This doctoral dissertation project investigates the role of an invasive species in the decline of a dominant savanna species in the grassland savanna landscape of central North America. The objective of the study is to identify and develop ways to stimulate the once dominant white oak by decreasing the aggressive Amur honeysuckle invasive species. Oak savannas once covered 10 to 13 million hectares throughout central North America, but have now become geographically restricted and rare. White oak is a shade-intolerant tree species, and its regeneration is currently impeded by the domination of an aggressive shade-tolerant invasive species, Amur honeysuckle, which has spread underneath oak canopies over the past 70 years. Without a better understanding of how oak trees can become dominant again, effective land management to help white oak regain its dominance in the landscape is hindered, and it is predicted that white oak will lose its historical dominance within the next few decades. This will, in turn, further deteriorate the Midwest oak savanna remnants, an ecosystem already threatened in other ways. This project addresses three specific research questions: (1) How does Amur honeysuckle encroachment effect understory light environments and photosynthetic efficiency of white oak seedlings and saplings? (2) What impact does Amur honeysuckle have on soil moisture, soil chemistry, and soil quality characteristics that are important to white oak regeneration and development? (C) Finally, how can understanding the temporal and spatial dispersion patterns (gene flow) of encroaching Amur honeysuckle populations be used to design effective management strategies? To answer these questions the PIs of this project will conduct a biogeographic study at the Nachusa Grasslands, a grassland conservation area in north-central Illinois. They will analyze the spatial differences in light availability, the differences in soil moisture and soil quality underneath oaks and honeysuckle, and conduct an analysis of the dispersion patterns (gene flow) of honeysuckle.
Results from this research will be communicated directly to land managers and stewards at Nachusa Grasslands and other similar conservation areas in order to inform management and conservation policies regarding invasive species management. Students from underrepresented groups will be recruited to work on the project and results will be incorporated into relevant courses at Northern Illinois University to help students apply scientific concepts and methods to real world situations. The project will also be included in NIU STEM outreach efforts with youth and community groups. Additionally, findings will be presented at regional and national academic conferences, and published in key journals. As a Doctoral Dissertation Research Improvement award, this project will provide support for enhancing the training and professional development of a promising graduate student as she establishes an independent research career.
