MODELING THE IMPACT OF SPATIAL STRUCTURE ON GROWTH DYNAMICS OF INVASIVE PLANT SPECIES

James T. Murphy (), Mark P. Johnson () and Ray Walshe ()
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James T. Murphy: Ryan Institute for Environmental, Marine and Energy Research, National University of Ireland Galway, Galway, Ireland
Mark P. Johnson: Ryan Institute for Environmental, Marine and Energy Research, National University of Ireland Galway, Galway, Ireland
Ray Walshe: CloudCORE Cloud Computing Research Centre, School of Computing, Dublin City University, Dublin 9, Ireland

International Journal of Modern Physics C (IJMPC), 2013, vol. 24, issue 07, 1-20

Abstract: Invasive nonindigenous plant species can have potentially serious detrimental effects on local ecosystems and, as a result, costly control efforts often have to be put in place to protect habitats. An example of an invasive problem on a global scale involves the salt marsh grass species from the genusSpartina. The spread ofSpartina anglicain Europe and Asia has drawn much concern due to its ability to convert coastal habitats into cord-grass monocultures and to alter the native food webs. However, the patterns of invasion ofSpartinaspecies are amenable to spatially-explicit modeling strategies that take into account both temporal and spatio-temporal processes. In this study, an agent-based model ofSpartinagrowth on a simulated mud flat environment was developed in order to study the effects of spatial pattern and initial seedling placement on the invasion dynamics of the population. The spatial pattern of an invasion plays a key role in the rate of spread of the species and understanding this can lead to significant cost savings when designing efficient control strategies. We present here a model framework that can be used to explicitly represent complex spatial and temporal patterns of invasion in order to be able to predict quantitatively the impact of these factors on invasion dynamics. This would be a useful tool for assessing eradication strategies and choosing optimal control solutions in order to be able to minimize future control costs.

Keywords: Agent-based model; spatial dynamics; invasive plant species; coastal ecosystems; 87.23.Cc; 87.10.Mn; 87.18.-h (search for similar items in EconPapers)
Date: 2013
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DOI: 10.1142/S0129183113500423

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