AI Article Synopsis
- Organisms, like spadefoot toad larvae, adapt to environmental changes through physiological changes that can impact their growth, development, and overall survival.
- In challenging conditions like pond drying, tadpoles grow faster but at the cost of relying on their fat reserves; they develop quickly but remain smaller and face oxidative stress.
- When faced with predators, tadpoles grow larger and store more fat due to decreased competition, leading to immediate survival benefits, but this comes with irreversible oxidative stress and shortened telomeres, which could affect their long-term survival.
Article Abstract
Organisms react to environmental changes through plastic responses that often involve physiological alterations with the potential to modify life-history traits and fitness. Environmentally induced shifts in growth and development in species with complex life cycles determine the timing of transitions between subsequent life stages, as well as body condition at transformation, which greatly determine survival at later stages. Here we show that spadefoot toad larvae surviving pond drying and predators experienced marked alterations in growth and development, and in their fat reserves, oxidative stress, and relative telomere length. Tadpoles accelerated development but reduced growth and consumed more fat reserves when facing pond drying. However, oxidative stress was buffered by increased antioxidant enzyme activity, and telomeres remained unchanged. Predators caused opposite effects: they reduced larval density, hence relaxing competition and allowing faster development and enhanced growth of survivors. Tadpoles surviving predators metamorphosed bigger and had larger fat bodies, increasing their short-term survival odds, but showed signs of oxidative stress and had shorter telomeres. Developmental acceleration and enhanced growth thus seemed to have different physiological consequences: reduced fat bodies and body size compromise short-term survival, but are reversible in the long run, whereas telomere shortening is non-reversible and could reduce long-term survival.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5548762 | PMC |
| http://dx.doi.org/10.1038/s41598-017-07201-z | DOI Listing |
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