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An experimental application of Hypena opulenta as a biocontrol agent for the invasive vine Vincetoxicum rossicum

Citation

Livingstone, Stuart et al. (2020), An experimental application of Hypena opulenta as a biocontrol agent for the invasive vine Vincetoxicum rossicum, Dryad, Dataset, https://doi.org/10.5061/dryad.prr4xgxjm

Abstract

1. Pre-release testing for biological control agents is focused primarily on assessment of host-range specificity and safety of potential agents. Agent impact is considered pre-release, however the ultimate assessment of an agent must occur following release in the field under the target population levels and conditions of the invaded ecosystems. The invasive Eurasian vine, Vincetoxicum rossicum, has spread aggressively through its invaded range of eastern North America since its initial introduction in the late 1800’s. In laboratory tests, the Eurasian moth Hypena opulenta has shown great promise as a potential control agent for V. rossicum.

2. We were interested in the defoliating ability of H. opulenta and its subsequent effect on the seed production of V. rossicum under field conditions. To examine this, we established a field site near Kirkfield, Ontario that consisted of meadow and forest understory plots, both of which were highly invaded by V. rossicum.

3. We report highly significant feeding by H. opulenta in both light conditions. Unexpectedly, we observed a significant increase in seed production following folivory in shade conditions. We observed no significant effect of larval folivory on seed production under sun conditions, where V. rossicum seed production is greater by a factor of ten as compared to shade conditions.

4. Synthesis and application: It is unclear how continuous exposure to folivory by H. opulenta will affect mature V. rossicum stands, although it might be expected that such populations would invest in defenses to herbivory, possibly at the expense of reproductive output. In order to better understand if V. rossicum populations in either light condition could exhibit longer-term compensatory growth in response to folivory, further experimental work is needed that examines inter-annual variability in V. rossicum reproduction at variable H. opulenta densities.

Methods

Please refer to the publication for detailed description of methods. 

Funding

Natural Sciences and Engineering Research Council of Canada, Award: 386151