Hunting alters viral transmission and evolution in a large carnivore

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 quasi-experiment coupled with pathogen-transmission tracing, network simulati...

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Veröffentlicht in:	Nature ecology & evolution 2022-02, Vol.6 (2), p.174-182
Hauptverfasser:	Fountain-Jones, Nicholas M., Kraberger, Simona, Gagne, Roderick B., Gilbertson, Marie L. J., Trumbo, Daryl R., Charleston, Michael, Salerno, Patricia E., Chris Funk, W., Crooks, Kevin, Logan, Kenneth, Alldredge, Mathew, Dellicour, Simon, Baele, Guy, Didelot, Xavier, VandeWoude, Sue, Carver, Scott, Craft, Meggan E.
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Schlagworte:	45 631/158/2452 631/326/596/2554 Animals Animals, Wild Biological and Physical Anthropology Biomedical and Life Sciences Ecology Evolution Evolutionary Biology Female Growth rate Hunting Immune system Immunodeficiency Virus, Feline - physiology Life Sciences Male Males Paleontology Pathogens Population dynamics Population growth Predatory Behavior Puma - physiology Puma - virology Social conditions Virus Physiological Phenomena Viruses Wildlife management Zoology
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creator	Fountain-Jones, Nicholas M. Kraberger, Simona Gagne, Roderick B. Gilbertson, Marie L. J. Trumbo, Daryl R. Charleston, Michael Salerno, Patricia E. Chris Funk, W. Crooks, Kevin Logan, Kenneth Alldredge, Mathew Dellicour, Simon Baele, Guy Didelot, Xavier VandeWoude, Sue Carver, Scott Craft, Meggan E.
description	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 quasi-experiment coupled with pathogen-transmission tracing, network simulation and phylodynamics to provide insights into how hunting shapes feline immunodeficiency virus (FIV) 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 increases the role of evolutionary forces on the pathogen compared to when hunting was reinstated. Changes in transmission observed with the removal of hunting could be linked to short-term social changes while the male puma population increased. 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 impacts on pathogen transmission and evolution not previously considered. By conducting viral phylodynamic analysis on samples of puma feline immunodeficiency virus from regions with and without puma hunting, the authors show that stopping hunting disrupts male social structure and in turn influences viral dynamics.
doi_str_mv	10.1038/s41559-021-01635-5
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subjects	45 631/158/2452 631/326/596/2554 Animals Animals, Wild Biological and Physical Anthropology Biomedical and Life Sciences Ecology Evolution Evolutionary Biology Female Growth rate Hunting Immune system Immunodeficiency Virus, Feline - physiology Life Sciences Male Males Paleontology Pathogens Population dynamics Population growth Predatory Behavior Puma - physiology Puma - virology Social conditions Virus Physiological Phenomena Viruses Wildlife management Zoology
title	Hunting alters viral transmission and evolution in a large carnivore
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