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Runoff and erosion effects after prescribed fire and wildfire on volcanic ash-cap soils
Robichaud, P.R.; Pierson, F.B.; Brown, R.E. 2007.
Runoff and erosion effects after prescribed fire and wildfire on volcanic ash-cap soils.
In: Page-Dumroese, D.; Miller, R.; Mital, J.; McDaniel, P.; Miller, D., tech. eds. 2007.
Volcanic-Ash-Derived Forest Soils of the Inland Northwest: Properties and Implications for Management and Restoration.
9-10 November 2005. Coeur d'Alene, ID. Proceedings. RMRS-P-44.
Fort Collins, CO: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station. 83-94.
Keywords: water repellent soils, rainfall simulation, burn severity, runoff, erosion, ash
Links:
PDF [237 KB]
Abstract:
After prescribed burns at three locations and one wildfire, rainfall simulations studies were completed
to compare postfire runoff rates and sediment yields on ash-cap soil in conifer forest regions of northern
Idaho and western Montana. The measured fire effects were differentiated by burn severity (unburned,
low, moderate, and high).
Results indicate that this dry, undisturbed ash-cap soil exhibits high runoff rates and is naturally water
repellent at the surface. However, the unburned, undisturbed ash-cap soil is not highly erodible due [to]
the protective duff layer on the surface. When ash-cap soil was exposed to prolonged soil heating (high
severity burn), surface water repellency was destroyed and a strong water repellent layer occurred a
few centimeters beneath the soil surface. With the simulated rainfall, the non-water repellent surface
layer became saturated; thus making the soil above the water repellent layer highly erodible–especially
during high intensity rainfall.
Moscow FSL publication no. 2007f
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