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<br />n <br /> <br />. . ~ <br /> <br />develop and test model components to investigate questions in their own areas of expertise as well <br />as work cooperatively on multidisciplinary problems without each researcher having to develop <br />the complete system model. Results that demonstrate improved simulation performance can be <br />used to modify or enhance current operational models for application Within the same framework. <br /> <br />Continued advances in physical and biological sciences, GIS technology, computer <br />technology, and data resources will expand the need for a dynamic set of tools to incorporate <br />these advances in a wide range of interdisciplinary research and operational applications. MMS <br />is being developed as a flexible framework in which to integrate these activities. <br /> <br />REFERENCES <br /> <br />Anderson, E.A. (1973) National Weather Service River Forecast System, Snow Accumulation <br />and Ablation Model. NOAA Technical Memorandwn NWS Hydro-17. U.S. Department of <br />Commerce, Silver Spring, MD. <br />Beven. KJ., and Kirkby, M.J. (1979) A Physically Based Variable Contributing Area Model of <br />, Basin Hydrology. Hydrological Sciences Bulletin 24,43-69. <br /> <br />Day, G.N. (1985) Extended streamflow forecasting using NWSRFS. Journal of Water Resources <br />Planning and Management,'American Society of Civil Engineers, 111(2), 157-170. <br /> <br />Leavesley, G.H., Lichty, R.W., Troutman, B.M., and Saindon, L.G. (1983) Precipitation-Runoff <br />Modeling System: User's Manual. U.S. Geological Survey Water Resources Investigations <br />Report 83-4238, pp. 207. <br />U.S. Anny (1989) Users Manual. SSARR Model. U.S. Anny Corps of Engineers, Portland, <br />Oregon. <br />U.S. Anny Corps of Engineers (1991) GRASS Version 4.0 User's Reference Manual, <br />VSACERL, Champagne, IL. 513 pp. <br /> <br />'-' <br /> <br />,,' <br /> <br />, <br />..--.,.', ". <br /> <br />.~/ <br /> <br />8 <br />