Abstract
Bark beetles and their associated fungi kill trees readily, but we often ignore which organism is the leading cause of tree mortality. While phloem feeding beetles inhibit photosynthate transport, their associated fungi block the tracheids disrupting transpiration. Within the family Pinaceae, knowledge of tree physiological decline following bark beetle and associated fungi colonization is limited to the genus Pinus. Here we investigate the physiological response of Pseudotsuga (P. menziesii) to bark beetles or its fungi. We hypothesized that fungi block water transport in Douglas-fir causing faster mortality than by bark beetle activity alone. We successfully lured Douglas-fir beetle to attack a subset of trees in our experimental area using pheromones and compared Beetle-Killed trees with mechanically Girdled, and Control trees. During spring snowmelt, nine months after treatments were applied, Control, Girdled, and five trees that Survived beetle attack had higher transpiration rates and less negative pre-dawn water potential than five Beetle-Killed trees. Declines in transpiration and leaf water potential in our Beetle-Killed trees occurred much earlier than those in studies of beetle-attacked lodgepole pines, suggesting stronger defensive traits in Douglas-fir. Our data suggest that, as in pines, bark beetle-associated fungi are the leading cause of mortality in Douglas-fir beetle-attacked trees.
Highlights
Bark beetles interrupt two important transport systems in the trees they attack
Phytopathogenic fungi carried by bark beetles, most notably those collectively called blue-stain fungi
Hubbard and others [2] found that lodgepole pine (Pinus contorta Douglas) attacked by the mountain pine beetle (Dendroctonus ponderosae Hopk.) exhibited a faster decrease in leaf water potential and transpiration than mechanically girdled trees and girdled trees survived for two years following treatment
Summary
Bark beetles interrupt two important transport systems in the trees they attack. First, the gallery construction by adult beetles and their feeding larvae can cause significant damage to the tree by the partial girdling of its phloem, reducing or preventing the movement of photosynthate. Hubbard and others [2] found that lodgepole pine (Pinus contorta Douglas) attacked by the mountain pine beetle (Dendroctonus ponderosae Hopk.) exhibited a faster decrease in leaf water potential and transpiration than mechanically girdled trees and girdled trees survived for two years following treatment. This finding implicates that fungal blockage of the xylem is likely the leading driver of mortality in Pinus species attacked by bark beetles associated with phytopathogenic blue-stain fungi.
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