Trait plasticity alters the range of possible coexistence conditions in a competition–colonisation trade‐off
Most of the classical theory on species coexistence has been based on species‐level competitive trade‐offs. However, it is becoming apparent that plant species display high levels of trait plasticity. The implications of this plasticity are almost completely unknown for most coexistence theory. Here...
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Veröffentlicht in: | Ecology letters 2020-05, Vol.23 (5), p.791-799 |
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Sprache: | eng |
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Zusammenfassung: | Most of the classical theory on species coexistence has been based on species‐level competitive trade‐offs. However, it is becoming apparent that plant species display high levels of trait plasticity. The implications of this plasticity are almost completely unknown for most coexistence theory. Here, we model a competition–colonisation trade‐off and incorporate trait plasticity to evaluate its effects on coexistence. Our simulations show that the classic competition–colonisation trade‐off is highly sensitive to environmental circumstances, and coexistence only occurs in narrow ranges of conditions. The inclusion of plasticity, which allows shifts in competitive hierarchies across the landscape, leads to coexistence across a much broader range of competitive and environmental conditions including disturbance levels, the magnitude of competitive differences between species, and landscape spatial patterning. Plasticity also increases the number of species that persist in simulations of multispecies assemblages. Plasticity may generally increase the robustness of coexistence mechanisms and be an important component of scaling coexistence theory to higher diversity communities.
We incorporate trait plasticity into a model of the competition–colonisation trade‐off which has a well‐established history of ecological theory. Inclusion of plasticity greatly increases the range of conditions under which we observe coexistence. The inclusion of plasticity into established ecological theory may help address the disconnection between theory and patterns of community composition in real systems. |
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ISSN: | 1461-023X 1461-0248 |
DOI: | 10.1111/ele.13477 |