) and 0.001 m2 (19, both shoot presence), from meso-xeric, basiphilous grasslands in Navarre, Spain, which is much higher than the previously known maxima. The highest values of non-vascular plant richness at 1 m2, 10 m2 and 100 m2, respectively, were 49, 64 and 64, respectively (all in Sedo-Scleranthenea communities of Öland, Sweden, and Saaremaa, Estonia). In general, the dry, alpine and Mediterranean grasslands were much richer than the studied mesic, wet or saline grasslands at any spatial scale. The presented set of mean, minimum and maximum values and their metadata is publically available and will be continuously updated. These data can serve as a reference of “normal” richness, both in fundamental and applied research. To facilitate the application, we provide an easy formula based on the power-law species-area relationship that allows the estimation of richness values at intermediate grain sizes not included in our dataset. In conclusion, our data emphasise the role of Palaearctic grasslands as global hotspot of small-scale vascular plant diversity, while at the same time highlighting that in some grassland types also the bryophyte and lichen diversity can be extraordinarily high.
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