Recovery of small pile burn scars in conifer forests of the Colorado Front Range

TitleRecovery of small pile burn scars in conifer forests of the Colorado Front Range
Publication TypeJournal Article
Year of Publication2015
AuthorsRhoades, CC
Secondary AuthorsFornwalt, PJ
Tertiary AuthorsPaschke, MW
Subsidiary AuthorsShanklin, A, Jonas, JL
JournalForest Ecology and Management
Volume347
Start Page180
Issue1
KeywordsFuel management; Forest restoration; Soil disturbance; Fire effects; Burn severity; Prescribed fire, technical reports and journal articles
Abstract

The ecological consequences of slash pile burning are a concern for land managers charged with maintaining forest soil productivity and native plant diversity. Fuel reduction and forest health management projects have created nearly 150,000 slash piles scheduled for burning on US Forest Service land in northern Colorado. The vast majority of these are small piles (<5 m diameter). Similar to larger piles, we found that burning small piles had significant immediate effects on soil nutrients and physical and chemical properties and native plant cover. To evaluate the need to rehabilitate small piles and compare the effectiveness of treatment options, we examined soil and plant responses to treatments designed to alter soil nutrients, moisture and temperature and to increase seed availability. We compared four surface treatments (soil scarification, woodchip mulch, tree branch mulch, untreated scars), with and without addition of a native seed mixture. Natural recovery and treatment effects were examined for 2.5 years after pile burning at 19 conifer forest sites along the Colorado Front Range. Woodchip mulch had dramatic effects on soil moisture, temperature, decomposition and inorganic soil N compared to the other treatments, untreated scars or unburned areas; woodchip mulch also suppressed plant establishment. Seeding increased total native species richness as expected, but had marginal effects on forb cover and no effect on graminoid cover. Soil N availability and plant cover did not differ from unburned areas in the absence of surface or seeding treatments within two years of pile burning. Neither reduced seed availability nor altered soil properties following burning hindered revegetation of these small burn scars by native herbaceous plants. Our findings indicate that rehabilitation may not be required for small burn pile scars except in sensitive areas, such as those with water quality and invasive plant concerns.

DOI10.1016/j.foreco.2015.03.026