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Risk-based management of invading plant disease

by Richard O. J. H. Stutt , Nik J. Cunniffe , Samuel R. Hyatt-Twynam , Christopher A. Gilligan , Stephen Parnell , Tim R. Gottwald

in adaptive control / Adaptive management / Asymptomatic infection / Canker / Citrus / citrus canker / Detection / Disease control / Disease management / disease outbreaks / Disease spread / Diseases / Epidemics / Epidemiology / eradication / Florida / Host plants / Introduced Species / Mathematical models / Models, Biological / Parameters / pathogens / Plant diseases / Plant Diseases - prevention & control / Plant Diseases - statistics & numerical data / Removal / Risk Assessment / Risk management / risk‐based control / Robustness (mathematics) / stakeholders / stochastic epidemic model

2017

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Risk-based management of invading plant disease

by Richard O. J. H. Stutt , Nik J. Cunniffe , Samuel R. Hyatt-Twynam , Christopher A. Gilligan , Stephen Parnell , Tim R. Gottwald

2017

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Risk-based management of invading plant disease

by Richard O. J. H. Stutt , Nik J. Cunniffe , Samuel R. Hyatt-Twynam , Christopher A. Gilligan , Stephen Parnell , Tim R. Gottwald

2017

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Journal Article

Risk-based management of invading plant disease

Richard O. J. H. Stutt,

Nik J. Cunniffe,

Samuel R. Hyatt-Twynam,

Christopher A. Gilligan,

Stephen Parnell,

Tim R. Gottwald

2017

Overview

Effective control of plant disease remains a key challenge. Eradication attempts often involve removal of host plants within a certain radius of detection, targeting asymptomatic infection. Here we develop and test potentially more effective, epidemiologically motivated, control strategies, using a mathematical model previously fitted to the spread of citrus canker in Florida. We test risk-based control, which preferentially removes hosts expected to cause a high number of infections in the remaining host population. Removals then depend on past patterns of pathogen spread and host removal, which might be nontransparent to affected stake-holders. This motivates a variable radius strategy, which approximates risk-based control via removal radii that vary by location, but which are fixed in advance of any epidemic. Risk-based control outperforms variable radius control, which in turn outperforms constant radius removal. This result is robust to changes in disease spread parameters and initial patterns of susceptible host plants. However, efficiency degrades if epidemiological parameters are incorrectly characterised. Risk-based control including additional epidemiology can be used to improve disease management, but it requires good prior knowledge for optimal performance. This focuses attention on gaining maximal information from past epidemics, on understanding model transferability between locations and on adaptive management strategies that change over time.

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Publisher

New Phytologist Trust,Wiley Subscription Services, Inc,John Wiley and Sons Inc

Subject

adaptive control

/ Adaptive management

/ Asymptomatic infection

/ Canker

/ Citrus

/ citrus canker

/ Detection