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Understanding and mapping water resources by multidimensional statistics and fuzzy logic: Missouri River basin case

Boris Shmagin¹ & Din Chen¹

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1. South Dakota State University

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Received 21 September 2007 20:17 UTC; Posted 21 September 2007

Subjects:

Earth and Environment

Tags:

• multidimensional statistics
• fuzzy logic
• watershed

Abstract:

Time series from 46 gauging station with drainage areas from 113 to 398 sq mi in the Upper Missouri River basin with mutual period of observation from 1963 to 1991 were used for analysis. Factor analysis of average annual flow revealed five patterns of river runoff within four distinct subregions of the territory (east, two carbonate karsts areas, uplands). This factor model reflected 62% variance of initial matrix. Each of four groups of watersheds obtained as a factor was presented by one gauging station with time series of annual and monthly discharges (I- 06218500, II- 06478690, III- 06412500, and IV- 06323000). Streams represented by patterns I, II and IV have increase of values and those represented by III have a decrease. The positive trend for pattern II is statistically significant. For four typical flow records, monthly average values were obtained from three to four seasons composed of different ensembles of months. The trends for seasonal components were analyzed for four typical watersheds and a significant increase was obtained for fall-winter season for type IV. Stream runoff is the most appropriate regional indicator for hydroclimatological processes. With multidimensional statistics this process can be considered as spatiotemporal structure of different scale of landscape properties and dynamics. Uncertainties of process originating stream runoff based on dynamic of regional meteorological system and diversity of local landscapes. Boundaries for domains with different annul and seasonal regimes of stream runoff were defined with factor loadings and fuzzy logic rules. With case of Missouri River basin presented that more complete decryption of real events in nature requires use probability and fuzzy logic together.

Presented at:

2006 Western South Dakota Hydrology Conference, 18 April 2006

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This document is licensed to the public under the Creative Commons Attribution 2.5 License

How to cite this document:

Shmagin, Boris and Chen, Din. Understanding and mapping water resources by multidimensional statistics and fuzzy logic: Missouri River basin case. Available from Nature Precedings <http://dx.doi.org/10.1038/npre.2007.1071.1> (2007)

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