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8 July 2024 Bighorn Sheep (Ovis canadensis) with Higher Whole Blood Selenium Levels Have Improved Survival and Altered Immune Responses
Dana Y. Tsuchida, Morgan F. Gentzkow, Robert S. Spaan, Julia Burco, Claire E. Couch, Johannie M. Spaan, Clinton W. Epps, Brianna R. Beechler
Author Affiliations +
Abstract

Bighorn sheep (Ovis canadensis) are herbivorous ungulates that live in forage-poor areas of the American west. The trace minerals that herbivores derive from forage are important for immune function. Therefore, identifying trace minerals that affect immune function in bighorn sheep could provide important insights into disease susceptibility and population health in threatened populations. We sought to determine whether trace mineral composition in blood or plasma correlates to survival and determine whether immunologic parameters correlate with any trace minerals that affect survival. We used data collected from 2016 to 2018 as part of a large study on bighorn sheep in southeastern Oregon and northern Nevada, US. We measured the survival of 135 bighorn sheep during the 8-mo monitoring period, including general metrics of immune function and trace mineral levels. We found that animals with higher selenium had improved survival over the monitoring period, with higher peripheral blood mononuclear cell activity (lymphocytes and monocytes) and lower bacterial killing ability in an in vitro assay. This suggests that bighorn sheep may have altered immune function when selenium levels are low, making them more likely to die during the 8-mo monitoring period. Future work should consider whether habitat management strategies that increase selenium intake might improve disease resistance and survival in bighorn sheep in selenium-poor areas.

Dana Y. Tsuchida, Morgan F. Gentzkow, Robert S. Spaan, Julia Burco, Claire E. Couch, Johannie M. Spaan, Clinton W. Epps, and Brianna R. Beechler "Bighorn Sheep (Ovis canadensis) with Higher Whole Blood Selenium Levels Have Improved Survival and Altered Immune Responses," Journal of Wildlife Diseases 60(3), 721-726, (8 July 2024). https://doi.org/10.7589/JWD-D-23-00042
Received: 9 March 2023; Accepted: 7 February 2024; Published: 8 July 2024
KEYWORDS
ecoimmunology
micronutrient
nutrition
wildlife
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