Abstract
Vegetation response and burn severity were examined following eight large wildfires that burned in 2003 and 2004: two wildfires in California chaparral, two each in dry and moist mixed-conifer forests in Montana, and two in boreal forests in interior Alaska. Our research objectives were: 1) to characterize one year post-fire vegetation recovery relative to initial fire effects on the soil surface that could potentially serve as indicators of vegetation response (and thus, ultimately longer-term post-fire ecosystem recovery), and 2) to use a remotely-sensed indicator of burn severity to describe landscape patterns in fire effects. We correlated one-year post-fire plant species richness and percent canopy cover to burn severity and to soil surface cover immediately after the fires. For all eight wildfires, plant canopy cover and species richness were low and highly variable one year post-fire. We found a greater number of forbs when compared to other plant life forms, independent of burn severity. Plant cover was dominated by grasses in chaparral systems, by forbs in mixed-conifer forests, and by shrubs in boreal forests, similar to the unburned vegetation. Fine-scale variability in post-fire effects on soils, the diversity of pre-fire vegetation, and the resilience of plants to fire likely explain the high variation observed in post-fire vegetation responses across sites and burn severities. On most low and moderate burn severity sites, >30% of the soil surface was covered with organic material immediately post-fire, and one year later, the canopy cover of understory vegetation averaged 10% or more, suggesting low risk to post-fire erosion. In California chaparral and the two Montana mixed conifer sites, 5% or less of the area within the fire perimeter burned with high severity, while in Alaska, 58% was mapped as high burn severity; we think this is characteristic in Alaska, but uncharacteristic of chaparral fires, especially given the high proportion of non-native species post-fire in our chaparral sites. All fires had a mosaic of different burn severities (as indicated by delta Normalized Burn Ratio, dNBR) with highly variable patch size (mean 1.3 ha to 14.4 ha, range from <1 ha to over 100,000 ha).
Highlights
Burn severity (Ryan and Noste 1985, Jain et al 2004, Lentile et al 2006) classifications are used to infer fire effects on soil and vegetation, potential successional trajectories, and rates of ecosystem recovery, yet this is the first comparison of vegetation response to burn severity across multiple ecosystems
Ecologists have long recognized the enormous variability in fire effects and vegetation response that results from large wildfires
Because some ecosystems are inherently richer in species than others, species richness is much less useful for comparing across ecosystems than for contrasting vegetation response to burn severity within ecosystems
Summary
Burn severity (Ryan and Noste 1985, Jain et al 2004, Lentile et al 2006) classifications are used to infer fire effects on soil and vegetation, potential successional trajectories, and rates of ecosystem recovery, yet this is the first comparison of vegetation response to burn severity across multiple ecosystems. Ecologists have long recognized the enormous variability in fire effects and vegetation response that results from large wildfires. It is this inherent variation following fire that challenges ecologists to identify unifying trends in burn severity and soil and vegetation response across the post-fire landscape to complement the understanding of fire effects within each ecosystem. Our research team sampled eight large wildfires, all selected for extended burning over several days to weeks across a diversity of vegetation, soils, and topographic conditions and where satellite images were available for the burned landscape. Relative to high burn severity, we expected quicker recovery of plant cover in low and moderately burned areas due to onsite sources for plant regrowth (sprouts) and establishment (seeds) after fire
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