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Large mammal telomere length variation across ecoregions. | LitMetric

AI Article Synopsis

  • - The study examined telomere length (a stress indicator) in moose from three different ecoregions to understand how regional stressors affect them, using 153 samples to measure relative telomere lengths in white blood cells.
  • - Results showed that moose in northern and southern ecoregions, which face chronic stress from extreme temperatures and high human activity, had significantly shorter telomeres compared to those in the less disturbed boreal region.
  • - The findings indicate that even predictable environmental stressors can lead to significant long-term stress differences among wildlife populations, contributing to a better understanding of telomere biology in animals living in human-impacted ecosystems.

Article Abstract

Background: Telomere length provides a physiological proxy for accumulated stress in animals. While there is a growing consensus over how telomere dynamics and their patterns are linked to life history variation and individual experience, knowledge on the impact of exposure to different stressors at a large spatial scale on telomere length is still lacking. How exposure to different stressors at a regional scale interacts with individual differences in life history is also poorly understood. To better understand large-scale regional influences, we investigated telomere length variation in moose (Alces alces) distributed across three ecoregions. We analyzed 153 samples of 106 moose representing moose of both sexes and range of ages to measure relative telomere lengths (RTL) in white blood cells.

Results: We found that average RTL was significantly shorter in a northern (montane) and southern (sarmatic) ecoregion where moose experience chronic stress related to severe summer and winter temperatures as well as high anthropogenic land-use compared to the boreal region. Our study suggests that animals in the northern boreal forests, with relatively homogenous land use, are less disturbed by environmental and anthropogenic stressors. In contrast, animals in areas experiencing a higher rate of anthropogenic and environmental change experience increased stress.

Conclusion: Although animals can often adapt to predictable stressors, our data suggest that some environmental conditions, even though predictable and ubiquitous, can generate population level differences of long-term stress. By measuring RTL in moose for the first time, we provide valuable insights towards our current understanding of telomere biology in free-ranging wildlife in human-modified ecosystems.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9426267PMC
http://dx.doi.org/10.1186/s12862-022-02050-5DOI Listing

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