Biodiversity-ecosystem functioning relationships in a long-term non-weeded field experiment

Biodiversity-ecosystem functioning relationships in a long-term non-weeded field experiment

Many grassland biodiversity experiments show a positive relationship between biodiversity and ecosystem functioning, however, in most of these experiments plant communities are established by sowing and natural colonization is prevented by selective weeding of non-sown species. During ecosystem rest...

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Bibliographic Details
Published in:Ecology (Durham) Vol. 99; no. 8; pp. 1836 - 1846
Main Authors: Veen, G. F., van der Putten, Wim H., Bezemer, T. Martijn
Format: Journal Article
Language:English
Published: United States John Wiley and Sons, Inc 01-08-2018
Ecological Society of America
Subjects:
Biodiversity
Biomass
Colonization
Composition effects
diversity–productivity
diversity–stability
Ecological function
Ecological succession
Ecosystem
ecosystem functioning
Ecosystem restoration
Ecosystems
Environmental restoration
Flowers & plants
functional divergence
functional richness
grassland
Grasslands
Introduced species
long-term
Plant communities
Plant diversity
Plant Physiological Phenomena
Plant species introduction
Plants
Species composition
Species diversity
Stability
Taxonomy
Weeds
functional richness
ecosystem functioning
diversity-productivity
functional divergence
species diversity
diversity-stability
grassland
long-term
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Summary:Many grassland biodiversity experiments show a positive relationship between biodiversity and ecosystem functioning, however, in most of these experiments plant communities are established by sowing and natural colonization is prevented by selective weeding of non-sown species. During ecosystem restoration, for example on abandoned fields, plant communities start on bare soil, and diversity is often manipulated in a single sowing event. How such initial plant diversity manipulations influence plant biodiversity development and ecosystem functioning is not well understood. We examined how relationships between taxonomic and functional diversity, biomass production and stability develop over 16 yr in non-weeded plots sown with 15 species, four species, or that were not sown. We found that sown plant communities become functionally similar to unsown, naturally colonized plant communities. However, initial sowing treatments had long-lasting effects on species composition and taxonomic diversity. We found only few relationships between biomass production, or stability in biomass production, and functional or taxonomic diversity, and the ones we observed were negative. In addition, the cover of dominant plant species was positively related to biomass production and stability. We conclude that effects of introducing plant species at the start of secondary succession can persist for a long time, and that in secondary succession communities with natural plant species dynamics diversity–functioning relationships can be weak or negative. Moreover, our findings indicate that in systems where natural colonization of species is allowed effects of plant dominance may underlie diversity–functioning relationships.
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ISSN:0012-9658
1939-9170
DOI:10.1002/ecy.2400