We present a simple Poisson process model for the growth of Tradescantia
fluminensis, an invasive plant species that inhibits the regeneration of native forest remnants in New Zealand. The model was parameterised with data derived from field experiments in New Zealand and then verified with independent data. The model gave good predictions which showed that its underlying assumptions are sound. However, this simple model had less predictive power for outputs based on variance suggesting that some assumptions were lacking. Therefore, we extended the model to include higher variability between plants thereby improving its predictions. This high variance model suggests that control measures that promote node death at the base of the plant or restrict the main stem growth rate will be more effective than those that reduce the number of branching events. The extended model forms a good basis for assessing the efficacy of various forms of control of this weed, including the recently-released leaf-feeding tradescantia leaf beetle (Neolema ogloblini).
History
Rights statement
http://creativecommons.org/licenses/by/4.0
Language
English
Does this contain Māori information or data?
No
Publisher
PeerJ
Journal title
PeerJ
ISSN
2167-8359
Citation
James, A., Molloy, S.M., Ponder-Sutton, A., Plank, M.J., Lamoureaux, S.L., Bourdot, G.W. and Kelly, D. (2015), Modelling Tradescantia fluminensis to assess long term survival. PeerJ 3:e1013; DOI 10.7717/peerj.1013