MOSM was developed in collaboration with scientists, engineers, and economists from three research universities (Johns Hopkins University, University of Minnesota (Twin Cities and Duluth), and Utah State University), and with a stakeholder group familiar with the watershed (agricultural producers, conservation groups, and members of state and local regulatory agencies). This collaborative development helped to identify relevant and plausible environmental management alternatives to include in the model, and guided development of the model structure, input data, and decision analysis.
MOSM simulates movement of water and sediment across a watershed and evaluates the effects of various management option scenarios on sediment loading. It is a reduced-complexity watershed model where many components (i.e., spatial and temporal grids, and number of interacting state variables) and the degree of complexity (i.e., range of physical, chemical, and biological processes) have been reduced to include only those processes essential to represent sediment transport and surface water routing. MOSM is designed to be constrained by the best-available existing information, including stream gaging records, a complete watershed sediment budget, historical trends in the watershed, and independent measures of outputs, such as sediment fingerprinting and a suite of geomorphic change detection outputs.
MOSM-LSRB is a simulation model for the Le Sueur River Basin.
MOSM-GBERB is a simulation model for the Greater Blue Earth River Basin.
MOSM usermanual guides the use of MOSM.
MOSM computation module handbook describes the internal model structure and functions.
Environmental Protection Agency
Minnesota Pollution Control Agency
Minnesota Department of Agriculture
Clean Water Land & Legacy Amendment
Minnesota Agricultural Water Resource Center
Cho, Se J.; Wilcock, Peter; Gran, Karen; Belmont, Patrick; Hobbs, Ben; Collaboratives for Sediment Source Reduction--Greater Blue Earth River Basin.
Management Option Simulation Model (MOSM) and supporting documents.
Retrieved from the University of Minnesota Digital Conservancy,
Content distributed via the University of Minnesota's Digital Conservancy may be subject to additional license and use restrictions applied by the depositor.