DISTURBANCE ASSESSMENT AND MITIGATION OF GREAT BASIN RANGELAND
Location: Watershed Management Research
Title: A probabilistic approach to modeling postfire erosion after the 2009 australian brushfires
Submitted to: International Congress on Modeling and Simulation Proceedings
Publication Type: Proceedings
Publication Acceptance Date: July 13, 2009
Publication Date: July 13, 2009
Citation: Robichaud, P.R., Elliot, W.J., Pierson Jr, F.B., Hall, D.E., Moffet, C.A. 2009. A Probabilistic Approach to Modeling Postfire Erosion After the 2009 Australian Brushfires. In: Anderssen, R.S., Braddock, R.D., Newham, L.T.H. (Eds.). 18th World IMACS Congress and MODSIM09 International Congress on Modeling and Simulation. Modeling and Simulation Society of Australia and New Zealand and International Association for Mathematics and Computers in Simulation, July 13-17, 2009, p. 2377-2383.
Interpretive Summary: Major concerns after bushfires and wildfires include increased flooding, erosion and debris flows due to loss of the protective forest floor layer, loss of water storage, and creation of water repellent soil conditions. The web-based Erosion Risk Management Tool (ERMiT) was implemented to assist post-fire assessment teams evaluate fire effects and make post-fire treatment decsisions following bushfires near Victoria, Australia. The model uses a probabilistic approach that incorporates variability in climate, soil properties, and burn severity for forests, rangeland, and chaparral hillslopes. The results demonstrate how application of the USDA created ERMiT model provides land managers the information needed to better understand the
risks of sediment delivery and to compare treatment options.
Major concerns after bushfires and wildfires include increased flooding, erosion and debris flows due to loss of the protective forest floor layer, loss of water storage, and creation of water repellent soil conditions. To assist postfire assessment teams in their efforts to evaluate fire effects and make postfire treatment decisions, a web-based Erosion Risk Management Tool (ERMiT) has been developed. ERMiT uses the Water Erosion Prediction Project (WEPP) model to predict postfire hillslope erosion and to evaluate the potential effectiveness of some common hillslope erosion mitigation practices. The model uses a probabilistic approach that incorporates variability in climate, soil properties, and burn severity for forests, rangeland, and chaparral hillslopes. For user specified climate, burn severity, and soil conditions, ERMiT produces a distribution of erosion rates with a likelihood of their occurrence for each of five years after the fire. ERMiT also provides single-event erosion rate distributions for hillslopes that have been treated with seed, straw mulch, and erosion barriers. ERMiT’s outputs help managers establish the probability associated with a given level of sediment yield for a given location, and this information can be used along with information about the value of resources at risk and acceptable loss thresholds to make postfire erosion treatment decisions. The objectives of this paper are to describe: 1) the conceptual framework and components of the ERMiT model; and 2) an application of ERMiT from 2009 Victoria, Australia bushfires.