Abstract
To assess effects of low-intensity fire, we combined two silvicultural prescriptions with prescribed fire in the California Cascade Range. In the first treatment, two 100-ha stands were thinned to reduce density while retaining old-growth structural characteristics, yielding residual stands with high structural diversity (HSD). Two other 100-ha plots were thinned to minimize old growth structure, producing even-aged stands of low structural diversity (LSD), and one 50-ha split-plot from each treatment was burned. In addition, two 50 ha old-growth Research Natural Areas (RNA) were selected as untreated reference plots, one of which was also burned. Fire treatments profoundly altered mite assemblages in the short term, and forest structure modification likely exacerbated that response. Sampling conducted two years following treatment confirmed a continuing decline in oribatid mite abundance. Oribatid species richness and assemblage heterogeneity also declined, and community dominance patterns were disrupted. Oribatid responses to fire were either more intense or began earlier in the LSD treatments, suggesting that removal of old-growth structure exacerbated mite responses to fire. Prostigmatids recovered quickly, but their populations nonetheless diminished significantly in burned split-plots. Mite assemblage responses to prescribed fire were continuing nearly two years later, with no clear evidence of recovery.
Highlights
Hyperdiverse assemblages of soil microarthropods, mites in the suborder Oribatei (Arachnida: Acari), dominate forest soil fauna [1,2,3,4]
There were twelve treatment units and four Research Natural Areas (RNA) reference plots involved in this study, we report results from a subset of four treatment units and two RNAs chosen for logistical reasons because they constituted the only remaining old-growth stands in the area
Mite assemblages contribute to ecosystem functions in forest soils, disruption of community organization is not necessarily a reliable indicator of functional disruption
Summary
Hyperdiverse assemblages of soil microarthropods, mites in the suborder Oribatei (Arachnida: Acari), dominate forest soil fauna [1,2,3,4] They exhibit a wide range of responses to disturbance and are well-suited for assessment of low-intensity fire effects upon forest soils, litter, and humus [5,6]. Oribatid abundance and species richness declined the most in burned split-plots from which old-growth characteristics were removed Our results mirrored those of Paquin and Coderre [20], who noted increased severity of fire effects on soil macroarthropod populations following deforestation, and Peck and Niwa [25], who observed long-term alteration of oribatid assemblage organization in thinned forest stands similar to those in this study. We surmised that the additional samples would shed light on both the duration and direction of forest soil mite responses to prescribed, low intensity fire
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call