Abstract
Natural forest disturbance regimes are changing, as evidenced by expansion of the mountain pine beetle (MPB) north and east from British Columbia into pine forests east of the Canadian Rockies. Thus, research that examines potential impacts of shifting disturbance regimes on ecosystem properties and processes in these forests is needed. We examined short‐term effects (up to one year after treatment) of three treatments that emulated MPB attack and associated forest management disturbance (i.e., moderate and high intensity simulated MPB attack, salvage harvest) on above‐ and below‐ground properties and processes of mature lodgepole pine forests in MPB's recently expanded range east of the Rockies. While the salvage logging treatment showed dramatic effects on the understory plant community and downed woody material with several less dramatic below‐ground responses, there were no effects of the moderate MPB attack, and only limited below‐ground responses to the high intensity attack. The salvage logged stands showed decreases in species richness and understory plant cover, increases in small downed wood, litter cover, forest floor pH, and plant available Ca, Mg, and P, and differences in multiple microbial properties compared with the other treatments. The high intensity simulated MPB attack showed increased respiration rates of several carbon substrates compared with the salvage treatment. There was considerable variation among years for many below‐ground variables (e.g., multiple soil nutrients, microbial respiration rates and phospholipid fatty acids), and these were unrelated to treatments. For the majority of below‐ground response variables, differences among study years rather than differences due to the MPB treatments suggest that inter‐annual variability exerts a stronger influence than does disturbance effects of MPB red attack. The lack of potential response to MPB attack in the short‐term suggests these forests are resistant to change early after attack, and/or have high ecological inertia. In contrast, salvage logging had immediate and dramatic effects. We don't yet know how these pine forests will develop under this modified disturbance regime of partial canopy disturbance, but it appears likely that salvage logging will push these stands in a potentially very different direction than the modified natural disturbance regime due to MPB will.
Highlights
Disturbance, both natural and anthropogenic, is an important ecological driver of successional change in forests
There were no differences in decomposition or plant available K among treatments or years (Table 2). This is the first experimental study that provides an evaluation of the potential impacts of mountain pine beetle (MPB) early attack and associated forest management on downed woody material, vegetation composition, and below-ground responses to attack, rather than using a chronosequence to substitute space for time
The gradient of decreased basal area of healthy trees in the 50% and 100% kill stands supported that our treatments were effective in capturing a gradient of overstory tree mortality associated with simulated MPB attack, and these findings were supported by evidence of decreased sapflow conductivity in killed trees in a paired hydrology study that was conducted on our study sites (Pina 2012)
Summary
Disturbance, both natural and anthropogenic, is an important ecological driver of successional change in forests. It influences the composition, abundance, and distribution of vegetation by altering the physical environment and the temporal and spatial distribution of resources (White and Pickett 1985). Changes in the below-ground soil nutrient availability (e.g., Thiffault et al 2007) and microbial communities (e.g., Siira-Pietikainen et al 2001, Lindo and Visser 2003, Chatterjee et al 2009), as well as losses of nutrients from the forests (Vitousek and Melillo 1979) can occur. Studies have shown resilience of microbial community structure and function to disturbance (e.g., Hannam et al 2006), or that topographic position and elevation exert stronger influences than species- or disturbance-related effects on below-ground properties and processes (e.g., Swallow et al 2009)
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