Fine-grain beta diversity in Palaearctic open vegetation: variability within and between biomes and vegetation types - Archive ouverte HAL
Article Dans Une Revue Vegetation Classification and Survey Année : 2021

Fine-grain beta diversity in Palaearctic open vegetation: variability within and between biomes and vegetation types

Iwona Dembicz
  • Fonction : Auteur
Thomas Matthews
  • Fonction : Auteur
Jiri Dolezal
Itziar García-Mijangos
  • Fonction : Auteur
Anna Kuzemko
Alireza Naqinezhad
Jalil Noroozi
Robert Peet
Massimo Terzi

Résumé

Aims : To quantify how fine-grain (within-plot) beta diversity differs among biomes and vegetation types. Study area : Palaearctic biogeographic realm. Methods : We extracted 4,654 nested-plot series with at least four different grain sizes between 0.0001 m² and 1,024 m² from the GrassPlot database spanning broad geographic and ecological gradients. Next, we calculated the slope parameter ( z -value) of the power-law species–area relationship (SAR) to use as a measure of multiplicative beta diversity. We did this separately for vascular plants, bryophytes and lichens and for the three groups combined (complete vegetation). We then tested whether z -values differed between biomes, ecological-physiognomic vegetation types at coarse and fine levels and phytosociological classes. Results : We found that z -values varied significantly among biomes and vegetation types. The explanatory power of area for species richness was highest for vascular plants, followed by complete vegetation, bryophytes and lichens. Within each species group, the explained variance increased with typological resolution. In vascular plants, adjusted R 2 was 0.14 for biomes, but reached 0.50 for phytosociological classes. Among the biomes, mean z -values were particularly high in the Subtropics with winter rain (Mediterranean biome) and the Dry tropics and subtropics. Natural grasslands had higher z -values than secondary grasslands. Alpine and Mediterranean vegetation types had particularly high z -values whereas managed grasslands with benign soil and climate conditions and saline communities were characterised by particularly low z -values. Conclusions : In this study relating fine-grain beta diversity to typological units, we found distinct patterns. As we explain in a conceptual figure, these can be related to ultimate drivers, such as productivity, stress and disturbance, which can influence z -values via multiple pathways. The provided means, medians and quantiles of z -values for a wide range of typological entities provide benchmarks for local to continental studies, while calling for additional data from under-represented units. Syntaxonomic references : Mucina et al. (2016) for classes occurring in Europe; Ermakov (2012) for classes restricted to Asia. Abbreviations : ANOVA = analysis of variance; EDGG = Eurasian Dry Grassland Group; SAR = species-area relationship.

Dates et versions

hal-03533836 , version 1 (19-01-2022)

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Citer

Iwona Dembicz, Jürgen Dengler, François Gillet, Thomas Matthews, Manuel Steinbauer, et al.. Fine-grain beta diversity in Palaearctic open vegetation: variability within and between biomes and vegetation types. Vegetation Classification and Survey, 2021, 2, pp.293-304. ⟨10.3897/VCS/2021/77193⟩. ⟨hal-03533836⟩
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