Trait values and not invasive status determine competitive outcomes between native and invasive species under varying soil nutrient availability

Trait values and not invasive status determine competitive outcomes between native and invasive species under varying soil nutrient availability

Invasion by exotic plants is often associated with nutrient enrichment of soils, particularly on soils of naturally low fertility. As a consequence, it is likely that the outcome of competitive interactions between native and invasive plants may be mediated by soil nutrient availability. We independ...

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Bibliographic Details
Published in:Austral ecology Vol. 41; no. 8; pp. 875 - 885
Main Authors: Tabassum, Samiya, Leishman, Michelle R.
Format: Journal Article
Language:English
Published: Richmond Blackwell Publishing Ltd 01-12-2016
Subjects:
Competition
Fertility
functional trait
Indigenous species
Introduced plants
Invasive plants
Invasive species
low resource
Native species
Nonnative species
Nutrient availability
nutrients
Plant ecology
plant invasion
Resource conservation
Sandstone
Seedlings
Soil fertility
Soil nutrients
Soils
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Summary:Invasion by exotic plants is often associated with nutrient enrichment of soils, particularly on soils of naturally low fertility. As a consequence, it is likely that the outcome of competitive interactions between native and invasive plants may be mediated by soil nutrient availability. We independently investigated competitive effect and response as well as the occurrence of asymmetric competition among native and invasive plants on soils of varying nutrient availability, using a glasshouse experiment. Seedlings of eight co‐occurring pairs of invasive and native species from low fertility Hawkesbury Sandstone‐derived soil were grown under low and high nutrient availability. We tested the hypotheses that native species would be competitively superior at low nutrient availability and have trait values associated with a resource conservation strategy while invasive species would be competitively superior at high nutrient availability and have trait values associated with a resource acquisition strategy. We found that nutrient availability did not mediate competitive interactions between invasive and native species. Instead, two invasive and one native species were always competitively superior irrespective of nutrient availability. Competitively superior species displayed a mixture of both resource conservation and acquisition strategies at low and high nutrient availability. In support of previous studies, we found that the a priori classification of invasive and native species does not predict competitive superiority at varying nutrient levels. Rather, species specific differences in trait values provide a competitive advantage in response to nutrient availability.
Bibliography:ark:/67375/WNG-FV53X92G-X
ArticleID:AEC12379
istex:AEA85CCA98C8AAC472C0B44BD2B6DA1348E74615
Appendix S1. Schematic representation of experimental design. Appendix S2. Results of the three factor ANOVA testing the effects of origin, nutrient treatment and species pair on Relative Interaction Index of co-occurring invasive and native species. Appendix S3. Results of separate two factor ANOVAs testing the effects of origin and nutrient treatment on Relative Interaction Index for each of the eight invasive/native species pairs. Appendix S4. Results of separate two factor ANOVAs for each trait for species pairs that showed asymmetric competition in one or both nutrient treatments.
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ISSN:1442-9985
1442-9993
DOI:10.1111/aec.12379