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Data from: The reciprocal relationship between competition and intraspecific trait variation Bennett, Jonathan A.; Riibak, Kersti; Tamme, Riin; Lewis, Rob J.; Pärtel, Meelis

Description

<b>Abstract</b><br/>Trait differences among plants are expected to influence the outcome of competition; competition should be strongest between similar species (or individuals) under limiting similarity, and between dissimilar species within competitive hierarchies. These hypotheses are often used to infer competitive dynamics from trait patterns within communities. However, plant traits are frequently plastic in response to competition. This variation is poorly accounted for in trait-based studies of competition and community assembly. To explore the relationship between trait responses and competitive outcomes, we grew 15 species alone, in monoculture and in mixture. We measured traits relating to leaf and root tissue morphology as well as biomass allocation and related competition-induced changes in these traits to intra- and interspecific competition using multi-model inference. Additionally, we tested how traits from different competitive environments influenced potential community assembly inferences. The competitive environment had large effects on species’ traits, although many effects were species specific. Differences among species in how competition affected trait expression were linked to both intra- and interspecific competition, frequently affecting competitive hierarchies. Intraspecific competition was lower for species that limited competition-induced increases in root allocation and had less variability in this trait overall. Interspecific competition was lower for species with larger leaves and lower specific leaf area than their neighbours. Switching to more stress-tolerant strategies by increasing root diameter and leaf tissue density also reduced competition. However, dissimilarity in root tissue density also minimized competition, consistent with limiting similarity affecting competitive outcomes. Moreover, changes in these traits were linked to changes in functional diversity, suggesting that competition affects functional diversity by affecting trait expression. Synthesis. Both trait hierarchies and trait dissimilarity affect the outcome of competition by acting on different traits, although competition-induced changes in trait expression can alter competitive outcomes. Moreover, the magnitude of these trait changes suggests that the source environment where plant traits are collected can affect the inferences drawn from trait patterns within communities. Combined, our results suggest that considering the effect of competition on trait expression is critical to understanding the relationship between traits and community assembly.; <b>Usage notes</b><br /><div class="o-metadata__file-usage-entry"><h4 class="o-heading__level3-file-title">Trait and biomass data from plants grown in pots by themselves, monoculture, and mixture</h4><div class="o-metadata__file-description">The data file contains data on shoot biomass, root biomass, average leaf area, average root diameter, specific leaf area, specific root length, and root to shoot ratios for 15 species. Traits were collected on plants grown alone, in monoculture, and in mixture.</div><div class="o-metadata__file-name">Bennett et al 2016 J Ecol Competition trait data for dryad.csv</br></div></div>

Item Metadata

Title
Data from: The reciprocal relationship between competition and intraspecific trait variation
Creator
Bennett, Jonathan A.; Riibak, Kersti; Tamme, Riin; Lewis, Rob J.; Pärtel, Meelis
Date Issued
2021-05-19
Description
<b>Abstract</b><br/>Trait differences among plants are expected to influence the outcome of competition; competition should be strongest between similar species (or individuals) under limiting similarity, and between dissimilar species within competitive hierarchies. These hypotheses are often used to infer competitive dynamics from trait patterns within communities. However, plant traits are frequently plastic in response to competition. This variation is poorly accounted for in trait-based studies of competition and community assembly. To explore the relationship between trait responses and competitive outcomes, we grew 15 species alone, in monoculture and in mixture. We measured traits relating to leaf and root tissue morphology as well as biomass allocation and related competition-induced changes in these traits to intra- and interspecific competition using multi-model inference. Additionally, we tested how traits from different competitive environments influenced potential community assembly inferences. The competitive environment had large effects on species’ traits, although many effects were species specific. Differences among species in how competition affected trait expression were linked to both intra- and interspecific competition, frequently affecting competitive hierarchies. Intraspecific competition was lower for species that limited competition-induced increases in root allocation and had less variability in this trait overall. Interspecific competition was lower for species with larger leaves and lower specific leaf area than their neighbours. Switching to more stress-tolerant strategies by increasing root diameter and leaf tissue density also reduced competition. However, dissimilarity in root tissue density also minimized competition, consistent with limiting similarity affecting competitive outcomes. Moreover, changes in these traits were linked to changes in functional diversity, suggesting that competition affects functional diversity by affecting trait expression. Synthesis. Both trait hierarchies and trait dissimilarity affect the outcome of competition by acting on different traits, although competition-induced changes in trait expression can alter competitive outcomes. Moreover, the magnitude of these trait changes suggests that the source environment where plant traits are collected can affect the inferences drawn from trait patterns within communities. Combined, our results suggest that considering the effect of competition on trait expression is critical to understanding the relationship between traits and community assembly.; <b>Usage notes</b><br /><div class="o-metadata__file-usage-entry"><h4 class="o-heading__level3-file-title">Trait and biomass data from plants grown in pots by themselves, monoculture, and mixture</h4><div class="o-metadata__file-description">The data file contains data on shoot biomass, root biomass, average leaf area, average root diameter, specific leaf area, specific root length, and root to shoot ratios for 15 species. Traits were collected on plants grown alone, in monoculture, and in mixture.</div><div class="o-metadata__file-name">Bennett et al 2016 J Ecol Competition trait data for dryad.csv</br></div></div>
Subject
Other; Lathyrus tuberosus; competitive hierarchies; Phleum pratense; trait clustering; Lathyrus pratensis; Solidago canadensis; Linaria vulgaris; Lychnis flos-cuculi; Trifolium pratense; Festuca pratensis; Potentilla argentea; Phleum pretense; Lolium perenne; Potentilla recta; trait divergence; Prunella grandiflora; Rumex patientia; Specific leaf area; plant-plant interactions; specific root length; Prunella vulgaris; biomass allocation
Geographic Location
Central Europe; Estonia
Type
Dataset
Notes

Dryad version number: 1</p>

Version status: submitted</p>

Dryad curation status: Published</p>

Sharing link: https://datadryad.org/stash/share/CNz_SUG_siX9veLQ0O4vNvmSRyXr3mJknOkQVv79Iyg</p>

Storage size: 85003</p>

Visibility: public</p>

Date Available
2020-06-24
Provider
University of British Columbia Library
License
CC0 1.0
DOI
10.14288/1.0397639
URI
https://doi.org/10.5683/SP2/CDIZQQ
Publisher DOI
https://doi.org/10.5683/SP2/CDIZQQ; https://doi.org/10.5061/dryad.hg578
Rights URI
http://creativecommons.org/publicdomain/zero/1.0
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