This article [The application of risk and disease modelling to emerging freshwater diseases in wild aquatic animals] was written by Mark Thrush & Edmund J. Peeler of the Centre for Environment, Fisheries & Aquaculture Science (Cefas), and Alexander J. Murray & I. Stuart Wallace of Marine Scotland. It is Crown copyright and is published with the permission of the Controller of HMSO and the Queen’s Printer for Scotland.
The application of risk and disease modelling to emerging freshwater diseases in wild aquatic animals
Article first published online: 11 JAN 2011
© 2011 Blackwell Publishing Ltd and Crown copyright
Special Issue: EMERGING FRESHWATER DISEASES
Volume 56, Issue 4, pages 658–675, April 2011
How to Cite
THRUSH, M. A., MURRAY, A. G., BRUN, E., WALLACE, S. and PEELER, E. J. (2011), The application of risk and disease modelling to emerging freshwater diseases in wild aquatic animals. Freshwater Biology, 56: 658–675. doi: 10.1111/j.1365-2427.2010.02549.x
- Issue published online: 4 MAR 2011
- Article first published online: 11 JAN 2011
- (Manuscript accepted 18 November 2010)
- disease modelling;
- emerging disease;
- risk assessment
1. Emerging diseases pose significant ecological and economic threats in fresh waters. Both risk assessment and mathematical modelling have potential to improve our understanding of the uncertainties associated with emerging disease events and make informed predictions about their likely impact.
2. We review the different methodologies that may be used to estimate the likely geographic spread and potential impact of new and emerging diseases in fresh waters. We also highlight the limitations of the currently available methods and requirements for future development.
3. In the realm of aquatic animal health, risk assessment has been used mainly to examine the risks of disease spread through international trade import risk analysis (IRA). Import risk analysis of newly emerged diseases underpins the development of appropriate risk mitigation measures to minimise further spread. This is best illustrated by assessments of the spread of Gyrodactylus salaris and also illustrates how risk assessment can examine disease interaction between wild and farmed fish.
4. Various approaches have been employed to study disease transmission within freshwater fish populations at a range of spatial scales. There is scope for the application of these techniques to predict the impact of economically and environmentally important emerging freshwater diseases that arise from new pathogens, known diseases spreading to new locations or changes in pathogenicity owing to changing environmental conditions (e.g. because of climate change).
5. Population models are widely used in freshwater fishery management. The integration of disease processes within freshwater aquatic animal population models is required to provide tools to assess the likely impact of newly emerged diseases and allow mitigation measures to be assessed.
6. Compared with their use in other areas of animal health, modelling has been relatively little used for aquatic animal disease studies. The wide range of modelling methods used to study disease in human and terrestrial animals can usefully be applied to inform the development of policies to protect the health of wild stocks from emerging diseases.