MS, Kent State University, 2019, College of Arts and Sciences / Department of Biological Sciences

Land managers across the Appalachian region have been dissatisfied with the progress of native temperate forest regeneration on surface mines reclaimed under Surface Mining Control and Reclamation Act of 1977 (SMCRA) protocols. These sites are commonly colonized by invasive plant species and have inadequate soils. Many of the nearly 50 former surface mines located within Cuyahoga Valley National Park (CVNP), Ohio, underwent reclamation following SMCRA protocols as an effort to restore native forest habitat, but park staff have also found succession to occur at a far slower rate than originally anticipated. While many studies have been conducted on acidic coal mines, reclaimed sites in CVNP were mined for non-coal resources and are alkaline. Here I investigated the plant communities and soil chemistry of reclaimed surface mines in CVNP to determine the implications of SMCRA protocols on the landscape on sites with alkaline soils. First, I analyzed how vegetative communities on reclaimed surface mines at CVNP changed over a 28-year chronosequence with particular regard to woody species and invasive species. Natural succession of sites was occurring slower than park staff anticipated, as the presence of woody species did not increase significantly over time. However, this did not appear to be a result of invasive plant colonization because exotic plant presence decreased over time, pointing toward inadequate soil conditions rather than interactions among the plant community withholding the growth of woody species. Results imply that SMCRA reclamation protocols do not improve site conditions sufficiently to facilitate natural succession as a tool to return native forests to mines within the timeframe envisioned by land managers. Second, I observed the effects of early colonization of woody nitrogen (N) fixing individuals on soil nutrient concentrations and vegetative communities at the mines. I compared an invasive N-fixing species, autumn olive (Elaeagnus umbel (open full item for complete abstract)

Committee: Chris Blackwood Ph.D. (Advisor); David Ward Ph.D. (Committee Member); Oscar Rocha Ph.D. (Committee Member) Subjects: Ecology