Higher data densities in more tightly coupled source-to-sink systems should facilitate better understanding of USLE model application as small reservoirs and catch basins, particularly plentiful

in urban environments, provide sediment-yield metrics for calibrating poorly constrained USLE land-cover factors. This study compares a GIS-based USLE model of an extremely small forested urban watershed with a detailed record of sediment deposition within an anthropogenic pond. Ruxolitinib mw Located in the city of Youngstown, Ohio, the study site lies within Mill Creek Metropark, which has been experiencing severe sediment-pollution problems (Martin et al., 1998 and Das, 1999). The studied sub-watershed is covered almost completely with urban forest, a landcover type that comprises ∼13% of the whole park and much of the surrounding region (Korenic, 1999). The pond contains a record of sedimentation useful for evaluating the effects of this specific land-cover type on sediment yield and USLE model calibration. Although a variety of soil-erosion models exist for various terrain types, climates, and event-scales Baf-A1 purchase (Jetten et al., 1999 and de Vente and Poesen,

2005), the original USLE is evaluated given its simplicity in providing long-term estimates of average annual soil loss from small areas. Most model inputs are easily derived from freely accessible USGS and USDA data sources and GIS systems are well integrated with the USLE (Fistikoglu and Harmancioglu, 2002). Land managers, particularly in developing countries lacking sufficient data on land processes for more complex soil-erosion modeling, benefit from simple models and easy data access and localized studies are needed to provide empirical constraint on landscape connectivity for varying land-cover

types. Specific research goals include: (1) developing an understanding of how Glycogen branching enzyme forested land-cover types in urban environments affect sediment yields, (2) determining the suitability of the USLE as a quick and easy tool for generating landscape-erosion models in urban settings using GIS and USGS/USDA derived data, and (3) evaluating the application potential of information gained from a small, well-constrained watershed to the regional scale. Reconciling a simple USLE model with pond sedimentation could, for example, provide the Park Service with information useful for developing future land-management strategies across the region and provide information for urban USLE model comparisons elsewhere. Lily Pond, a small catch basin (∼11,530 m2) in the city of Youngstown, Ohio, and its associated spillway were constructed in 1896 within the newly created Mill Creek Park (Fig. 1). Numerous human-induced land-use changes have occurred since the arrival of European settlers in the early 1800s, including extensive logging and construction.