RMRS - BAER Road Treatment Tools

Burned Area Emergency Response Tools

	Moscow FSL Home Page
	At the lab
	Personnel
	Modeling Software
	Publications
	Experimental Forests
	News

		Rocky Mountain Research Station
		Forest Service Research

		Post-fire peak flow and erosion estimation
		USGS Regression
		Curve Number
		Rule of Thumb
		TR-55
		ERMiT
		FERGI
		WATBAL
		BAER road treatments

		Evaluate Our Service

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

BAER Tools -> Post-Fire Road Treatment Tools -> Post-Fire Peak Flow and Erosion Estimation -> TR-55

TR-55

Seven of BAER team members (7%) used TR-55 to calculate post-fire runoff increase (Foltz and others 2008). The TR-55 requires the runoff curve number (CN) as an input parameter; therefore, it can be considered as a Curve Number method. The TR-55 was released as a simplified procedure to calculate the storm runoff volume, peak flow rate, hydrograph, and storage volume for storm water management structures in small watersheds in urban areas, assuming the NRCS Type II rainfall distribution for all calculations (USDA SCS 1975). Later, a major revision was made to improve the model by adding three more rainfall distributions (Type I, IA, and III), programming the computations, and estimating the time of concentration using split separate flow phases (USDA SCS 1986).

To use TR-55, you will need WinTR-55 .

Input Requirement

Required input data is as follows (USDA NRCS 2005b):

identification data;
dimensionless unit hydrograph;
storm data;
rainfall distribution;
area (acre);
Runoff Curve Number (CN); and
time of concentration (T_c) details.

Steps

Run TR-55 for pre-fire watershed conditions.
Determine the CNs for burned areas within the watershed.
Run TR-55 for post-fire watershed conditions.

Advantages

The following were advantages to applying the WinTR-55 for post-fire runoff and erosion estimation. WinTR-55:

is applicable for estimating peak flow;
estimates time to peak;
is applicable to larger watersheds(< 25 mi²); and
uses both English and metric units.

Disadvantages

The follwing were disadvantages to applying the WinTR-55 for post-fire runoff and erosion estimation. WinTR-55:

does not estimate erosion;
does not consider post-fire debris flow/torrent;
only considers 24-hour storm duration, so it is not applicable to the regions where the damaging storm duration is much shorter, such as 15 or 30 minutes;
requires the user to determine pre-fire and post-fire CNs, which are sensitive parameters, so the estimated peak flow is subjective to users; and
does not provide guidelines to determine post-fire CN, except in Regions 1 and 3.

Example Results

The 2002 Bullock Fire in the Coronado National Forest, Arizona

REFERENCES

Foltz, Randy B.; Robichaud, Peter R.; Rhee, Hakjun. 2008. A synthesis of post-fire road treatments for BAER teams: methods, treatment effectiveness, and decision-making tools for rehabilitation. Gen. Tech. Rep. RMRS-GTR. Fort Collins, CO: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station (in preparation).

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