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contributor authorYongchul Shin
contributor authorYounghun Jung
date accessioned2017-05-08T22:21:15Z
date available2017-05-08T22:21:15Z
date copyrightJuly 2014
date issued2014
identifier other42926107.pdf
identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/78491
description abstractWith an increase of population, agriculture, and industry, the demand for water has increased gradually across the world. Currently, agricultural crops have been damaged by drought severity due to climate changes that contribute to water scarcity. Policy/decision makers need to be prepared for reducing damages to crops due to severe droughts. For this reason, a genetic algorithm (GA)-based irrigation water management model (IWMM) adapting a hydrological model [soil water atmosphere plant (SWAP)] was developed. This approach is linked with a noisy Monte Carlo genetic algorithm (NMCGA) that can estimate effective soil hydraulic properties from in situ/remotely sensed (RS) soil moisture data. Based on the estimated soil parameters, vegetation information, and historical weather forcings, long-term root zone soil moisture (SM) and evapotranspiration (ET) dynamics were reproduced at fields using SWAP in a forward mode. This approach incorporates a soil moisture deficit index (SMDI) that can estimate the weekly drought severity using the daily estimated soil moisture dynamics. The irrigation schedules, intervals, and amounts were determined by the degree of drought based on the SMDI values (below 0 indicating drought). The Lubbock and Walnut Creek (WC)
publisherAmerican Society of Civil Engineers
titleDevelopment of Irrigation Water Management Model for Reducing Drought Severity Using Remotely Sensed Soil Moisture Footprints
typeJournal Paper
journal volume140
journal issue7
journal titleJournal of Irrigation and Drainage Engineering
identifier doi10.1061/(ASCE)IR.1943-4774.0000736
treeJournal of Irrigation and Drainage Engineering:;2014:;Volume ( 140 ):;issue: 007
contenttypeFulltext


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