Britt J Heidinger, assistant professor at North Dakota State University, along with colleagues studied the a long-lived seabird, the European shag.
According to Heidinger, research in many organisms has shown that offspring produced by older parents often do not live as long, but little is known about why that occurs.
The answer may lie in the offspring's DNA. Or more precisely, in the length of telomeres, which are protective caps at the ends of chromosomes, researchers said.
Individuals with longer telomeres or slower rates of telomere loss have been shown to have greater longevity in a wide range of species.
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There also is evidence the offspring of older parents have shorter telomeres, but it is not clear whether this is due to the offspring inheriting shorter telomeres or if their telomere loss during pre- or post-natal growth is higher.
They found that when European shag chicks first hatched, there was no effect of parental age on offspring telomere length, suggesting there were no pre-natal effects of parental age.
However, chicks produced by older parents had greater telomere loss during nestling growth than chicks produced by younger parents.
The results are consistent with the hypothesis that the age of the parents influences offspring longevity, in part, through its effects on offspring telomere loss during post-natal growth.
"We have previously found that shag chicks that experience higher levels of stress during development have greater telomere loss," Heidinger said.
The study was published in the journal Functional Ecology.