The interplay between plant-plant interactions and vegetation type drives spatial vegetation patterns in global drylands

The spatial configuration of vascular vegetation has been linked to variations in land degradation and ecosystem functioning in drylands. However, most studies on spatial patterns conducted to date have focused on a single or a few study sites within a particular region, specific vegetation types, o...

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Bibliographic Details
Published in:Ecography
Main Authors: Berdugo, Miguel, Soliveres, Santiago, Kéfi, Sonia, Maestre, Fernando T.
Format: Article in Journal/Newspaper
Language:English
Published: Zenodo 2018
Subjects:
Aridity
functional traits
grasslands
patch-size distributions
regular patterns
shrublands
spatial patterns
Antarc*
Antarctica
Online Access:https://doi.org/10.1111/ecog.03795
Description
Summary:The spatial configuration of vascular vegetation has been linked to variations in land degradation and ecosystem functioning in drylands. However, most studies on spatial patterns conducted to date have focused on a single or a few study sites within a particular region, specific vegetation types, or in landscapes characterized by a certain type of spatial patterns. Therefore, little is known on the general typology and distribution of plant spatial patterns in drylands worldwide, and on the relative importance of biotic and abiotic factors as predictors of their variations across geographical regions and habitat types. We analyzed 115 dryland plant communities from all continents except Antarctica to: i) investigate the general typology of spatial patterns, and ii) assess the relative importance of biotic (plant cover, frequency of facilitation, soil amelioration, height of the dominant species) and abiotic (aridity, rainfall seasonality and sand content) factors as predictors of spatial patterns. We considered median patch size, shape of patch-size distribution and regularity as the attributes of the spatial patterns, measuring those in two contrasting habitat types (shrublands and grasslands). Precipitation during the warmest period and sand content were particularly strong predictors of plant spatial patterns in grasslands and shrublands, respectively. Facilitation was associated with power-law like and irregular spatial patterns in both shrublands and grasslands, although this association was mediated by different mechanisms (soil ammelioration and percentage of facilitated species, respectively). The importance of biotic attributes as predictors of the shape of patch-size distributions declined with aridity in both habitats, leading to the emergence of more regular patterns under the most arid conditions. Our results expand our knowledge about patch formation in drylands and the habitat-dependency of their drivers. They also highlight different ways in which facilitation affects ecosystem structure through ...

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