Plant Competitive Interactions and Invasiveness: Searching for the Effects of Phylogenetic Relatedness and Origin on Competition Intensity

Overview

Journal Am Nat

Publisher University of Chicago Press

Specialties Biology
Science

Date 2011 Apr 22

PMID 21508611

Citations 13

Authors

Petr Dostal

Affiliations

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Abstract

The invasion success of introduced plants is frequently explained as a result of competitive interactions with native flora. Although previous theory and experiments have shown that plants are largely equivalent in their competitive effects on each other, competitive nonequivalence is hypothesized to occur in interactions between native and invasive species. Small overlap in resource use with unrelated native species, improved competitiveness, and production of novel allelochemicals are all believed to contribute to the invasiveness of introduced species. I tested all three assumptions in a common-garden experiment by examining the effect of plant origin and relatedness on competition intensity. Competitive interactions were explored within 12 triplets, each consisting of an invasive species, a native congeneric (or confamilial) species, and a native heterogeneric species that are likely to interact in the field. Plants were grown in pots alone or in pairs and in the absence or the presence of activated carbon to control for allelopathy. I found that competition intensity was not influenced by the relatedness or origin of competing neighbors. Although some exotic species may benefit from size advantages and species-specific effects in competitive interactions, none of the three mechanisms investigated is likely to be a principal driver of their invasiveness.

Citing Articles

Co-Invasion of Congeneric Invasive Plants Adopts Different Strategies Depending on Their Origins.

Guo Y, Shao M, Guan P, Yu M, Geng L, Gao Y Plants (Basel). 2024; 13(13).

PMID: 38999647 PMC: 11244186. DOI: 10.3390/plants13131807.

The role of phylogenetic relatedness on alien plant success depends on the stage of invasion.

Omer A, Fristoe T, Yang Q, Razanajatovo M, Weigelt P, Kreft H Nat Plants. 2022; 8(8):906-914.

PMID: 35953709 DOI: 10.1038/s41477-022-01216-9.

Evolution of plasticity prevents postinvasion extinction of a native forb.

Dostal P Proc Natl Acad Sci U S A. 2022; 119(32):e2118866119.

PMID: 35914140 PMC: 9371648. DOI: 10.1073/pnas.2118866119.

Phylogenetic distance and resource availability mediate direction and strength of plant interactions in a competition experiment.

Williams E, Zeldin J, Semski W, Hipp A, Larkin D Oecologia. 2021; 197(2):459-469.

PMID: 34476548 DOI: 10.1007/s00442-021-05024-4.

Declines in occurrence of plants characteristic for a nutrient-poor meadow habitat are partly explained by their responses to nutrient addition and competition.

Hockendorff S, Peintinger M, Fiedler F, Stift M, van Kleunen M Ecol Evol. 2021; 11(9):4058-4070.

PMID: 33976794 PMC: 8093689. DOI: 10.1002/ece3.7306.