High-impact invasive plants expanding into mid-Atlantic states

Salva, J.D., and B.A. Bradley, 2023 “High-impact invasive plants expanding into Mid-Atlantic states - Identifying priority range-shifting species for monitoring in light of climate change”, Invasive Plant Science & Management

Written by Bethany Bradley, edited by Sarah Bois

Summary

With climate change, hundreds of invasive plants are projected to shift their ranges (Allen & Bradley, 2016), creating hotspots of future invasion across the eastern U.S. Knowing the identities of new invasive plants headed to a state near you creates an opportunity for proactive prevention and management. Unfortunately, monitoring for and managing all range-shifting invasive plants (download a list for your state here) is untenable due to scarce management resources. To help prioritize range-shifting species, Salva & Bradley (2023) performed impact assessments on 104 plants projected to expand into one or more mid-Atlantic states (Delaware, Kentucky, Maryland, New Jersey, Ohio, Pennsylvania, Virginia, and/or West Virginia) by 2050 with climate change. They identified 32 high-impact species, with reported negative impacts on ecological communities. Many of these species also had socio-economic impacts. Impact assessments are an important component for assessing invasion risk, as evidence of ecological and socio-economic impacts observed elsewhere increases the likelihood that a species will have similar impacts when expanding into a novel range due to climate change. The impact assessments for all 104 species are available here and a summary table is available here. This study is a companion to previous studies by Rockwell-Postel et al. 2020 (data here) and Coville et al. 2021 (data here), which conducted impact assessments for range-shifting plants in New York and New England states. Together, these three studies provide a comprehensive assessment of high-impact, range-shifting invasive plants across the Northeast.

Take home points

  • The study identified 32 invasive plants with the maximum ecological impact score of 4, indicating negative impacts on ecological communities or multiple native species. The list of high-impact species is presented in Table 3, along with vulnerable states.

Management implications

  • High-impact plants should be priorities for state regulation and proactive monitoring.  Many of these species remain part of the ornamental plant trade (e.g., Beaury et al. 2021)

  • Impact assessments created here and in the companion papers (Rockwell-Postel et al. 2020; Coville et al. 2021) can be used to inform state weed risk assessments.

Related papers

Rockwell-Postel et al. 2020; Coville et al. 2021

Keywords

Impact study, range expansion, invasive plant