Plant Pest Impact Metric System (PPIMS): Framework and guidelines for a common set of metrics to classify and prioritise plant pests

Authors

Kylie B. Ireland, Commonwealth Scientific and Industrial Research Organisation
Rieks van Klinken, Commonwealth Scientific and Industrial Research Organisation
David C. Cook, Department of Primary Industries and Regional Development, Western AustraliaFollow
David Logan, The New Zealand Institute for Plant & Food Research Limited
Lisa Jamieson, The New Zealand Institute for Plant & Food Research Limited
Joy L. Tyson, The New Zealand Institute for Plant & Food Research Limited
Philip E. Hulme, Plant Biosecurity Cooperative Research Centre, Australian Capital Territory
Susan Worner, Plant Biosecurity Cooperative Research Centre, Australian Capital Territory
Eckehard G. Brockerhoff, Scion (New Zealand Forest Research Institute), New Zealand
John D. Fletcher, The New Zealand Institute for Plant & Food Research Limited, New Zealand
Brendan Rodoni, Plant Biosecurity Cooperative Research Centre, Australian Capital Territory
Mandy Christopher, Department of Agriculture and Fisheries Queensland
Victoria A. Ludowici, Plant Health Australia, Australian Capital Territory
Lindsay Bulman, Scion (New Zealand Forest Research Institute), New Zealand
David Teulon, Plant Biosecurity Cooperative Research Centre, Australian Capital Territory
Kylie A. Crampton, Plant Biosecurity Cooperative Research Centre, Australian Capital Territory
Mike Hodda, Plant Biosecurity Cooperative Research Centre, Australian Capital Territory
Dean R. Paini, Commonwealth Scientific and Industrial Research OrganisationFollow

Document Type

Article

Publication Date

11-13-2019

Journal Title

Crop Protection

ISSN

0261-2194

Keywords

Alien invasive species, Biosecurity, Crop loss assessment, Exotic species, Pathogen, Prioritisation

Disciplines

Agricultural Economics | Biosecurity

Abstract

Agricultural stakeholders need a common set of metrics to evaluate plant pest impacts to facilitate transparency and harmonisation of pest management and prioritisation across spatial scales and jurisdictions. We propose a classification system that articulates, defines and classifies the magnitude of impacts (historical, current or potential) of pest species (alien and native) in plant production systems. Metrics were identified and criteria defined through consideration of economic parameters, risk assessment standards and guidance tools, discussions with pest risk assessment practitioners and recent advances in environmental impact classification schemes. Twenty metrics were identified and assigned to one of four key metric types: spatiotemporal, market-driven, primary response and mid-to long-term response. Host crop value, Market access, Feasibility of management and Reversibility were identified as disruptor metrics, likely to influence overall classification by at least twice that of other metrics. Application of the system found it was able to classify well-known pests by importance, capturing changes in impact status as the management programme progressed for one pest, and how it was influenced by the geographic scale of assessment for another. Our work demonstrates the value of integrating plant protection science with invasion biology to derive a comprehensive measure of pest impact in agroecosystems that can be utilised by all plant biosecurity stakeholders.

Recommended Citation

Ireland, K B, van Klinken, R, Cook, D C, Logan, D, Jamieson, L, Tyson, J L, Hulme, P E, Worner, S, Brockerhoff, E G, Fletcher, J D, Rodoni, B, Christopher, M, Ludowici, V A, Bulman, L, Teulon, D, Crampton, K A, Hodda, M, and Paini, D R. (2019), Plant Pest Impact Metric System (PPIMS): Framework and guidelines for a common set of metrics to classify and prioritise plant pests. Crop Protection, 128 (1005003).
https://library.dpird.wa.gov.au/bs_research/33