Allelopathic invasive tree (Rhamnus cathartica) alters native plant communities

Many plants release allelopathic chemicals that can inhibit germination, growth, and/or survival in neighboring plants. These impacts appear magnified with the invasion of some non-native plants which may produce allelochemicals against which native fauna have not co-evolved resistance. Our objectiv...

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Bibliographic Details
Published in:Plant ecology 2017-10, Vol.218 (10), p.1233-1241
Main Authors: Warren, R. J., Labatore, Adam, Candeias, Matt
Format: Article
Language:English
Subjects:
Abundance
Allelopathy
Applied Ecology
Biodiversity
Biomedical and Life Sciences
Communities
Community & Population Ecology
Community composition
Ecology
Flowers & plants
Forests
Germination
Indigenous plants
Indigenous species
Invasive plants
Life Sciences
Monoculture
Nature reserves
Organic chemistry
Plant communities
Plant Ecology
Plant species
Planting density
Protection and preservation
Roots
Seedlings
Species richness
Terrestial Ecology
Trees
Understory
Urban forests
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Summary:Many plants release allelopathic chemicals that can inhibit germination, growth, and/or survival in neighboring plants. These impacts appear magnified with the invasion of some non-native plants which may produce allelochemicals against which native fauna have not co-evolved resistance. Our objective was to examine the potential allelopathic impact of an invasive non-native shrub/tree on multiple plant species using field observation and experimental allelopathy studies. We surveyed and collected an invasive, non-native tree/shrub (Rhamnus cathartica) at Tifft Nature Preserve (a 107-ha urban natural area near Lake Erie in Buffalo, NY). We also surveyed understory plant communities in the urban forest to examine correlations between R. cathartica abundance and local plant community abundance and richness. We then used experimental mesocosms to test if patterns observed in the field could be explained by adding increased dosages of R. cathartica to soils containing five plant species, including native and non-native woody and herbaceous species. In the highly invaded urban forest, we found that herbaceous cover, shrubs and woody seedlings negatively covaried with R. cathartica basal area and seedlings density. In the mesocosm experiments, R. cathartica resulted in significant decreases in plant community species richness, abundance, and shifted biomass allocation from roots. Our results provide evidence that R. cathartica is highly allelopathic in its invaded range, that R. cathartica roots have an allelopathic effect and that some plant species appear immune. We suggest that these effects may explain the plant’s ability to form dense monocultures and resist competitors, as well as shift community composition with speciesspecific impacts.
ISSN:1385-0237
1573-5052
DOI:10.1007/s11258-017-0766-2