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A method for designing complex biosecurity surveillance systems: detecting non-indigenous species of invertebrates on Barrow Island

Authors


Correspondence: Peter J. L. Whittle, Science and Engineering Faculty, Queensland University of Technology, PO Box 2434, Brisbane, Qld 4001, Australia.

E-mail: peter.whittle@qut.edu.au

Abstract

Aim

We developed a new method to design objective, risk-based surveillance systems for non-indigenous species of invertebrates, vertebrates and plants, which might be introduced to a natural area through an industrial project; here, we provide the invertebrate case study. The method addresses issues common to complex surveillance design problems: a statistical standard (e.g. power); information gaps; multiple targets of unclear identity; a large surveillance area of heterogeneous risk of invasion; integrating multiple sources of surveillance data; optimizing for cost.

Location

Barrow Island, Western Australia.

Methods

We mapped the surveillance area for risk to target surveillance activities. An expert group identified a set of exemplar species and identified and characterized a set of detection methods for each, such that all potential invaders would be detected. We devised multi-element surveillance systems to detect each exemplar to the design power (0.8), then integrated them to a single system that was optimized for cost.

Results

The surveillance system was deployed on the island to specification over 1 year, then reviewed for redesign in a second period.

Main conclusions

The new method provided practical, risk-based surveillance system designs that met application requirements and overcame complex issues common to many surveillance applications. A review of experiences from surveillance in the first year led to practical improvements and design efficiencies.

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