Integrating demographic data and a mechanistic dispersal model to predict invasion spread of Rhododendron ponticum in different habitats
Authored by Justin MJ Travis, C M Harris, K J Park, C Edwards, H L Stanford
Date Published: 2011
DOI: 10.1016/j.ecoinf.2011.03.004
Sponsors:
Carnegie Trust
Scottish Higher Education Funding Council (SHEFC)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Model Code URLs:
Model code not found
Abstract
Understanding the invasion potential of a species in different habitat
types within the non-native range is crucial in prioritising management
and control efforts, and in the protection of vulnerable habitats
through monitoring. Here, using the invasive shrub Rhododendron ponticum
as a case study, we integrate information on both the demographics and
spatial dynamics within an individual-based, spatially-explicit model to
investigate invasion potential in different habitats. Firstly, empirical
demographic data were used to establish relationships between
demographic traits, such as height and fecundity, and habitat variables.
The outputs from models fitted using a Generalised Linear Model approach
were then incorporated into an individual-based simulation model of
plant spread to investigate the invasion potential in different habitats
using a factorial design of treatments. Plant height, and thus seed
release height, was the main driver of invasion speed through an
increase in dispersal potential, which resulted in the highest invasion
speeds predicted for evergreen woodlands, and relatively low speeds for
open habitats. Conversely, invasion density was driven by plant
fecundity and seedling survival and not dispersal potential; the highest
invasion densities were predicted for open habitats, with relatively low
densities for evergreen habitats. Deciduous woodland had features
resulting in intermediate invasion potential, both in terms of speed and
density and may, therefore be the habitat that is most vulnerable to
relatively rapid and dense invasion. (C) 2011 Elsevier B.V. All rights
reserved.
Tags
Management
Landscape
growth
Population-dynamics
Establishment
Plant invasions
Distance seed dispersal
Species hypericum-perforatum
Propagule pressure
Exotic plant