Data from: The effects of different cold-temperature regimes on development, growth, and susceptibility to an abiotic and biotic stressor

Matthew Wersebe, Paradyse Blackwood, Ying T. Guo, Jared Jaeger, Dyllan May, George Meindl, Sean N. Ryan, Vivian Wong & Jessica Hua
1. Global climate change is expected to both increase average temperatures as well as temperature variability. 2. Increased average temperatures has led to earlier breeding in many spring-breeding organisms. However, individuals breeding earlier will also face increased temperature fluctuations, including exposure to potentially harmful cold temperature regimes during early developmental stages. 3. Using a model spring-breeding amphibian, we investigated how embryonic exposure to different cold-temperature regimes (control, cold-pulse, and cold-press) affected (1) compensatory larval development...
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