AI Article Synopsis
- Interactions between plants and soil microbes can significantly impact plant diversity and the dynamics of plant communities.
- While previous research has mainly focused on how these interactions support species coexistence, this study highlights the importance of understanding average fitness differences mediated by microbes, which can lead to either exclusion or coexistence of plant species.
- The development of new metrics allows for quantifying these microbially mediated fitness differences in empirical studies and reveals how microbial influences on plant diversity can vary with different productivity levels.
Article Abstract
Interactions between plants and soil microbes can strongly influence plant diversity and community dynamics. Soil microbes may promote plant diversity by driving negative frequency-dependent plant population dynamics, or may favor species exclusion by providing one species an average fitness advantage over others. However, past empirical research has focused overwhelmingly on the consequences of frequency-dependent feedbacks for plant species coexistence and has generally neglected the consequences of microbially mediated average fitness differences. Here we use theory to develop metrics that quantify microbially mediated plant fitness differences, and show that accounting for these effects can profoundly change our understanding of how microbes influence plant diversity. We show that soil microbes can generate fitness differences that favour plant species exclusion when they disproportionately harm (or favour) one plant species over another, but these fitness differences may also favor coexistence if they trade off with competition for other resources or generate intransitive dominance hierarchies among plants. We also show how the metrics we present can quantify microbially mediated fitness differences in empirical studies, and explore how microbial control over coexistence varies along productivity gradients. In all, our analysis provides a more complete theoretical foundation for understanding how plant-microbe interactions influence plant diversity.
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| http://dx.doi.org/10.1111/ele.13280 | DOI Listing |
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