RMRS - Post Fire Treatment Efectiveness

Post-fire Treatment Effectiveness for Hillslope Stabilization

	Moscow FSL Home Page
	Personnel
	Engineering Publications
	BAER Tools

		Rocky Mountain Research Station
		Forest Service Research

	Summary
		Summary table
	Introduction
	Treatment effectiveness & treatment performance
	Factors that affect post-fire watershed response and treatment effectiveness
	Erosion barrier treatments
		Erosion barrier performance characteristics
		Erosion barrier treatment effectiveness
	Mulch treatments
		Performance characteristics of mulches
		Mulch treatment effectiveness
	Chemical soil surface treatments

Moscow Forestry Sciences Laboratory 1221 South Main Street Moscow, ID 83843 (208) 882-3557 7:30-4:30 M-F

SUMMARY

This synthesis of post-fire treatment effectiveness reviews post-fire hillslope emergency stabilization treatment research and monitoring with an emphasis on the past decade. Since 2000, erosion barrier treatments (contour-felled logs, straw wattles), which were a mainstay of post-fire management prior to 2000, have declined in use for hillslope stabilization. At the same time, mulching treatments are increasingly being applied when values-at-risk warrant protection. This change has been motivated by research that shows the proportion of exposed mineral soil (or, conversely, the proportion of ground cover) to be the primary factor in the amount of post-fire hillslope erosion. Erosion barrier treatments provide little ground cover and have been shown to be less effective than mulch, especially during short-duration high-intensity rainfall events. Innovative options for producing and applying mulch materials have made it possible to apply ground cover over large burned areas that are inaccessible by road. Although longer-term studies on mulch treatment effectiveness are still on-going, early results and short-term studies have shown dry mulches (agricultural straw, wood chips, wood shreds, etc.) to be highly effective post-fire hillslope stabilization treatments. Consequently, mulch treatments have become commonplace in the post-fire environment to provide protection to high values-at-risk. Hydromulches, and to a lesser degree, soil binding chemical treatments, have been used after some fires but these treatments have been less effective than dry mulches in stabilizing burned hillslopes and generally decompose or degrade within a year.

This synthesis project was funded by the Joint Fire Science Program (Project #08-2-1-10) and is included in "The Black Series" as a Summary of Knowledge for Managers.

The information on this web page has been excerpted from the following publication:

Robichaud, Peter R.; Ashmun, Louise E.; Sims, Bruce D. 2010. Post-fire treatment effectiveness for hillslope stabilization. Gen Tech. Rep. RMRS-GTR-240. Fort Collins, CO: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station. 62 p.

USDA Forest Service - RMRS - Moscow Forestry Sciences Laboratory
Last Modified: