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Connecting phenological predictions with population growth rates for mountain pine beetle, an outbreak insectAuthor(s): James A. Powell; Barbara J. Bentz
Source: Landscape Ecology. 24: 657-672.
Publication Series: Scientific Journal (JRNL)
Station: Rocky Mountain Research Station
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Combined Effects of a Changing Climate Drive Mountain Pine Beetle Outbreaks
DescriptionIt is expected that a significant impact of global warming will be disruption of phenology as environmental cues become disassociated from their selective impacts. However there are few, if any, models directly connecting phenology with population growth rates. In this paper we discuss connecting a distributional model describing mountain pine beetle phenology with a model of population success measured using annual growth rates derived from aerially detected counts of infested trees. This model bridges the gap between phenology predictions and population viability/growth rates for mountain pine beetle. The model is parameterized and compared with 8 years of data from a recent outbreak in central Idaho, and is driven using measured tree phloem temperatures from north and south bole aspects and cumulative forest area impacted. A model driven by observed south-side phloem temperatures and that includes a correction for forest area previously infested and killed is most predictive and generates realistic parameter values of mountain pine beetle fecundity and population growth. Given that observed phloem temperatures are not always available, we explore a variety of methods for using daily maximum and minimum ambient temperatures in model predictions.
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CitationPowell, James A.; Bentz, Barbara J. 2009. Connecting phenological predictions with population growth rates for mountain pine beetle, an outbreak insect. Landscape Ecology. 24: 657-672.
KeywordsMountain pine beetle, Dendroctonus ponderosae, growth rate prediction, phenology, temperature change, insect outbreak
- Elevational shifts in thermal suitability for mountain pine beetle population growth in a changing climate
- Modeling cold tolerance in the mountain pine beetle, Dendroctonus ponderosae
- Phenology and density-dependent dispersal predict patterns of mountain pine beetle (Dendroctonus ponderosae) impact
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