Graph models of habitat mosaics

Dean L. Urban*, Emily S. Minor, Eric A. Treml, Robert S. Schick

*Corresponding author for this work

Research output: Contribution to journalReview articlepeer-review

Abstract

Graph theory is a body of mathematics dealing with problems of connectivity, flow, and routing in networks ranging from social groups to computer networks. Recently, network applications have erupted in many fields, and graph models are now being applied in landscape ecology and conservation biology, particularly for applications couched in metapopulation theory. In these applications, graph nodes represent habitat patches or local populations and links indicate functional connections among populations (i.e. via dispersal). Graphs are models of more complicated real systems, and so it is appropriate to review these applications from the perspective of modelling in general. Here we review recent applications of network theory to habitat patches in landscape mosaics. We consider (1) the conceptual model underlying these applications; (2) formalization and implementation of the graph model; (3) model parameterization; (4) model testing, insights, and predictions available through graph analyses; and (5) potential implications for conservation biology and related applications. In general, and for a variety of ecological systems, we find the graph model a remarkably robust framework for applications concerned with habitat connectivity. We close with suggestions for further work on the parameterization and validation of graph models, and point to some promising analytic insights.

Original languageEnglish
Pages (from-to)260-273
Number of pages14
JournalEcology Letters
Volume12
Issue number3
DOIs
Publication statusPublished - Mar 2009

Keywords

  • Connectivity
  • conservation
  • graph theory
  • habitat
  • landscape
  • metapopulation
  • network analysis
  • EXPLICIT POPULATION-MODELS
  • LANDSCAPE CONNECTIVITY
  • METAPOPULATION DYNAMICS
  • FRAGMENTED LANDSCAPE
  • FORESTED LANDSCAPE
  • COMPLEX NETWORKS
  • CIRCUIT-THEORY
  • GENE FLOW
  • CONSERVATION
  • DISPERSAL

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