Relative importance of competition and plant–soil feedback, their synergy, context dependency and implications for coexistence
Plants interact simultaneously with each other and with soil biota, yet the relative importance of competition vs. plant–soil feedback (PSF) on plant performance is poorly understood. Using a meta‐analysis of 38 published studies and 150 plant species, we show that effects of interspecific competiti...
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| Published in | Ecology letters Vol. 21; no. 8; pp. 1268 - 1281 |
|---|---|
| Main Authors | , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Blackwell Publishing Ltd
01.08.2018
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Plants interact simultaneously with each other and with soil biota, yet the relative importance of competition vs. plant–soil feedback (PSF) on plant performance is poorly understood. Using a meta‐analysis of 38 published studies and 150 plant species, we show that effects of interspecific competition (either growing plants with a competitor or singly, or comparing inter‐ vs. intraspecific competition) and PSF (comparing home vs. away soil, live vs. sterile soil, or control vs. fungicide‐treated soil) depended on treatments but were predominantly negative, broadly comparable in magnitude, and additive or synergistic. Stronger competitors experienced more negative PSF than weaker competitors when controlling for density (inter‐ to intraspecific competition), suggesting that PSF could prevent competitive dominance and promote coexistence. When competition was measured against plants growing singly, the strength of competition overwhelmed PSF, indicating that the relative importance of PSF may depend not only on neighbour identity but also density. We evaluate how competition and PSFs might interact across resource gradients; PSF will likely strengthen competitive interactions in high resource environments and enhance facilitative interactions in low‐resource environments. Finally, we provide a framework for filling key knowledge gaps and advancing our understanding of how these biotic interactions influence community structure. |
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| AbstractList | Plants interact simultaneously with each other and with soil biota, yet the relative importance of competition vs. plant-soil feedback (PSF) on plant performance is poorly understood. Using a meta-analysis of 38 published studies and 150 plant species, we show that effects of interspecific competition (either growing plants with a competitor or singly, or comparing inter- vs. intraspecific competition) and PSF (comparing home vs. away soil, live vs. sterile soil, or control vs. fungicide-treated soil) depended on treatments but were predominantly negative, broadly comparable in magnitude, and additive or synergistic. Stronger competitors experienced more negative PSF than weaker competitors when controlling for density (inter- to intraspecific competition), suggesting that PSF could prevent competitive dominance and promote coexistence. When competition was measured against plants growing singly, the strength of competition overwhelmed PSF, indicating that the relative importance of PSF may depend not only on neighbour identity but also density. We evaluate how competition and PSFs might interact across resource gradients; PSF will likely strengthen competitive interactions in high resource environments and enhance facilitative interactions in low-resource environments. Finally, we provide a framework for filling key knowledge gaps and advancing our understanding of how these biotic interactions influence community structure.Plants interact simultaneously with each other and with soil biota, yet the relative importance of competition vs. plant-soil feedback (PSF) on plant performance is poorly understood. Using a meta-analysis of 38 published studies and 150 plant species, we show that effects of interspecific competition (either growing plants with a competitor or singly, or comparing inter- vs. intraspecific competition) and PSF (comparing home vs. away soil, live vs. sterile soil, or control vs. fungicide-treated soil) depended on treatments but were predominantly negative, broadly comparable in magnitude, and additive or synergistic. Stronger competitors experienced more negative PSF than weaker competitors when controlling for density (inter- to intraspecific competition), suggesting that PSF could prevent competitive dominance and promote coexistence. When competition was measured against plants growing singly, the strength of competition overwhelmed PSF, indicating that the relative importance of PSF may depend not only on neighbour identity but also density. We evaluate how competition and PSFs might interact across resource gradients; PSF will likely strengthen competitive interactions in high resource environments and enhance facilitative interactions in low-resource environments. Finally, we provide a framework for filling key knowledge gaps and advancing our understanding of how these biotic interactions influence community structure. Plants interact simultaneously with each other and with soil biota, yet the relative importance of competition vs. plant–soil feedback (PSF) on plant performance is poorly understood. Using a meta‐analysis of 38 published studies and 150 plant species, we show that effects of interspecific competition (either growing plants with a competitor or singly, or comparing inter‐ vs. intraspecific competition) and PSF (comparing home vs. away soil, live vs. sterile soil, or control vs. fungicide‐treated soil) depended on treatments but were predominantly negative, broadly comparable in magnitude, and additive or synergistic. Stronger competitors experienced