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Modeled Impacts of Chronic Wasting Disease on White-Tailed Deer in a Semi-Arid Environment

White-tailed deer are a culturally and economically important game species in North America, especially in South Texas. The recent discovery of chronic wasting disease (CWD) in captive deer facilities in Texas has increased concern about the potential emergence of CWD in free-ranging deer. The conce...

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Autores principales: Foley, Aaron M., Hewitt, David G., DeYoung, Charles A., DeYoung, Randy W., Schnupp, Matthew J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2016
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5053495/
https://www.ncbi.nlm.nih.gov/pubmed/27711208
http://dx.doi.org/10.1371/journal.pone.0163592
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author Foley, Aaron M.
Hewitt, David G.
DeYoung, Charles A.
DeYoung, Randy W.
Schnupp, Matthew J.
author_facet Foley, Aaron M.
Hewitt, David G.
DeYoung, Charles A.
DeYoung, Randy W.
Schnupp, Matthew J.
author_sort Foley, Aaron M.
collection PubMed
description White-tailed deer are a culturally and economically important game species in North America, especially in South Texas. The recent discovery of chronic wasting disease (CWD) in captive deer facilities in Texas has increased concern about the potential emergence of CWD in free-ranging deer. The concern is exacerbated because much of the South Texas region is a semi-arid environment with variable rainfall, where precipitation is strongly correlated with fawn recruitment. Further, the marginally productive rangelands, in combination with erratic fawn recruitment, results in populations that are frequently density-independent, and thus sensitive to additive mortality. It is unknown how a deer population in semi-arid regions would respond to the presence of CWD. We used long-term empirical datasets from a lightly harvested (2% annual harvest) population in conjunction with 3 prevalence growth rates from CWD afflicted areas (0.26%, 0.83%, and 2.3% increases per year) via a multi-stage partially deterministic model to simulate a deer population for 25 years under four scenarios: 1) without CWD and without harvest, 2) with CWD and without harvest, 3) with CWD and male harvest only, and 4) with CWD and harvest of both sexes. The modeled populations without CWD and without harvest averaged a 1.43% annual increase over 25 years; incorporation of 2% annual harvest of both sexes resulted in a stable population. The model with slowest CWD prevalence rate growth (0.26% annually) without harvest resulted in stable populations but the addition of 1% harvest resulted in population declines. Further, the male age structure in CWD models became skewed to younger age classes. We incorporated fawn:doe ratios from three CWD afflicted areas in Wisconsin and Wyoming into the model with 0.26% annual increase in prevalence and populations did not begin to decline until ~10%, ~16%, and ~26% of deer were harvested annually. Deer populations in variable environments rely on high adult survivorship to buffer the low and erratic fawn recruitment rates. The increase in additive mortality rates for adults via CWD negatively impacted simulated population trends to the extent that hunter opportunity would be greatly reduced. Our results improve understanding of the potential influences of CWD on deer populations in semi-arid environments with implications for deer managers, disease ecologists, and policy makers.
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spelling pubmed-50534952016-10-27 Modeled Impacts of Chronic Wasting Disease on White-Tailed Deer in a Semi-Arid Environment Foley, Aaron M. Hewitt, David G. DeYoung, Charles A. DeYoung, Randy W. Schnupp, Matthew J. PLoS One Research Article White-tailed deer are a culturally and economically important game species in North America, especially in South Texas. The recent discovery of chronic wasting disease (CWD) in captive deer facilities in Texas has increased concern about the potential emergence of CWD in free-ranging deer. The concern is exacerbated because much of the South Texas region is a semi-arid environment with variable rainfall, where precipitation is strongly correlated with fawn recruitment. Further, the marginally productive rangelands, in combination with erratic fawn recruitment, results in populations that are frequently density-independent, and thus sensitive to additive mortality. It is unknown how a deer population in semi-arid regions would respond to the presence of CWD. We used long-term empirical datasets from a lightly harvested (2% annual harvest) population in conjunction with 3 prevalence growth rates from CWD afflicted areas (0.26%, 0.83%, and 2.3% increases per year) via a multi-stage partially deterministic model to simulate a deer population for 25 years under four scenarios: 1) without CWD and without harvest, 2) with CWD and without harvest, 3) with CWD and male harvest only, and 4) with CWD and harvest of both sexes. The modeled populations without CWD and without harvest averaged a 1.43% annual increase over 25 years; incorporation of 2% annual harvest of both sexes resulted in a stable population. The model with slowest CWD prevalence rate growth (0.26% annually) without harvest resulted in stable populations but the addition of 1% harvest resulted in population declines. Further, the male age structure in CWD models became skewed to younger age classes. We incorporated fawn:doe ratios from three CWD afflicted areas in Wisconsin and Wyoming into the model with 0.26% annual increase in prevalence and populations did not begin to decline until ~10%, ~16%, and ~26% of deer were harvested annually. Deer populations in variable environments rely on high adult survivorship to buffer the low and erratic fawn recruitment rates. The increase in additive mortality rates for adults via CWD negatively impacted simulated population trends to the extent that hunter opportunity would be greatly reduced. Our results improve understanding of the potential influences of CWD on deer populations in semi-arid environments with implications for deer managers, disease ecologists, and policy makers. Public Library of Science 2016-10-06 /pmc/articles/PMC5053495/ /pubmed/27711208 http://dx.doi.org/10.1371/journal.pone.0163592 Text en © 2016 Foley et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Foley, Aaron M.
Hewitt, David G.
DeYoung, Charles A.
DeYoung, Randy W.
Schnupp, Matthew J.
Modeled Impacts of Chronic Wasting Disease on White-Tailed Deer in a Semi-Arid Environment
title Modeled Impacts of Chronic Wasting Disease on White-Tailed Deer in a Semi-Arid Environment
title_full Modeled Impacts of Chronic Wasting Disease on White-Tailed Deer in a Semi-Arid Environment
title_fullStr Modeled Impacts of Chronic Wasting Disease on White-Tailed Deer in a Semi-Arid Environment
title_full_unstemmed Modeled Impacts of Chronic Wasting Disease on White-Tailed Deer in a Semi-Arid Environment
title_short Modeled Impacts of Chronic Wasting Disease on White-Tailed Deer in a Semi-Arid Environment
title_sort modeled impacts of chronic wasting disease on white-tailed deer in a semi-arid environment
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5053495/
https://www.ncbi.nlm.nih.gov/pubmed/27711208
http://dx.doi.org/10.1371/journal.pone.0163592
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