Ranavirus Amplification in Low-Diversity Amphibian Communities.

Joe-Felix Bienentreu,David Lesbarrères,Amy L Greer,Danna M Schock

doi:10.3389/fvets.2022.755426

Joe-Felix Bienentreu, David Lesbarrères + Show 2 more

Open Access

https://doi.org/10.3389/fvets.2022.755426

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Abstract

In an era where emerging infectious diseases are a serious threat to biodiversity, epidemiological patterns need to be identified, particularly the complex mechanisms driving the dynamics of multi-host pathogens in natural communities. Many amphibian species have faced unprecedented population declines associated with diseases. Yet, specific processes shaping host-pathogen relationships within and among communities for amphibian pathogens such as ranaviruses (RV) remain poorly understood. To address this gap, we conducted a comprehensive study of RV in low-diversity amphibian communities in north-western Canada to assess the effects of biotic factors (species identity, species richness, abundance) and abiotic factors (conductivity, pH) on the pathogen prevalence and viral loads. Across 2 years and 18 sites, with communities of up to three hosts (wood frog, Rana sylvatica; boreal chorus frog, Pseudacris maculata; Canadian toad, Anaxyrus hemiophrys), we observed that RV prevalence nearly doubled with each additional species in a community, suggesting an amplification effect in aquatic, as well as terrestrial life-history stages. Infection intensity among infected wood frogs and boreal chorus frogs also significantly increased with an increase in species richness. Interestingly, we did not observe any effects of host abundance or abiotic factors, highlighting the importance of including host identity and species richness when investigating multi-host pathogens. Ultimately, only such a comprehensive approach can improve our understanding of complex and often highly context-dependent host-pathogen interactions.

Highlights

Host-pathogen interactions in natural communities are complex and context-dependent [1, 2]
Abundance varied greatly among the three amphibian species: in terrestrial phases (2016), an average of wood frog (WF) were caught per hour across sites, whereas an average of 4 chorus frog (CF) were caught per hour across nine sites (Table 1)
For aquatic stages (2017), an average of 40 WF were caught per hour across 16 sites whereas an average of 14 CF were caught per hour across 11 sites

Summary

Introduction

Host-pathogen interactions in natural communities are complex and context-dependent [1, 2]. Pathogens can influence community processes at different trophic levels, including predator-prey interactions [3], inter-species competition [4], and social behavior. This includes, but is not limited to mate choice [5], avoidance of infected conspecifics [6], and higher activity rates in infected individuals [7]. The mode of transmission (e.g., frequency- vs density-dependent), and individual traits such as life history and health of the host can influence host-pathogen dynamics [2, 9,10,11,12]. Much remains to be explained regarding the transmission dynamics, and specific host-pathogen

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Conclusion