易胜博官网

Understanding how animals survive harsh, water-limited environments will be critical to sustaining life across a rapidly warming and drought-prone climate. 易胜博官网 researchers turned to a specialist鈥攖he small, unassuming (Peromyscus eremicus), which has evolved as a desert survivalist鈥攖o identify strategies and adaptations that could be used by other animals, and possibly humans, to adjust to a changing climate in 易胜博官网 and far beyond.

, an associate professor of genome-enabled biology in the , and , a recent graduate of , . They describe how male and female cactus mice respond to periods of water deprivation鈥攎odeling conditions that are increasingly observed in the mice鈥檚 natural habitat.

The researchers discovered that to survive arid desert conditions, the cactus mice reduced water loss by decreasing food intake and lowering the amount of overall energy they exerted. This strategy is called dehydration anorexia in which water stored in the gastrointestinal tract that aids in digestion is no longer needed and instead absorbed and retained by the animal, increasing tolerance to water deprivation. Decreased food intake also means less water is needed for digestive enzymes, and for the removal of waste products via urine.

鈥淲e want to determine if the responses to dehydration that we found, like body temperature regulation, dehydration-related anorexia, and other strategies, are specific desert adaptation and are present only in desert specialists 鈥� rather than being a more general trait of all rodents.鈥� ~ Dani Blumstein '24G

Additionally, the researchers noted a difference in how the female cactus mice responded compared to the male mice. While the female mice decreased their body temperatures during water deprivation, the males retained their body temperatures, likely to maintain optimal sperm production and reproductive potential.

鈥淲e want to determine if the responses to dehydration that we found, like body temperature regulation, dehydration-related anorexia, and other strategies, are specific desert adaptation and are present only in desert specialists 鈥� rather than being a more general trait of all rodents,鈥� Blumstein said, a current postdoctoral researcher at the University of Denver and the University of Massachusetts Amherst, who co-led this study while at 易胜博官网. 鈥淔or future studies, the MacManes lab will focus on non-desert-adapted species, furthering the understand and the degree of intervention needed to preserve non-adapted populations affected by climate change.鈥�

For the next phase of this research, Blumstein and MacManes are studying how the response of cactus mice to dehydration affects the species at the genetic level. This research looks at the genes involved in water retention, as well as the genes involved in responding to decreased food intake.

鈥淪ince mammals share a large fraction of their genome, we can compare notable genes in the cactus mice genome to the same gene in humans and determine similarities and differences,鈥� MacManes noted.

According to Blumstein, given our currently predicted patterns of climate change, many species will likely face higher temperatures and more arid, water-stressed environments.

鈥淏ecause of this, our findings are much more applicable to humans and other organisms that are likely to suffer physiological stress related to new conditions on our changing planet,鈥� she added.

This research is supported by the (R35 GM128843 to Matthew MacManes).

This work is co-authored by Danielle Blumstein and Matthew MacManes.