Tuesday, August 4, 2009

PS 31-107: Invasive plant restoration: soil nutrient pools and enzyme activity among forest stands dominated by exotic, invasive plants. 

William J. Dress1, April Claus2, Thad Jones3, and Jennifer Sabol1. (1) Robert Morris University, (2) Fern Hollow Nature Center, (3) Sewickley Heights Borough Park

Background/Question/Methods

Invasion and proliferation of exotic plant species has the potential to have long-term impacts on terrestrial and aquatic ecosystems. In order to maintain the integrity and biodiversity of natural ecosystems, restoration efforts must be made to remove invasive species and restore the native plant community. This study describes the results of a restoration effort made to reclaim forested areas dominated by Rhamnus frangula (glossy buckthorn), Ligustrum sinese (Chinese privet) and Celastrus orbiculatus (oriental bittersweet), three common invasive plants in eastern deciduous forests. Glossy buckthorn and Chinese privet are woody shrub species while oriental bittersweet is a vine that can also form a thick ground cover. Invasive plants were very dense in experimental sites. Glossy buckthorn ranged from 11-25 stems/m2, while Chinese privet ranged from 6-14 stems/m2. Density of oriental bittersweet was slightly lower, ranging from 1-4 stems/m2, although each site also had significant ground cover.  Restoration treatments were designed to reduce the density of invasive plants to less than 10% of pre-treatment levels using primarily mechanical methods. 

Results/Conclusions

Prior to restoration treatments, soil properties and soil enzyme activity levels were assessed among sites dominated by invasive and native plants.  Soil organic matter was significantly greater in sites dominated by native plants (4.5%) compared to sites dominated by L. sinese (3.4%) but not R. frangula (3.6%) or C. orbiculatus (3.7%).  Both soil NH4 and NO3 content was significantly greater in sites dominated by C. orbiculatus (3.7 and 7.2 mg N/kg soil, respectively and R. frangula (4.6 and 3.9 mg N/kg soil, respectively) compared to control sites dominated by native species (1.9 and 2.7 mg N/kg soil, respectively).  The concentration of extractable P was significantly greater in sites dominated by native species (18.9 mg P/kg soil) compared to sites dominated by both L. sinese (14.4 mg P/kg soil) and R. frangula (9.7 mg P/kg soil).  Activity levels of acid phosphatase, chitinase and phenol oxidase were similar among all sites.  Data collected in this study will be compared to post-restoration data to determine the effect of removing these invasive species on ecosystem properties.