Ionizing radiation has negligible effects on the age, telomere length, and corticosterone levels of Chornobyl tree frogs

Abstract

AbstractPollutants, such as ionizing radiation, released at high levels by human activities can shape ecological and evolutionary processes. The accident occurred at Chornobyl nuclear power plant (Ukraine, April 1986) contaminated a large extension of territory after the deposition of radioactive material. Beyond the immediate negative impact caused by the accident, it is still under debate whether the chronic exposure to the radiation levels currently present in the area signifies a serious threat for organisms. One hypothesis suggests that current levels of radiation may cause unobservable damage in the short-term, but have long-term effects such as decreases in longevity. Here, we investigate through a field-based approach, whether current levels of radiation in Chornobyl negatively impact the age of a semi-aquatic vertebrate, the Eastern tree frogHyla orientalis. We also explore whether radiation induces changes in an ageing marker, telomere length, or in the stress hormone corticosterone. We found no effect of total individual absorbed radiation (including both external and internal exposure) on frog age (n = 197 individuals sampled in three consecutive years). We also did not find any relationship between individual absorbed radiation and telomere length, but a negative relationship between individual absorbed radiation and corticosterone levels. Our results suggest that radiation levels currently experienced by tree frogs in Chornobyl may not be high enough to cause severe chronic damage to semi-aquatic vertebrates such as this species. This is the first study addressing age and stress hormones in Chornobyl wildlife, and thus future research will confirm if these results can be extended to other taxa.