期刊
FOREST ECOLOGY AND MANAGEMENT
卷 324, 期 -, 页码 16-27出版社
ELSEVIER
DOI: 10.1016/j.foreco.2014.03.042
关键词
Western spruce budworm; Defoliators; Insect outbreaks; Dendrochronology; Drought; Pacific Northwest
类别
资金
- USDA/USDI Joint Fire Science Program [09-1-06-5]
- Rocky Mountain Research Station, Forest Service, U.S. Department of Agriculture [09-JV-11221637]
- University of Oregon
- Direct For Social, Behav & Economic Scie
- Division Of Behavioral and Cognitive Sci [1233278] Funding Source: National Science Foundation
Douglas-fir forests in the interior Pacific Northwest are subject to sporadic outbreaks of the western spruce budworm, a species widely recognized as the most destructive defoliator in western North America. Outbreaks of the western spruce budworm often occur synchronously over broad regions and lead to widespread loss of leaf area and decrease in growth rates in affected stands. In spite of the ecological and economic significance of this defoliator, the mechanisms controlling this species' population dynamics are still not fully understood. We used dendrochronological methods to reconstruct three centuries of western spruce budworm outbreaks at thirteen sites along a transect running from central Oregon to western Montana and compared the outbreak reconstructions with regional drought history. The reconstructions reveal repeated western spruce budworm outbreaks that sometimes persisted more than a decade and were significantly synchronous among sites. Synchrony was higher in the second half of the record, possibly due to changes in forest composition and structure brought about by land use practices. Across stands and regions, there was a moderately strong relationship between initiation of synchronous outbreaks and periods of transitional climate conditions in which moisture availability was below average prior to outbreak initiation, but above average in the first few years of an outbreak. There was a weak relationship between cessation of outbreaks and one or more years of high moisture availability. Outbreaks tended to occur near the end of droughts. The association between climatic variability and outbreak dynamics observed across this transect indicates that climate is an important driver of western spruce budworm outbreaks. Other factors that we did not test, but that may influence outbreak dynamics include stand structure, forest composition, predation, and phenological synchrony between larvae and host trees. Future changes in western spruce budworm outbreak dynamics will be determined by a combination of changing climate, interactions with other disturbance agents, and changing forest composition and structure. Our results suggest that western spruce budworm outbreaks will likely intensify if drought frequency increases in the future. (C) 2014 Elsevier B.V. All rights reserved.
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