Pathway models for analysing and managing the introduction of alien plant pests-an overview and categorization
Authored by J C Douma, M Pautasso, R C Venette, C Robinet, L Hemerik, M C M Mourits, J Schans, der Werf W van
Date Published: 2016
DOI: 10.1016/j.ecolmode1.2016.08.009
Sponsors:
European Food Safety Authority (EFSA)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Model Code URLs:
Model code not found
Abstract
Alien plant pests are introduced into new areas at unprecedented rates
through global trade, transport, tourism and travel, threatening
biodiversity and agriculture. Increasingly, the movement and
introduction of pests is analysed with pathway models to provide risk
managers with quantitative estimates of introduction risks and
effectiveness of management options. Pathway models vary greatly in
mathematical form, level of detail, treatment of uncertainty and
variability, as well as terminology. We conducted an overview and
cluster analysis of pathway models to guide risk assessors, risk
managers and model developers. We performed divisive hierarchical
clustering on models retrieved from the peer-reviewed and grey
literature to characterise and categorize the currently used modelling
approaches. We distinguish two clusters of models based on product
volume flows and two clusters of models based on the movement of
individual agents. The first cluster of flow-based models describes a
flow of infested material from origins to destinations according to
fixed partitioning coefficients. These deterministic models can account
for consequences of parameter variability and uncertainty. The second
and third clusters of pathway models incorporate stochasticity in
processes, and are respectively flow-based or agent-based. Models in the
fourth cluster account for interactions between agents and nodes in the
pathway. Conceptually, there are no fundamental differences between
epidemic network models and this last cluster of pathway models. The
choice of pathway model depends on the aim of the risk assessment, the
available time, expertise and data. Models in clusters 2, 3, and 4 add
sophistication and insight in variability to pathway analysis, but under
time and data constraints, key objectives of risk assessors and managers
can be addressed with models in cluster 1. The four clusters represent a
comprehensive and fit for purpose toolbox of models. (C) 2016 Elsevier
B.V. All rights reserved.
Tags
networks
Risk
Biosecurity
Spread
Trade
Human-mediated dispersal
Economic-impact
Establishment
Invasions
Coleoptera