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Hunting alters viral transmission and evolution
  • +14
  • Nicholas Fountain-Jones,
  • Simona Kraberger,
  • Roderick Gagne,
  • Marie Gilbertson,
  • Daryl Trumbo,
  • Michael Charelston,
  • Patricia Salerno,
  • Chris Funk,
  • Kevin Crooks,
  • Ken Logan,
  • Mathew Alldredge,
  • Simon Dellicour,
  • Guy Baele,
  • Xavier Didelot,
  • Sue VandeWoude,
  • Scott Carver,
  • Meggan Craft
Nicholas Fountain-Jones
University of Tasmania

Corresponding Author:[email protected]

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Simona Kraberger
Colorado State University
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Roderick Gagne
Colorado State University
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Marie Gilbertson
University of Minnesota Twin Cities
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Daryl Trumbo
Colorado State University
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Michael Charelston
University of Tasmania
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Patricia Salerno
Colorado State University
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Chris Funk
Colorado State University
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Kevin Crooks
Colorado State University
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Ken Logan
Colorado Parks and Wildlife
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Mathew Alldredge
Colorado Parks and Wildlife
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Simon Dellicour
KU Leuven
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Guy Baele
KU Leuven
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Xavier Didelot
University of Warwick
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Sue VandeWoude
Colorado State University
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Scott Carver
University of Tasmania
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Meggan Craft
University of Minnesota
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Abstract

Hunting can fundamentally alter wildlife population dynamics, but the consequences of hunting on pathogen transmission and evolution remain poorly understood. Here we present a study that leverages a unique landscape-scale experiment coupled with pathogen transmission tracing, network simulation and phylodynamics to provide insights into how hunting shapes viral dynamics in puma (Puma concolor). We show that removing hunting pressure enhances the role of males in transmission, increases the viral population growth rate and the role of evolutionary forces on the pathogen (higher purifying and diversifying selection) compared with when hunting was reinstated. Changes in transmission could be linked to short term social changes as male population increases. These findings are supported through comparison with a region with stable hunting management over the same time period. This study shows that routine wildlife management can have profound impacts on pathogen transmission and evolution not previously considered.