Season of death, pathogen persistence and wildlife behaviour alter number of anthrax secondary infections from environmental reservoirs

Dolfi, Amélie C.; Kausrud, Kyrre; Rysava, Kristyna; Champagne, Celeste; Huang, Yen-Hua; Barandongo, Zoe R.; Turner, Wendy C.

doi:10.1098/rspb.2023.2568

Proc. R. Soc. B.

2024

DOI: 10.1098/rspb.2023.2568

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Season of death, pathogen persistence and wildlife behaviour alter number of anthrax secondary infections from environmental reservoirs

Amélie C. Dolfi,

Kyrre Kausrud,

Kristyna Rysava

et al.

Abstract: An important part of infectious disease management is predicting factors that influence disease outbreaks, such as R , the number of secondary infections arising from an infected individual. Estimating R is particularly challenging for environmentally transmitted pathogens given time lags between cases and subsequent infections. Here, we calculated R for Bacillus anthracis infections arising from anthrax carcass sit… Show more

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Cited by 2 publications

References 59 publications

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Parasite transmission stage abundance varies in lakes over time and space

Davenport,

Dziuba,

Jacobson

et al. 2024

Limnology & Oceanography

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Environmentally transmitted parasites produce transmission stages that can remain viable and infective for extended periods of time in the environment where susceptible hosts may encounter them. Although many parasites have this mode of transmission, the abundance and distribution of environmental transmission stages have largely been overlooked, especially in aquatic habitats. Without empirical data to characterize spatial and temporal dynamics of parasite transmission stages in the environment, we might make incorrect assumptions about host–parasite contact rates. For aquatic environments, seasonal habitat structure driven by thermal stratification has been hypothesized to affect the patchiness of transmission stages within the water column, leading to uneven exposure risk to hosts. In this study, we quantified transmission stage concentrations of five common parasites of Daphnia spp. and Ceriodaphnia dubia at every meter of the water column at the deep basin of six lakes in southeastern Michigan every 2 weeks from June to November 2021. We found that transmission stage concentration varied by orders of magnitude over time and with depth. We investigated several possible drivers of these spatial and temporal patterns. For instance, our results suggest that greater mixing depth decreased transmission stage vertical patchiness within the water column of lakes with lower Fee's p values. However, horizontal spore patchiness across a lake was not correlated with the nearshore–offshore gradient of our study lakes. Overall, the results of our study show that parasite transmission stage concentrations have spatial and temporal dynamics that could affect disease dynamics within highly structured aquatic environments.

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Parasite transmission stage abundance varies in lakes over time and space

Davenport,

Dziuba,

Jacobson

et al. 2024

Limnology & Oceanography

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A novel discrete slash family of distributions with application to epidemiology informatics data

Joseph,

Gillariose

2024

Int J Data Sci Anal

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Season of death, pathogen persistence and wildlife behaviour alter number of anthrax secondary infections from environmental reservoirs

Cited by 2 publications

References 59 publications

Parasite transmission stage abundance varies in lakes over time and space

Parasite transmission stage abundance varies in lakes over time and space

A novel discrete slash family of distributions with application to epidemiology informatics data

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