Effects of land-use change on productivity depend on small-scale plant species diversity

Understanding the interplay between land-use change, species diversity and ecosystem function is critical for the prediction of global change impacts on ecosystem services. Biodiversity experiments with artificial species assemblages have shown that community-scale species richness may affect ecosys...

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Bibliographic Details
Published in:Basic and applied ecology 2009-01, Vol.10 (8), p.687-696
Main Authors: Gross, Nicolas, Bloor, Juliette M.G., Louault, Frédérique, Maire, Vincent, Soussana, Jean-François
Format: Article
Language:English
Subjects:
Above-ground biomass production
Biodiversity effect
Fertilisation
Grasslands
Intensification
Land use
Life Sciences
Mowing
Spatial stability
Species richness
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Summary:Understanding the interplay between land-use change, species diversity and ecosystem function is critical for the prediction of global change impacts on ecosystem services. Biodiversity experiments with artificial species assemblages have shown that community-scale species richness may affect ecosystem productivity and spatial stability. However, the use of synthetic communities with controlled levels of species density for biodiversity experiments has been criticised and their relevance for natural communities has been questioned. Here, we use a land-use change experiment to investigate the biodiversity effects on production within managed, upland grasslands. We examine species diversity and productivity at both the small plant-neighbourhood scale (14×14 cm) and the field scale (15 m×25 m) for two land-use trajectories under field conditions: intensification through fertilisation, and extensification through the cessation of mowing. Both intensification and extensification were associated with a decrease in species number, but the magnitude of this decrease was greater at the small scale. Extensification was associated with a decrease in small-scale productivity whereas intensification had no significant effect on small-scale productivity. Effects of land-use treatments on biomass production were mediated by variation in small-scale species number; species number showed a significant positive relationship with small-scale productivity within each land-use treatment. Furthermore, species number was associated with a decrease in the variance of small-scale green biomass. In contrast, no species diversity effects were found on productivity at the field scale. Instead, field-scale species diversity decreased with increase in the total above-ground biomass (green biomass+litter). This study demonstrates that biodiversity effects can be observed under field conditions at the small scale and may play an important role for ecosystem functioning and stability even in low-diversity plant communities. Ein Verständnis der Zusammenhänge zwischen veränderter Landnutzung, Artendiversität und Ökosystemfunktionen ist entscheidend für die Vorhersage des Einflusses der globalen Veränderungen auf die Ökosystemleistungen. Biodiversitätsexperimente mit künstlichen Artenzusammensetzungen haben gezeigt, dass der Artenreichtum auf der Lebensgemeinschaftsebene die Produktivität und räumliche Stabilität von Ökosystemen beeinflussen kann. Der Gebrauch von synthetischen Lebensgemeins
ISSN:1439-1791
DOI:10.1016/j.baae.2009.09.001