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• W2022352908 startingPage "3270" @default.
• W2022352908 abstract "Glaciers and snowmelt supply the Naryn and Karadarya rivers, and about 70% of the water available for the irrigated agriculture in the Ferghana Valley. Nineteen smaller catchments contribute the remaining water mainly from annual precipitation. The latter will gain importance if glaciers retreat as predicted. Hydrological models can visualize such climate change impacts on water resources. However, poor data availability often hampers simulating the contributions of smaller catchments. We tested several data pre-processing methods (gap filling, MODAWEC (MOnthly to DAily WEather Converter), lapse rate) and their effect on the performance of the HBV (Hydrologiska Byråns Vattenavdelning)-light model. Monte Carlo simulations were used to define parameter uncertainties and ensembles of behavioral model runs. Model performances were evaluated by constrained measures of goodness-of-fit criteria (cumulative bias, coefficient of determination, model efficiency coefficients (NSE) for high flow and log-transformed flow). The developed data pre-processing arrangement can utilize data of relatively poor quality (only monthly means or daily data with gaps) but still provide model results with NSE between 0.50 and 0.88. Some of these may not be accurate enough to directly guide water management applications. However, the pre-processing supports producing key information that may initiate rigging of monitoring facilities, and enable water management to respond to fundamentally changing water availability." @default.
• W2022352908 created "2016-06-24" @default.
• W2022352908 creator A5014044456 @default.
• W2022352908 creator A5058580101 @default.
• W2022352908 creator A5071145446 @default.
• W2022352908 creator A5089526272 @default.
• W2022352908 date "2014-10-30" @default.
• W2022352908 modified "2023-10-13" @default.
• W2022352908 title "Simulating Water Resource Availability under Data Scarcity—A Case Study for the Ferghana Valley (Central Asia)" @default.
• W2022352908 cites W1493983017 @default.
• W2022352908 cites W1609810996 @default.
• W2022352908 cites W1821614919 @default.
• W2022352908 cites W1828510919 @default.
• W2022352908 cites W1949340944 @default.
• W2022352908 cites W1963858151 @default.
• W2022352908 cites W1964340517 @default.
• W2022352908 cites W1965174588 @default.
• W2022352908 cites W1967992376 @default.
• W2022352908 cites W1968936982 @default.
• W2022352908 cites W1971236297 @default.
• W2022352908 cites W1973406975 @default.
• W2022352908 cites W1975649382 @default.
• W2022352908 cites W1975777888 @default.
• W2022352908 cites W1978129844 @default.
• W2022352908 cites W1980119925 @default.
• W2022352908 cites W1980572078 @default.
• W2022352908 cites W1981925906 @default.
• W2022352908 cites W1984874631 @default.
• W2022352908 cites W1987017697 @default.
• W2022352908 cites W1988048928 @default.
• W2022352908 cites W1988822245 @default.
• W2022352908 cites W1988947746 @default.
• W2022352908 cites W1991921673 @default.
• W2022352908 cites W1993873837 @default.
• W2022352908 cites W1996210406 @default.
• W2022352908 cites W1997092896 @default.
• W2022352908 cites W1998428191 @default.
• W2022352908 cites W2004297607 @default.
• W2022352908 cites W2005885138 @default.
• W2022352908 cites W2011149134 @default.
• W2022352908 cites W2011859956 @default.
• W2022352908 cites W2016128512 @default.
• W2022352908 cites W2022560935 @default.
• W2022352908 cites W2026533214 @default.
• W2022352908 cites W2026774287 @default.
• W2022352908 cites W2035627522 @default.
• W2022352908 cites W2038545209 @default.
• W2022352908 cites W2039085300 @default.
• W2022352908 cites W2047783055 @default.
• W2022352908 cites W2048867112 @default.
• W2022352908 cites W2049472359 @default.
• W2022352908 cites W2051817718 @default.
• W2022352908 cites W2052917135 @default.
• W2022352908 cites W2056864752 @default.
• W2022352908 cites W2057923420 @default.
• W2022352908 cites W2061060245 @default.
• W2022352908 cites W2063643816 @default.
• W2022352908 cites W2074651849 @default.
• W2022352908 cites W2082053078 @default.
• W2022352908 cites W2083198396 @default.
• W2022352908 cites W2085114234 @default.
• W2022352908 cites W2085354324 @default.
• W2022352908 cites W2088045168 @default.
• W2022352908 cites W2091206738 @default.
• W2022352908 cites W2094559940 @default.
• W2022352908 cites W2095540441 @default.
• W2022352908 cites W2095989164 @default.
• W2022352908 cites W2102847119 @default.
• W2022352908 cites W2108614290 @default.
• W2022352908 cites W2117955605 @default.
• W2022352908 cites W2119854734 @default.
• W2022352908 cites W2124738823 @default.
• W2022352908 cites W2124824025 @default.
• W2022352908 cites W2142442321 @default.
• W2022352908 cites W2143514530 @default.
• W2022352908 cites W2146496990 @default.
• W2022352908 cites W2148365611 @default.
• W2022352908 cites W2154810642 @default.
• W2022352908 cites W2156048436 @default.
• W2022352908 cites W2161626474 @default.
• W2022352908 cites W2172213450 @default.
• W2022352908 cites W2176478590 @default.
• W2022352908 cites W2269372369 @default.
• W2022352908 cites W2322544020 @default.
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• W2022352908 doi "https://doi.org/10.3390/w6113270" @default.
• W2022352908 hasPublicationYear "2014" @default.
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