more negative PSF than weaker competitors when controlling for density (inter‐ to intraspecific competition), suggesting that PSF could prevent competitive dominance and promote coexistence. When competition was measured against plants growing singly, the strength of competition overwhelmed PSF, indicating that the relative importance of PSF may depend not only on neighbour identity but also density. We evaluate how competition and PSFs might interact across resource gradients; PSF will likely strengthen competitive interactions in high resource environments and enhance facilitative interactions in low‐resource environments. Finally, we provide a framework for filling key knowledge gaps and advancing our understanding of how these biotic interactions influence community structure. Plants interact simultaneously with each other and with soil biota, yet the relative importance of competition vs. plant–soil feedback ( PSF ) on plant performance is poorly understood. Using a meta‐analysis of 38 published studies and 150 plant species, we show that effects of interspecific competition (either growing plants with a competitor or singly, or comparing inter‐ vs. intraspecific competition) and PSF (comparing home vs. away soil, live vs. sterile soil, or control vs. fungicide‐treated soil) depended on treatments but were predominantly negative, broadly comparable in magnitude, and additive or synergistic. Stronger competitors experienced more negative PSF than weaker competitors when controlling for density (inter‐ to intraspecific competition), suggesting that PSF could prevent competitive dominance and promote coexistence. When competition was measured against plants growing singly, the strength of competition overwhelmed PSF , indicating that the relative importance of PSF may depend not only on neighbour identity but also density. We evaluate how competition and PSF s might interact across resource gradients; PSF will likely strengthen competitive interactions in high resource environments and enhance facilitative interactions in low‐resource environments. Finally, we provide a framework for filling key knowledge gaps and advancing our understanding of how these biotic interactions influence community structure. |
| Author | Larkin, Beau G. Klironomos, John Reinhart, Kurt O. Lekberg, Ylva Hart, Miranda M. Callaway, Ragan M. Bunn, Rebecca A. Putten, Wim H. Suding, Katharine Bever, James D. Remke, Michael Kivlin, Stephanie N. Maron, John L. |
| Author_xml | – sequence: 1 givenname: Ylva surname: Lekberg fullname: Lekberg, Ylva email: ylekberg@mpgranch.com organization: University of Montana – sequence: 2 givenname: James D. surname: Bever fullname: Bever, James D. organization: University of Kansas – sequence: 3 givenname: Rebecca A. surname: Bunn fullname: Bunn, Rebecca A. organization: Western Washington University – sequence: 4 givenname: Ragan M. surname: Callaway fullname: Callaway, Ragan M. organization: University of Montana – sequence: 5 givenname: Miranda M. surname: Hart fullname: Hart, Miranda M. organization: University of British Columbia Okanagan – sequence: 6 givenname: Stephanie N. surname: Kivlin fullname: Kivlin, Stephanie N. organization: University of Tennessee – sequence: 7 givenname: John surname: Klironomos fullname: Klironomos, John organization: University of British Columbia Okanagan – sequence: 8 givenname: Beau G. surname: Larkin fullname: Larkin, Beau G. organization: MPG Ranch Missoula – sequence: 9 givenname: John L. surname: Maron fullname: Maron, John L. organization: University of Montana – sequence: 10 givenname: Kurt O. surname: Reinhart fullname: Reinhart, Kurt O. organization: Fort Keogh Livestock and Range Research Laboratory – sequence: 11 givenname: Michael surname: Remke fullname: Remke, Michael organization: Northern Arizona University – sequence: 12 givenname: Wim H. surname: Putten fullname: Putten, Wim H. organization: Wageningen University (WUR) – sequence: 13 givenname: Katharine surname: Suding fullname: Suding, Katharine |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/29896848$$D View this record in MEDLINE/PubMed |
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| Copyright | 2018 John Wiley & Sons Ltd/CNRS 2018 John Wiley & Sons Ltd/CNRS. Copyright © 2018 John Wiley & Sons Ltd/CNRS Wageningen University & Research |
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| Keywords | soil biota coexistence mutualist meta-analysis resource gradient pathogen competition facilitation plant-soil feedback Additive interaction |
| Language | English |
| License | 2018 John Wiley & Sons Ltd/CNRS. |
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| Snippet | Plants interact simultaneously with each other and with soil biota, yet the relative importance of competition vs. plant–soil feedback (PSF) on plant... Plants interact simultaneously with each other and with soil biota, yet the relative importance of competition vs. plant–soil feedback ( PSF ) on plant... Plants interact simultaneously with each other and with soil biota, yet the relative importance of competition vs. plant-soil feedback (PSF) on plant... |
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| SubjectTerms | Additive interaction biocenosis Biota Coexistence Community structure Competition Density Dependence facilitation Feedback Fungicides Interspecific interspecific competition intraspecific competition Meta-analysis mutualist pathogen Plant species Plants Plants (botany) plant–soil feedback resource gradient Soil soil biota Soil Microbiology Soil treatment soil-plant interactions |
| Title | Relative importance of competition and plant–soil feedback, their synergy, context dependency and implications for coexistence |
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