Authors: Clista Galecki
Mentors: William Anderegg
Insitution: University of Utah
This project will determine whether exposure to wildfire impacts a plant's ability to acclimate to summer drought. This is important because with rising temperatures and droughts there is an increase of wildfires (Diffenbaugh et al., 2015). This question will be address by comparing drought physiological traits of a native tree species, Utah juniper, in burned versus unburned sites in central Utah. The goal of the project is to determine whether plants that survive wildfires are more or less drought resilient. This research may provide insight into whether various tree species are better adapted to survive droughts and wildfires which will help in future ecology predictions of the future landscapes.
There are multiple factors in why forests respond differently to drought. The factors include elevation, prior exposure to fire, prior exposure to drought, clade, and species (Anderegg et al., 2020). Severe drought or heat from a fire can result in hydraulic failure (McDowell et al., 2008). This means that the plant has loses its ability to sufficiently move water from the roots to the leaves. Which could indicate that trees burned in wildfires will not be better adapted to summer drought. Whereas there is a possibility that if the tree has had sufficient amount of time to recover from a stressing event that it could be better adapted for future droughts (Anderegg et al, 2020). My project will focus specifically on the effects of prior exposure to fire on Utah juniper (Juniperus osteosperma) drought acclimation ability.