Lifespan in poikilothermic organisms, such as Caenorhabditis elegans, can be substantially increased simply by decreasing growth temperature. To gain insights into the mechanistic underpinnings of this effect, we investigated the effects of temperature in development and adulthood on C. elegans lifespan. We found that worms exposed to 25°C during development and shifted to 15°C in adulthood exhibited an even longer lifespan than animals constantly kept at 15°C. Analysis of the in vivo redox status demonstrated that at 25°C, C. elegans larvae have a more reduced redox state and higher Prdx-2 expression levels than animals raised at 15°C. Worms lacking prdx-2 fail to show the additional lifespan extension upon shift from 25°C to 15°C and reveal a lifespan similar to prdx-2 worms always kept at 15°C. These results suggest that transiently altering the in vivo redox state during development can have highly beneficial long-term consequences for organisms.