Diapause is modulated by genetic responses to some environmental cues. The most common stimulus to trigger diapause is photoperiod, but temperature and humidity can also be important. Subtropical grasslands insects are overexposed to seasonality and can use diapause as strategy to overcome harsh conditions, avoiding freezing winter temperatures and drought summer conditions. Here, we investigate if photoperiod, temperature, and humidity can induce and terminate dormancy using the model Euryades corethrus, a butterfly from Pampa that diapause as pupae. We hypothesize that photoperiod, temperature, and humidity can induce dormancy; to test the hypothesis, individuals from a stock population were subjected to experiments controlling these three factors. Photoperiod and temperature interactions were also tested. To evaluate if the removal of the harsh factor that induced diapause trigger diapause termination, 50% of dormant pupae in each experiment were exposed to amenable conditions. The results indicated that diapause is mainly induced by short photophases, while temperature and humidity separately do not increase dormancy frequency. Short photoperiods and low temperatures interact with each other, increasing dormancy in experimental populations. The evidences suggest that diapause is trigger by short-day lengths and boosted by low temperatures as winter approaches. The incidence of obligatory summer diapause was not supported, but the occurrence of dormant pupae in high-temperature treatments suggests that high temperatures produce facultative diapause. Regarding diapause termination, the softening of harsh conditions that induced diapause was not sufficient to reverse the dormancy state, suggesting that diapause termination is more complex than previously thought, probably involving internal clocks.
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