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Data from: Plant-soil feedback and the maintenance of diversity in Mediterranean-climate shrublands

The University of Western Australia
Teste, Francois ; Kardol, Paul ; Turner, Benjamin ; Wardle, David A. ; Zemunik, Graham ; Renton, Michael ; Laliberte, Etienne
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.5061/dryad.m31r8&rft.title=Data from: Plant-soil feedback and the maintenance of diversity in Mediterranean-climate shrublands&rft.identifier=10.5061/dryad.m31r8&rft.publisher=DRYAD&rft.description=Teste et al. Science PSF-Survival-Biomass: Plant survival and biomass data. Teste et al. Science PSF-RootStrategyOccupancy: Root strategy occupancy (nodule, cluster roots, ectomycorrhizal and arbuscular mycorrhizal colonization levels) data Soil biota influence plant performance through plant-soil feedback, but it is unclear whether the strength of such feedback depends on plant traits and whether plant-soil feedback drives local plant diversity. We grew 16 co-occurring plant species with contrasting nutrient-acquisition strategies from hyperdiverse Australian shrublands and exposed them to soil biota from under their own or other plant species. Plant responses to soil biota varied according to their nutrient-acquisition strategy, including positive feedback for ectomycorrhizal plants and negative feedback for nitrogen-fixing and nonmycorrhizal plants. Simulations revealed that such strategy-dependent feedback is sufficient to maintain the high taxonomic and functional diversity characterizing these Mediterranean-climate shrublands. Our study identifies nutrient-acquisition strategy as a key trait explaining how different plant responses to soil biota promote local plant diversity.&rft.creator=Teste, Francois &rft.creator=Kardol, Paul &rft.creator=Turner, Benjamin &rft.creator=Wardle, David A. &rft.creator=Zemunik, Graham &rft.creator=Renton, Michael &rft.creator=Laliberte, Etienne &rft.date=2017&rft.relation=http://research-repository.uwa.edu.au/en/publications/087adf1a-07e9-45e9-b3a2-f90d7201336a&rft.type=dataset&rft.language=English Access the data
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Teste et al. Science PSF-Survival-Biomass: Plant survival and biomass data. Teste et al. Science PSF-RootStrategyOccupancy: Root strategy occupancy (nodule, cluster roots, ectomycorrhizal and arbuscular mycorrhizal colonization levels) data Soil biota influence plant performance through plant-soil feedback, but it is unclear whether the strength of such feedback depends on plant traits and whether plant-soil feedback drives local plant diversity. We grew 16 co-occurring plant species with contrasting nutrient-acquisition strategies from hyperdiverse Australian shrublands and exposed them to soil biota from under their own or other plant species. Plant responses to soil biota varied according to their nutrient-acquisition strategy, including positive feedback for ectomycorrhizal plants and negative feedback for nitrogen-fixing and nonmycorrhizal plants. Simulations revealed that such strategy-dependent feedback is sufficient to maintain the high taxonomic and functional diversity characterizing these Mediterranean-climate shrublands. Our study identifies nutrient-acquisition strategy as a key trait explaining how different plant responses to soil biota promote local plant diversity.

Notes

External Organisations
Swedish University of Agricultural Sciences; Nanyang Technological University
Associated Persons
Paul Kardol (Creator); David A. Wardle (Creator)

Issued: 2017-01-20

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