Physiological impacts of temperature variability and climate warming in hellbenders (Cryptobranchus alleganiensis)

Cold-adapted hellbender salamanders that inhabit cool mountain streams are expectedto fare poorly under warmer projected climate scenarios. This study investigated the physiological consequences of long-term, naturalistic temperature variation on juvenile hellbenders under simulated current and warmer (+1.6 C) climates vs. controlled steady temperatures. Mean temperature and temperature variability were both important predictors of growth as indicated by monthly body mass change (%), stress as indicated by neutrophil:lymphocyte (N:L) ratio and bacteria-killing ability of blood. Cold exposure in hellbenders was associated with weight loss, increased N:L ratios and reduced Escherichia coli killing ability of blood, and these effects were less pronounced under a warmer climate scenario. These observations suggest that cold periods may be more stressful for hellbenders than previously understood. Growth rates peaked in late spring and late fall around 14-17 degrees C. Hellbenders experiencing warmer simulated climates retained body condition better in winter, but this was counter-balanced by a prolonged lack of growth in the 3-month summer period leading up to the fall breeding season where warmer simulated conditions resulted in an average loss of -0.6% body mass/month, compared to a gain +1.5% body mass/month under current climate scenario. Hellbenders can physiologically tolerate projected warmer temperatures and temperature fluctuations, but warmer summers may cause animals to enter the fall breeding season with a caloric deficit that may have population-level consequences.

Automated summary

This study investigated the physiological consequences of temperature variation on juvenile hellbenders under current and warmer climates. Cold exposure was associated with weight loss, increased stress, and reduced bacteria-killing ability in the blood. Warmer climates may help maintain body condition in winter, but prolonged lack of growth in summer could have population-level consequences for hellbenders entering the fall breeding season.