Host-pathogen life history interactions affect biological control success

Host-pathogen life history interactions affect biological control success

Although several successful examples of biocontrol using fungal pathogens exist, situations in which there is no discernable impact remain unacceptably high. This response may result from targeting inappropriate host life stages, failure of the control agent to establish and proliferate because of p...

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Bibliographic Details
Published in:Weed technology Vol. 18; pp. 1269 - 1274
Main Authors: Thrall, P.H, Burdon, J.J
Format: Journal Article
Language:English
Published: Weed Science Society of America 01-01-2004
Subjects:
Disease resistance
Epidemiology
Fecundity
Genotypes
Host pathogen relationships
invasive species
Longevity
Modeling
Mortality
Pathogens
Population size
simulation models
weeds
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Summary:Although several successful examples of biocontrol using fungal pathogens exist, situations in which there is no discernable impact remain unacceptably high. This response may result from targeting inappropriate host life stages, failure of the control agent to establish and proliferate because of poor matching of host and pathogen life histories, or from broad environmental mismatching. At a genetic level, interactions between host and pathogen may determine the ultimate success of control programs. Here, we use a simulation model to illustrate that the optimal level of pathogen virulence is influenced by factors such as host longevity, as well as whether pathogen impacts on targets are through reduced fecundity or increased mortality. Importantly, the optimal pathogen in terms of effective long-term control of a target population is not necessarily the most virulent strain. In part, this is because the imposition of selection by a biocontrol agent may induce rapid increases in the frequency of resistance (if present) in host populations, ultimately leading to decreased effectiveness. Thus, appropriate matching of host and pathogen characteristics is an important consideration in trying to maximize impact on an invasive weed while minimizing the evolution of resistance.
ISSN:0890-037X
1550-2740
DOI:10.1614/0890-037X(2004)018[1269:HLHIAB]2.0.CO;2