Climate and soil attributes determine plant species turnover in global drylands

Ulrich, W; Soliveres, S; Maestre, FT; Gotelli, NJ; Quero, JL; Delgado-Baquerizo, M; Bowker, MA; Eldridge, DJ; Ochoa V.; Gozalo B.; Valencia E.; Berdugo, M; Escolar C.; Garcia-Gomez, M; Escudero, A.; et. al.

Keywords: soil fertility, latitudinal gradient, climatic variability, regression analysis, aridity, beta diversity, habitat filtering, global environmental change, plant community assembly, spatial soil heterogeneity

Abstract

AimGeographical, climatic and soil factors are major drivers of plant beta diversity, but their importance for dryland plant communities is poorly known. The aim of this study was to: (1) characterize patterns of beta diversity in global drylands; (2) detect common environmental drivers of beta diversity; and (3) test for thresholds in environmental conditions driving potential shifts in plant species composition. LocationGlobal. MethodsBeta diversity was quantified in 224 dryland plant communities from 22 geographical regions on all continents except Antarctica using four complementary measures: the percentage of singletons (species occurring at only one site); Whittaker's beta diversity, (W); a directional beta diversity metric based on the correlation in species occurrences among spatially contiguous sites, (R-2); and a multivariate abundance-based metric, (MV). We used linear modelling to quantify the relationships between these metrics of beta diversity and geographical, climatic and soil variables. ResultsSoil fertility and variability in temperature and rainfall, and to a lesser extent latitude, were the most important environmental predictors of beta diversity. Metrics related to species identity [percentage of singletons and (W)] were most sensitive to soil fertility, whereas those metrics related to environmental gradients and abundance [((R-2) and (MV)] were more associated with climate variability. Interactions among soil variables, climatic factors and plant cover were not important determinants of beta diversity. Sites receiving less than 178mm of annual rainfall differed sharply in species composition from more mesic sites (> 200mm). Main conclusionsSoil fertility and variability in temperature and rainfall are the most important environmental predictors of variation in plant beta diversity in global drylands. Our results suggest that those sites annually receiving c. 178mm of rainfall will be especially sensitive to future climate changes. These findings may help to define appropriate conservation strategies for mitigating effects of climate change on dryland vegetation.

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Título según WOS: Climate and soil attributes determine plant species turnover in global drylands
Título según SCOPUS: Climate and soil attributes determine plant species turnover in global drylands
Título de la Revista: JOURNAL OF BIOGEOGRAPHY
Volumen: 41
Número: 12
Editorial: Wiley
Fecha de publicación: 2014
Página de inicio: 2307
Página final: 2319
Idioma: English
DOI:

10.1111/jbi.12377

Notas: ISI, SCOPUS