AI Article Synopsis
- Tardigrades (Milnesium tardigradum) can withstand high levels of ionizing radiation, with this study examining their survival and reproductive ability after exposure to gamma-rays and heavy ions.
- Both hydrated and dehydrated tardigrades were tested with radiation doses ranging from 1000 to 8000 Gy, observing effects on short-term survival at 2, 24, and 48 hours, and long-term survival and reproduction for up to 31 days.
- The study found median lethal doses for hydrated and anhydrobiotic tardigrades after 48 hours, with exposure to over 1000 Gy resulting in complete sterility, highlighting their remarkable resilience yet significant reproductive impairment under high radiation.
Article Abstract
Purpose: Tardigrades are known to survive high doses of ionizing radiation. However, there have been no reports about radiation effects in tardigrades under culture conditions. In this study, we investigated tolerance of the tardigrade, Milnesium tardigradum, against gamma-rays and heavy ions by determining short-term or long-term survival, and reproductive ability after irradiation.
Materials And Methods: Hydrated and anhydrobiotic animals were exposed to gamma-rays (1000 - 7000 Gy) or heavy ions (1000 - 8000 Gy) to evaluate short-term survival at 2, 24 and 48 h post-irradiation. Long-term survival and reproduction were observed up to 31 days after irradiation with gamma-rays (1000 - 4000 Gy).
Results: At 48 h after irradiation, median lethal doses were 5000 Gy (gamma-rays) and 6200 Gy (heavy ions) in hydrated animals, and 4400 Gy (gamma-rays) and 5200 Gy (heavy ions) in anhydrobiotic ones. Gamma-irradiation shortened average life span in a dose-dependent manner both in hydrated and anhydrobiotic groups. No irradiated animals laid eggs with one exception in which a hydrated animal irradiated with 2000 Gy of gamma-rays laid 3 eggs, and those eggs failed to hatch, whereas eggs produced by non-irradiated animals hatched successfully.
Conclusion: M. tardigradum survives high doses of ionizing radiation in both hydrated and anhydrobiotic states, but irradiation with >1000 Gy makes them sterile.
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| http://dx.doi.org/10.1080/09553000600972956 | DOI Listing |
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