High prevalence does not necessarily equal maintenance species: Avoiding biased claims of disease reservoirs when using surveillance data

doi:10.1111/1365-2656.13774

Review

. 2022 Sep;91(9):1740-1754.

doi: 10.1111/1365-2656.13774. Epub 2022 Jul 30.

High prevalence does not necessarily equal maintenance species: Avoiding biased claims of disease reservoirs when using surveillance data

Mark Q Wilber¹, Joseph DeMarchi¹, Nina H Fefferman^{2

3}, Matthew J Silk²

Affiliations

¹ Department of Forestry, Wildlife, and Fisheries, University of Tennessee Institute of Agriculture, Knoxville, TN, USA.
² Department Ecology and Evolutionary Biology, University of Tennessee, Knoxville, TN, USA.
³ Department of Mathematics, University of Tennessee, Knoxville, TN, USA.

PMID: 35838341
DOI: 10.1111/1365-2656.13774

Review

High prevalence does not necessarily equal maintenance species: Avoiding biased claims of disease reservoirs when using surveillance data

Mark Q Wilber et al. J Anim Ecol. 2022 Sep.

. 2022 Sep;91(9):1740-1754.

doi: 10.1111/1365-2656.13774. Epub 2022 Jul 30.

Authors

Mark Q Wilber¹, Joseph DeMarchi¹, Nina H Fefferman^{2

3}, Matthew J Silk²

Affiliations

¹ Department of Forestry, Wildlife, and Fisheries, University of Tennessee Institute of Agriculture, Knoxville, TN, USA.
² Department Ecology and Evolutionary Biology, University of Tennessee, Knoxville, TN, USA.
³ Department of Mathematics, University of Tennessee, Knoxville, TN, USA.

PMID: 35838341
DOI: 10.1111/1365-2656.13774

Abstract

Many pathogens of public health and conservation concern persist in host communities. Identifying candidate maintenance and reservoir species is therefore a central component of disease management. The term maintenance species implies that if all species but the putative maintenance species were removed, then the pathogen would still persist. In the absence of field manipulations, this statement inherently requires a causal or mechanistic model to assess. However, we lack a systematic understanding of (i) how often conclusions are made about maintenance and reservoir species without reference to mechanistic models (ii) what types of biases may be associated with these conclusions and (iii) how explicitly invoking causal or mechanistic modelling can help ameliorate these biases. Filling these knowledge gaps is critical for robust inference about pathogen persistence and spillover in multihost-parasite systems, with clear implications for human and wildlife health. To address these gaps, we performed a literature review on the evidence previous studies have used to make claims regarding maintenance or reservoir species. We then developed multihost-parasite models to explore and demonstrate common biases that could arise when inferring maintenance potential from observational prevalence data. Finally, we developed new theory to show how model-driven inference of maintenance species can minimize and eliminate emergent biases. In our review, we found that 83% of studies used some form of observational prevalence data to draw conclusions on maintenance potential and only 6% of these studies combined observational data with mechanistic modelling. Using our model, we demonstrate how the community, spatial and temporal context of observational data can lead to substantial biases in inferences of maintenance potential. Importantly, our theory identifies that model-driven inference of maintenance species elucidates other streams of observational data that can be leveraged to correct these biases. Model-driven inference is an essential, yet underused, component of multidisciplinary studies that make inference about host reservoir and maintenance species. Better integration of wildlife disease surveillance and mechanistic models is necessary to improve the robustness and reproducibility of our conclusions regarding maintenance and reservoir species.

Keywords: disease metacommunity; disease modelling; maintenance species; multihost; pathogen surveillance; prevalence; reservoir species; seasonality.

