LEADER 04862nam 2201069z- 450 001 9910566482203321 005 20231214133413.0 035 $a(CKB)5680000000037558 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/81082 035 $a(EXLCZ)995680000000037558 100 $a20202205d2022 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aHydrology in Water Resources Management 210 $aBasel$cMDPI - Multidisciplinary Digital Publishing Institute$d2022 215 $a1 electronic resource (284 p.) 311 $a3-0365-3266-8 311 $a3-0365-3267-6 330 $aThis book is a collection of 12 papers describing the role of hydrology in water resources management. The papers can be divided s according to their area of focus as 1) modeling of hydrological processes, 2) use of modern techniques in hydrological analysis, 3) impact of human pressure and climate change on water resources, and 4) hydrometeorological extremes. Belonging to the first area is the presentation of a new Muskingum flood routing model, a new tool to perform frequency analysis of maximum precipitation of a specified duration via the so-named PMAX?P model (Precipitation MAXimum Time (duration) Probability), modeling of interception processes, and using a rainfall-runoff GR2M model to calculate monthly runoff. For the second area, the groundwater potential was evaluated using a model of multi-influencing factors in which the parameters were optimized by using geoprocessing tools in geographical information system (GIS) in combination with satellite altimeter data and the reanalysis of hydrological data to simulate overflow transport using the Nordic Sea as an example. Presented for the third area are a water balance model for the comparison of water resources with the needs of water users, the idea of adaptive water management, impacts of climate change, and anthropogenic activities on the runoff in catchment located in the western Himalayas of Pakistan. The last area includes spatiotemporal analysis of rainfall variability with regard to drought hazard and use of the copula function to meteorologically analyze drought. 606 $aResearch & information: general$2bicssc 610 $aGR2M 610 $ainverse distance weighting 610 $arainfall-runoff model 610 $asensitivity analysis 610 $amulti-influencing factors (MIF) 610 $avertical electrical sounding (VES) 610 $aelectrical resistivity tomography (ERT) 610 $agroundwater resource management (GRM) 610 $ahydro-stratigraphy 610 $awell logs 610 $aprecipitation 610 $aclimate change 610 $aSen?s estimator 610 $aMann-Kendall 610 $aWadi Cheliff basin 610 $aupper Minjiang River 610 $amarginal distribution 610 $acopula 610 $abivariate joint distribution 610 $areturn period 610 $arainfall partitioning 610 $adry tropical forest 610 $agash model 610 $ainterception modelling 610 $aNordic Sea 610 $aoverflow flux 610 $abarotropic pressure 610 $abaroclinic pressure 610 $aannual maximum precipitation 610 $apeaks-over-threshold methods 610 $astatistical analysis 610 $amaximum precipitation frequency analysis 610 $agamma 610 $aWeibull 610 $alog-gamma 610 $alog-normal 610 $aGumbel distributions 610 $anonparametric tests 610 $adrought 610 $atrends 610 $aSPI 610 $amina basin 610 $aAlgeria 610 $aKunhar River Basin 610 $astreamflow 610 $atrend analysis 610 $aSoil and Water Assessment Tool (SWAT) 610 $aanthropogenic impacts 610 $ahydrologic flood routing 610 $aMuskingum flood routing model 610 $ameta-heuristic optimization 610 $aself-adaptive vision correction algorithm 610 $aAdaptive Water Management 610 $astakeholder engagement 610 $alegislation 610 $asurvey 610 $auncertainty in water management 610 $awater requirements of aquatic and water dependent ecosystems 610 $awater resources allocation 610 $awater balance model 615 7$aResearch & information: general 700 $aWalega$b Andrzej$4edt$01314117 702 $aTokarczyk$b Tamara$4edt 702 $aWalega$b Andrzej$4oth 702 $aTokarczyk$b Tamara$4oth 906 $aBOOK 912 $a9910566482203321 996 $aHydrology in Water Resources Management$93031727 997 $aUNINA