Stochastic spread models: A comparison between an individual-based and a lattice-based model for assessing the expansion of invasive termites over a landscape

October 19, 2017 - Author: Francesco Tonini, Hartwig H. Hochmair, Rudolf H. Scheffrahn, Donald L. DeAngelis

Journal or Book Title: Ecological Informatics

Keywords: Spatio-temporal modeling; Cellular automata; Invasive species; Individual-based model; Simulation methods

Volume/Issue: 24

Page Number(s): 222-230

Year Published: 2014

Spatially-explicit simulation models can help state and local regulatory agencies to predict both the rate and direction of the spread of an invasive species from a set of surveyed locations. Such models can be used to develop successful early detection, quarantine, or eradication plans based on the predicted areas of infestation. Individual-based models (IBMs) are often used to replicate the dynamics of complex systems and are both able to incorporate individual differences and local interactions among organisms, as well as spatial details. In this work, we introduce a new stochastic lattice-based model for simulating the spread of invasive termites over a landscape and compare it to a recently published stochastic individual-based approach, based on the same ecological parameters, with the goal of improving its computational efficiency. The two modeling frameworks were tested over a homogeneous landscape with randomly located sources of infestation. Further, the setting of a case-study of an invasive termite, Nasutitermes corniger (Motschulsky), was used to simulate the spread of the species in Dania Beach, Florida, U.S.A., and the results of the proposed model were compared with an earlier application of the IBM over the same area. The results show that the extent of the infested areas predicted by the new lattice-based model is similar, thus comparable, to the individual-based model while improving the computation time significantly. The simulation presented in this work could be used by the regulatory authorities to draw one or more areas of intervention instead of wasting resources by randomly surveying unknown perimeters.

DOI: https://doi.org/10.1016/j.ecoinf.2014.09.011

Type of Publication: Journal Article

Tags: cellular automata, center for systems integration and sustainability, individual-based model, invasive species, simulation methods, spatio-temporal modeling

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