Environmental Studies Faculty and Staff Publications
Document Type
Article
Publication Date
12-19-2014
Keywords
Insect outbreaks, Spatial patterns
Abstract
Insect outbreaks are often assumed to increase the severity or probability of fire occurrence through increased fuel availability, while fires may in turn alter susceptibility of forests to subsequent insect outbreaks through changes in the spatial distribution of suitable host trees. However, little is actually known about the potential synergisms between these natural disturbances. Assessing interdisturbance synergism is challenging due to the short length of historical records and the confounding influences of land use and climate changes on natural disturbance dynamics. We used dendrochronological methods to reconstruct defoliator outbreaks and fire occurrence at ten sites along a longitudinal transect running from central Oregon to western Montana. We assessed synergism between disturbance types, analyzed long-term changes in disturbance dynamics, and compared these disturbance histories with dendroclimatological moisture availability records to quantify the influence of moisture availability on disturbances. After approximately 1890, fires were largely absent and defoliator outbreaks became longer-lasting, more frequent, and more synchronous at our sites. Fires were more likely to occur during warm-dry years, while outbreaks were most likely to begin near the end of warm-dry periods. Our results show no discernible impact of defoliation events on subsequent fire risk. Any effect from the addition of fuels during defoliation events appears to be too small to detect given the overriding influence of climatic variability. We therefore propose that if there is any relationship between the two disturbances, it is a subtle synergistic relationship wherein climate determines the probability of occurrence of each disturbance type, and each disturbance type damps the severity, but does not alter the probability of occurrence, of the other disturbance type over long time scales. Although both disturbance types may increase in frequency or extent in response to future warming, our records show no precedent that western spruce budworm outbreaks will increase future fire risk.
Publication Title
PLoS ONE
Volume
9
Issue
12
First Page
e114282
Required Publisher's Statement
Published in PLoS ONE, December 19, 2014
DOI:10.1371/journal.pone.0114282
Recommended Citation
Flower, Aquila; Gavin, Daniel Girard; Heyerdahl, Emily K.; Parsons, Russell A.; and Cohn, Gregory M., "Western Spruce Budworm Outbreaks Did Not Increase Fire Risk over the Last Three Centuries: A Dendrochronological Analysis of Inter-Disturbance Synergism" (2014). Environmental Studies Faculty and Staff Publications. 26.
https://cedar.wwu.edu/envs_facpubs/26
Subjects - Topical (LCSH)
Western spruce budworm--West (U.S.); Conifers--Diseases and pests--West (U.S.); Dendrochronology--West (U.S.); Fire ecology--West (U.S.); Fire risk assessment--West (U.S.); Spatial ecology
Geographic Coverage
West (U.S.)
Genre/Form
articles
Type
Text
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.
Language
English
Format
application/pdf
