Telomere damage and redox status alterations in free-living passerines exposed to metals

Telomere length may reflect the expected life span and possibly individual quality. Environmental stressors are known to increase oxidative stress and accelerate telomere attrition: however the interactions between redox status and telomere dynamics are not fully understood. We investigated whether...

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Bibliographic Details
Published in:The Science of the total environment 2017-01, Vol.575, p.841-848
Main Authors: Stauffer, Janina, Panda, Bineet, Eeva, Tapio, Rainio, Miia, Ilmonen, Petteri
Format: Article
Language:English
Subjects:
adults
Animals
antioxidants
breeding
calcium
Environmental Pollutants - toxicity
Female
females
Ficedula hypoleuca
Growth stress
Heavy metal
heavy metals
insectivores
liver
longevity
Metals, Heavy - toxicity
nestlings
Oxidation-Reduction
Oxidative Stress
Parus major
Passeriformes
point source pollution
Pollution
siblings
Telomere length
Telomere Shortening - drug effects
telomeres
wild birds
Within-brood competition
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Summary:Telomere length may reflect the expected life span and possibly individual quality. Environmental stressors are known to increase oxidative stress and accelerate telomere attrition: however the interactions between redox status and telomere dynamics are not fully understood. We investigated whether exposure to heavy metal pollution is associated with oxidative stress and telomere damage in two insectivorous passerines, the Great tit (Parus major) and the Pied flycatcher (Ficedula hypoleuca). We were also interested to know whether within-brood competition could influence the nestling redox status or telomere length. Breeding females and nestlings were sampled near the point pollution source and compared to birds in non-polluted control zone. We measured heavy metal concentrations, calcium, metallothioneins, telomere lengths and redox status (oxidative damage, and enzymatic and non-enzymatic antioxidants) in liver samples. Great tit nestlings in the polluted zone had significantly shorter telomeres compared to those in the unpolluted control zone. In addition, those great tit nestlings that were lighter than their average siblings, had shorter telomeres compared to the heavier ones. In pied flycatchers neither pollution nor growth stress were associated with telomere length, but adult females had significantly shorter telomeres compared to the nestlings. All the results related to redox status varied remarkably among the species and the age groups. In both species antioxidants were related to pollution. There were no significant associations between redox status and telomere length. Our results suggest that wild birds at a young age are vulnerable to pollution and growth stress induced telomere damage. Redox status seems to interact with pollution and growth, but more studies are needed to clarify the underlying physiological mechanisms of telomere attrition. Our study highlights that all the observed associations and differences between the sampling zones varied depending on the species, age, and degree of exposure to pollution. [Display omitted] •We studied associations between metals, TL and redox status in two bird species.•We measured several components to get a broad assessment of the redox status.•Pollution and growth stress were associated with short TL in great tit nestlings.•The stress effects on biological aging varied depending on the species and age.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2016.09.131