OOS 16-5 - Drought-fire interactions: Compound disturbance effects on woodland trees in a Mediterranean-type ecosystem

Tuesday, August 8, 2017: 2:50 PM
Portland Blrm 257, Oregon Convention Center
Joseph B. Fontaine, Environmental & Conservation Sciences, Murdoch University, Perth, Australia, Michael Hanley, School of Biological Sciences, University of Plymouth, Plymouth, United Kingdom, Ben P. Miller, Botanical Parks and Garden Authority of Western Australia, Aaron Brace, Plymouth University and Willa Veber, Murdoch University
Background/Question/Methods

Frequency and intensity of disturbance is projected to increase for many ecosystems globally, with uncertain consequences, particularly when disturbances occur in rapid succession. Implications of these changes are most urgent in fire-prone regions undergoing warming and drying (e.g. Mediterranean type ecosystems) where increased fire (both managed and unmanaged) may interact with increasing drought leading to punctuated tree mortality and recruitment failure. We quantified tree mortality and recruitment following historic drought in Banksia-dominated woodlands surrounding Perth, Western Australia. Stands experienced drought alone (N=18), drought and wildfire (N=11) or drought and prescribed fire (N=15). We evaluated species and individual tree susceptibility to mortality and evidence for compound disturbance –whether wildfire or prescribed fire during drought increased tree mortality risk. We further quantified regeneration to understand if the drought or drought-fire event resulted in longer term shifts in stand structure and tree species composition.

Results/Conclusions

We observed a shift in dominance towards Eucalyptus and away from Banksia with eIevated mortality of large Banksia. Evidence of compound disturbance effects was modest. Improved understanding of disturbance interactions are critical to forecasting effects of climate change and informing fire management.