Invasion of non-native plant to the forest of the Cumberland Plateau and Mountain Region (2010)

Type of Content
Conference Contributions - OtherPublisher
University of Canterbury. Mathematics and StatisticsCollections
Citation
Lemke, D., Brown, J.A., Hulme, P., Tadesse, W. (2010) Invasion of non-native plant to the forest of the Cumberland Plateau and Mountain Region. Chatanooga, TN, USA: Disturbance and Change, Invasive Plants and Paths to Recovery, Joint Meeting of Southeast Exotic Pest Plant Council (SE-EPPC) and the Southeast Chapter of the Society for Ecological Restoration, International (SE-SERI), 11-13 May 2010.This citation is automatically generated and may be unreliable. Use as a guide only.
Related items
Showing items related by title, author, creator and subject.
-
Maximum Entropy modeling of invasive plants in the forests of Cumberland Plateau and Mountain Region
Lemke, D.; Hulme, P.; Brown, J.A.; Tadesse, W. (University of Canterbury. Mathematics and Statistics, 2010)This research explores the integration of GIS and remote sensing with statistical analysis to assist in species distribution modeling of invasive species. It is applicable to both native and non-native species and has the ... -
Alien plants and their invasion of the forested landscape of the southeastern United States
Lemke, Dawn (University of Canterbury. Department of Mathematics and Statistics, 2012)In this thesis, I have assessed and modelled invasion of alien plant species in the forest of the southeastern United States. There are over 380 recognized invasive plants in southeastern forests and grasslands with 53 ... -
Interactions between habitat fragmentation and invasions: factors driving exotic plant invasions in native forest remnants, West Coast, New Zealand.
Hutchison, Melissa Alice Sarah (University of Canterbury. School of Biological Sciences, 2009)Habitat fragmentation and biological invasions are widely considered to be the most significant threats to global biodiversity, and synergistic interactions between these processes have the potential to cause even greater ...