Aim The former continental-scale studies modelled coarse-grained plant species-richness patterns (gamma diversity). Here we aim to refine this information for European forests by (a) modelling the number of vascular plant species that co-occur in local communities (alpha diversity) within spatial units of 400 m(2); and (b) assessing the factors likely determining the observed spatial patterns in alpha diversity. Location Europe roughly within 12 degrees W-30 degrees E and 35-60 degrees N. Taxon Vascular plants. Methods The numbers of co-occurring vascular plant species were counted in 73,134 georeferenced vegetation plots. Each plot was classified by an expert system into deciduous broadleaf, coniferous or sclerophyllous forest. Random Forest models were used to map and explain spatial patterns in alpha diversity for each forest type separately using 19 environmental, land-use and historical variables. Results Our models explained from 51.0% to 70.9% of the variation in forest alpha diversity. The modelled alpha-diversity pattern was dominated by a marked gradient from species-poor north-western to species-rich south-eastern Europe. The most prominent richness hotspots were identified in the Calcareous Alps and adjacent north-western Dinarides, the Carpathian foothills in Romania and the Western Carpathians in Slovakia. Energy-related factors, bedrock types and terrain ruggedness were identified as the main variables underlying the observed richness patterns. Alpha diversity increases especially with temperature seasonality in deciduous broadleaf forests, on limestone bedrock in coniferous forests and in areas with low annual actual evapotranspiration in sclerophyllous forests. Main conclusions We provide the first predictive maps and analyses of environmental factors driving the alpha diversity of vascular plants across European forests. Such information is important for the general understanding of European biodiversity. This study also demonstrates a high potential of vegetation-plot databases as sources for robust estimation of the number of vascular plant species that co-occur at fine spatial grains across large areas.
1.Masaryk Univ, Dept Bot & Zool, Brno, Czech Republic 2.Masaryk Univ, Dept Geog, Brno, Czech Republic 3.Jules Verne Univ Picardie, UMR UR Ecol & Dynam Syst Anthropises 7058, CNRS, EDYSAN,UPJV, Amiens, France 4.Univ Oviedo, Res Unit Biodivers, CSIC, PA, Mieres, Spain 5.Univ Basque Country, UPV EHU, Dept Plant Biol & Ecol, Bilbao, Spain 6.Sapienza Univ Rome, Dept Environm Biol, Rome, Italy 7.Slovenian Acad Sci & Arts, Res Ctr, Jovan Hadzi Inst Biol, Ljubljana, Slovenia 8.Univ Castilla La Mancha, Inst Environm Sci, Toledo, Spain 9.Univ Novi Sad, Dept Biol & Ecol, Novi Sad, Serbia 10.Univ Patras, Lab Bot, Dept Biol, Patras, Greece 11.Weihenstephan Triesdorf Univ Appl Sci, Fac Forestry, Freising Weihenstephan, Germany 12.Univ Lorraine, AgroParisTech, INRA, Nancy, France 13.Transilvania Univ Brasow, Dept Silviculture, Brasov, Romania 14.Martin Luther Univ Halle Wittenberg, Dept Geobot & Bot Garden, Halle, Germany 15.German Ctr Integrat Biodivers Res iDiv, Leipzig, Germany 16.Univ Rostock, Fac Agr & Environm Sci, Rostock, Germany 17.Univ Wroclaw, Wroclaw, Poland 18.Nat Res Ctr, Inst Bot, Lab Flora & Geobot, Vilnius, Lithuania 19.Wageningen Environm Res, Wageningen, Netherlands 20.Aarhus Univ, Dept Biosci, Ctr Biodivers Dynam Changing World, Aarhus, Denmark 21.Aarhus Univ, Dept Biosci, Sect Ecoinformat & Biodivers, Aarhus, Denmark 22.Bulgarian Acad Sci, Inst Biodivers & Ecosyst Res, Sofia, Bulgaria 23.Univ Perugia, Dept Chem Biol & Biotechnol, Perugia, Italy 24.Univ Vienna, Dept Bot & Biodivers Res, Vienna, Austria 25.Vienna Inst Nat Conservat & Analyses, Vienna, Austria 26.Swiss Fed Inst Forest Snow & Landscape Res WSL, Forest Dynam Res Unit, Birmensdorf, Switzerland
Recommended Citation:
Vecera, Martin,Divisek, Jan,Lenoir, Jonathan,et al. Alpha diversity of vascular plants in European forests[J]. JOURNAL OF BIOGEOGRAPHY,2019-01-01,46(9):1919-1935