Trait-based variation in host contribution to pathogen transmission across species and resource supplies

Two key knowledge gaps currently limit the development of more predictive and general models of pathogen transmission: (1) the physiological basis of heterogeneity in host contribution to pathogen transmission (reservoir potential) remains poorly understood and (2) a general means of integrating the...

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Bibliographic Details
Published in:Ecology (Durham) 2020-11, Vol.101 (11), p.1-12
Main Authors: Welsh, Miranda E., Cronin, James Patrick, Mitchell, Charles E.
Format: Article
Language:English
Subjects:
disease ecology
Disease transmission
Ecological models
Ecology
Economics
Epidemic models
Epidemiology
functional trait
Heterogeneity
host
Host plants
leaf economics
Leaves
pathogen
Pathogens
Phenotype
Physiology
Plant communities
Plant Leaves
Plant Physiological Phenomena
Plants
Species
trait‐based ecology
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Summary:Two key knowledge gaps currently limit the development of more predictive and general models of pathogen transmission: (1) the physiological basis of heterogeneity in host contribution to pathogen transmission (reservoir potential) remains poorly understood and (2) a general means of integrating the ecological dynamics of host communities has yet to emerge. If the traits responsible for differences in reservoir potential also modulate host community dynamics, these traits could be used to predict pathogen transmission as host communities change. In two greenhouse experiments, across 23 host species and two levels of resource supply, the reservoir potential of plant hosts increased significantly along the Leaf Economics Spectrum, a global axis of plant physiological trait covariation that features prominently in models of plant community ecology. This indicates that the traits of the Leaf Economics Spectrum underlie broad differences in reservoir potential across host species and resource supplies. Therefore, host traits could be used to integrate epidemiological models of pathogen transmission with ecological models of host community change.
ISSN:0012-9658
1939-9170
DOI:10.1002/ecy.3164