Network-agent based model for simulating the dynamic spatial network structure of complex ecological systems
Authored by Taylor M Anderson, Suzana Dragicevic
Date Published: 2018
DOI: 10.1016/j.ecolmodel.2018.10.008
Sponsors:
National Science and Engineering Research Council of Canada (NSERC)
Platforms:
Repast
Model Documentation:
Other Narrative
Flow charts
Mathematical description
Model Code URLs:
Model code not found
Abstract
Non-spatial ecological networks provide insight into the organization
and interaction between biological entities. More recently, biological
dispersal is modelled using spatial networks, static sets of
georeferenced habitat patches that connect based on a species' maximum
dispersal distance. However, dispersal is complex, where spatial
patterns at the landscape scale emerge from interactions between
ecological entities and landscape features at much finer individual
scales. Agent-based modelling (ABM) is a computational representation of
complex systems capable of capturing this complexity. Therefore, this
study develops a network-ABM (N-ABM) that combines network and complex
systems theory to simulate complex evolving spatial networks. The
developed N-ABM approach is implemented on the case study of the emerald
ash borer (EAB) bark beetle using geospatial datasets in Ontario,
Canada. The N-ABM generates dynamic spatial network structures that
emerge from interactions between the EAB and tree agents at the
individual scale. The resulting networks are analyzed using graph theory
measures. Analysis of the results indicates a relationship between
preferential attachment in insect host selection and the emergent
scale-free network structure. The N-ABM approach can be used to
represent dynamic ecological networks and provides insight into how
network structure emerges from EAB dispersal dynamics, useful for forest
management.
Tags
Dispersal
Geographic information systems
patterns
Populations
Spread
Agrilus-planipennis coleoptera
Buprestidae
Dependence
Landscape
connectivity
Explicit
Emerald ash borer
Network-agent based modeling
Spatial networks
Ecological complex
systems
Forest insect infestation