2012 Annual Report
This report serves to document research progress over the 1-year span of the subordinate project 5362-13610-009-18R terminated September 2012. Parameter estimation equations for concentrated flow erodibility under disturbed conditions developed using extensive datasets of overland flow and erosion experiments from across the Great Basin were implemented in the interface for the Rangeland Hydrology and Erosion Model (RHEM). These parameter estimation procedures will soon undergo testing and review at independent disturbed rangeland sites across the west. ARS scientists at the Northwest Watershed Research Center in Boise, Idaho, worked closely with ARS scientists from the Southwest Watershed Research Center in Tucson, Arizona, on efforts to improve estimates of runoff contributions from snowmelt in the Automated Geospatial Watershed Assessment (AGWA) tool. Scripts were developed to take outputs from a detailed physically-based snow accumulation and melt model (ISNOBAL) and provide them as input to AGWA. This will allow for testing the level of detailed snow information needed to improve large-scale runoff estimates from snow-dominated landscapes using AGWA. Research progress and status are reported via bi-monthly project teleconference calls, frequent email and onsite visits. This agreement was established in support of objective 1 and 2 (Sub-Objective 2.B) of the in-house project, the goals being to develop strategic management tools and guidelines for use in fire impact assessment and rehabilitation planning of sagebrush ecosystems of the Intermountain West to aid land managers in determining the location, severity and persistence of fire impacts on post-fire runoff/erosion; and to improve assessments of juniper impacts on runoff and erosion processes by enhancing infiltration and erosion parameter estimations for RHEM.