Changes in temperature alter the potential outcomes of virus host shifts.

Katherine E. Roberts,Manmohan D. Sharma,Ben Longdon,Jarrod D. Hadfield,David S. Schneider

doi:10.1371/journal.ppat.1007185

Katherine E. Roberts, Manmohan D. Sharma + Show 3 more

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https://doi.org/10.1371/journal.ppat.1007185

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Journal: PLoS Pathogens	Publication Date: Oct 19, 2018
Citations: 116	License type: CC BY 4.0

Affiliation: University of Exeter, University of Edinburgh

Abstract

Host shifts–where a pathogen jumps between different host species–are an important source of emerging infectious disease. With on-going climate change there is an increasing need to understand the effect changes in temperature may have on emerging infectious disease. We investigated whether species’ susceptibilities change with temperature and ask if susceptibility is greatest at different temperatures in different species. We infected 45 species of Drosophilidae with an RNA virus and measured how viral load changes with temperature. We found the host phylogeny explained a large proportion of the variation in viral load at each temperature, with strong phylogenetic correlations between viral loads across temperature. The variance in viral load increased with temperature, while the mean viral load did not. This suggests that as temperature increases the most susceptible species become more susceptible, and the least susceptible less so. We found no significant relationship between a species’ susceptibility across temperatures, and proxies for thermal optima (critical thermal maximum and minimum or basal metabolic rate). These results suggest that whilst the rank order of species susceptibilities may remain the same with changes in temperature, some species may become more susceptible to a novel pathogen, and others less so.

Highlights

Temperature is arguably the most important abiotic factor that affects all organisms, having both indirect and direct effects on physiology and life history traits [1,2,3]
Emerging infectious diseases are often the result of a host shift, where a pathogen jumps from one host species into another
Understanding the factors underlying host shifts is a major goal for infectious disease research

Summary

Introduction

Temperature is arguably the most important abiotic factor that affects all organisms, having both indirect and direct effects on physiology and life history traits [1,2,3]. Changes in temperature can impact both host and parasite biology, leading to complex and difficult to predict outcomes [2,6]. Host shifts, where a parasite from one host species invades and establishes in a novel host species, are an important source of emerging infectious disease [7]. Exposure of the host to the new pathogen species must occur in such a way that transmission is successful. There must be sufficient onwards transmission for the pathogen to become established in the new host species [7,9,10]. Distribution changes may lead to new species assemblages, causing novel contacts between parasites and potential hosts [19,20,21]

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