Excising the ghosts of invasions past: restoring native vegetation to soil infested with invasive swallow-worts

Invasive plants can gain a foothold in new environments by manipulating soil conditions through allelopathy or through the disruption of associations between native plants and their mycorrhizal associates. The resulting changes in soil conditions can affect the recovery of habitats long after the in...

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Bibliographic Details
Published in:Invasive plant science and management 2024-06, Vol.17 (2), p.61-69
Main Authors: Snyder, Emmett H. U., Jones, Ian M., Sifton, Melanie A., Timm, Carla, Stevens, Courtney, Bourchier, Robert S., Smith, Sandy M.
Format: Article
Language:English
Subjects:
Allelopathy
Apocynaceae
Asclepias syriaca
Bioassays
Biomass
Experiments
Greenhouses
Indigenous plants
Infestation
Invasive plants
Native species
Plant extracts
Plant growth
Plant layout
Plants
Plants (botany)
Regrowth
Seedlings
Seeds
Soil
Soil conditions
Soils
Vegetation
Wort
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Summary:Invasive plants can gain a foothold in new environments by manipulating soil conditions through allelopathy or through the disruption of associations between native plants and their mycorrhizal associates. The resulting changes in soil conditions can affect the recovery of habitats long after the invasive plant has been removed. We conducted a series of greenhouse experiments to examine the effects of soil conditioned by pale swallow-wort [Vincetoxicum rossicum (Kleopow) Barbarich; Apocynaceae], on the growth of native plants. Additionally, we tested the effects of aqueous extracts of common milkweed (Asclepias syriaca L.; Apocynaceae), a related plant with known allelopathic effects, on the regrowth of V. rossicum from transplanted root crowns. Soil from a 15-yr-old V. rossicum infestation reduced seedling emergence in A. syriaca as well as in V. rossicum itself. Conversely, the same soil had no effect on the growth of mature A. syriaca plants. Soil conditioned by V. rossicum growth in the greenhouse had no effect on the biomass and percentage cover generated by two restoration seed mixes. Soil conditioned by A. syriaca, however, yielded lower biomass and percentage cover from both seed mixes. In contrast to the allelopathic effects of A. syriaca on seedlings, aqueous extracts of A. syriaca increased aboveground plant growth in V. rossicum. Our results suggest that the effects of V. rossicum–conditioned soil on native plants are concentrated at the seedling establishment phase. Additionally, the use of diverse native seed mixes shows great potential for restoring productivity to ecosystems affected by V. rossicum.
ISSN:1939-7291
1939-747X
DOI:10.1017/inp.2024.7