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References

REFERENCES

1. Barron, M. C., Tompkins, D. M., Ramsey, D. S., & Bosson, M. A. (2015). The role of multiple wildlife hosts in the persistence and spread of bovine tuberculosis in New Zealand. New Zealand Veterinary Journal, 63, 68-76.
1. Becker, D. J., Seifert, S. N., & Carlson, C. J. (2020). Beyond infection: Integrating competence into reservoir host prediction. Trends in Ecology and Evolution, 35, 1062-1065.
1. Bielby, J., Price, S. J., Monsalve-Carcaño, C., & Bosch, J. (2021). Host contribution to parasite persistence is consistent between parasites and over time, but varies spatially. Ecological Applications, 31, e02256.
1. Buhnerkempe, M. G., Prager, K. C., Strelioff, C. C., Greig, D. J., Laake, J. L., Melin, S. R., DeLong, R. L., Gulland, F. M., & Lloyd-Smith, J. O. (2017). Detecting signals of chronic shedding to explain pathogen persistence: Leptospira interrogans in California Sea lions. Journal of Animal Ecology, 86, 460-472.
1. Cortez, M. H., & Duffy, M. A. (2021). The context-dependent effects of host competence, competition, and pathogen transmission mode on disease prevalence. The American Naturalist, 198, 179-194.

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[1] Barron, M. C., Tompkins, D. M., Ramsey, D. S., & Bosson, M. A. (2015). The role of multiple wildlife hosts in the persistence and spread of bovine tuberculosis in New Zealand. New Zealand Veterinary Journal, 63, 68-76.

[2] Barron, M. C., Tompkins, D. M., Ramsey, D. S., & Bosson, M. A. (2015). The role of multiple wildlife hosts in the persistence and spread of bovine tuberculosis in New Zealand. New Zealand Veterinary Journal, 63, 68-76.

[3] Becker, D. J., Seifert, S. N., & Carlson, C. J. (2020). Beyond infection: Integrating competence into reservoir host prediction. Trends in Ecology and Evolution, 35, 1062-1065.

[4] Becker, D. J., Seifert, S. N., & Carlson, C. J. (2020). Beyond infection: Integrating competence into reservoir host prediction. Trends in Ecology and Evolution, 35, 1062-1065.

[5] Bielby, J., Price, S. J., Monsalve-Carcaño, C., & Bosch, J. (2021). Host contribution to parasite persistence is consistent between parasites and over time, but varies spatially. Ecological Applications, 31, e02256.

[6] Bielby, J., Price, S. J., Monsalve-Carcaño, C., & Bosch, J. (2021). Host contribution to parasite persistence is consistent between parasites and over time, but varies spatially. Ecological Applications, 31, e02256.

[7] Buhnerkempe, M. G., Prager, K. C., Strelioff, C. C., Greig, D. J., Laake, J. L., Melin, S. R., DeLong, R. L., Gulland, F. M., & Lloyd-Smith, J. O. (2017). Detecting signals of chronic shedding to explain pathogen persistence: Leptospira interrogans in California Sea lions. Journal of Animal Ecology, 86, 460-472.

[8] Buhnerkempe, M. G., Prager, K. C., Strelioff, C. C., Greig, D. J., Laake, J. L., Melin, S. R., DeLong, R. L., Gulland, F. M., & Lloyd-Smith, J. O. (2017). Detecting signals of chronic shedding to explain pathogen persistence: Leptospira interrogans in California Sea lions. Journal of Animal Ecology, 86, 460-472.

[9] Cortez, M. H., & Duffy, M. A. (2021). The context-dependent effects of host competence, competition, and pathogen transmission mode on disease prevalence. The American Naturalist, 198, 179-194.

[10] Cortez, M. H., & Duffy, M. A. (2021). The context-dependent effects of host competence, competition, and pathogen transmission mode on disease prevalence. The American Naturalist, 198, 179-194.

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High prevalence does not necessarily equal maintenance species: Avoiding biased claims of disease reservoirs when using surveillance data

Affiliations

High prevalence does not necessarily equal maintenance species: Avoiding biased claims of disease reservoirs when using surveillance data

Authors

Affiliations

Abstract

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References

REFERENCES

Publication types

MeSH terms

Grants and funding

LinkOut - more resources

Full Text Sources