05736nam 2201345z- 450 991059507380332120231214133403.0(CKB)5680000000080788(oapen)https://directory.doabooks.org/handle/20.500.12854/92121(EXLCZ)99568000000008078820202209d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierIntegrated Surface Water and Groundwater AnalysisBaselMDPI Books20221 electronic resource (300 p.)3-0365-5000-3 3-0365-4999-4 Comprehensive understanding of surface water and groundwater interaction is essential for effective water resources management. Groundwater and surface water are closely connected components that constantly interact with each other within the Earth’s hydrologic cycle. Many studies utilized observations to explain the surface water and groundwater interactions by carefully analyzing the behavior of surface water features (streams, lakes, reservoirs, wetlands, and estuaries) and the related aquifer environments. However, unlike visible surface water, groundwater, an invisible water resource, is not easy to measure or quantify directly. Nevertheless, demand for groundwater that is highly resilient to climate change is growing rapidly. Furthermore, groundwater is the prime source for drinking water supply and irrigation, and hence critical to global food security. Groundwater needs to be managed wisely, protected, and especially sustainably used. However, this task has become a challenge to many hydrologic systems in arid to even humid regions because of added stress caused by changing environment, climate, land use, population growth, etc. In this issue, the editors present contributions on various research areas such as the integrated surface water and groundwater analysis, sustainable management of groundwater, and the interaction between surface water and groundwater. Methodologies, strategies, case studies as well as quantitative techniques for dealing with combined surface water and groundwater management are of interest for this issue.Research & information: generalbicsscEnvironmental economicsbicsscgroundwater-surface water interactionanalyticalnumericalFEMMESTRIVEMODFLOWLong Short-Term Memorygroundwater level predictiongroundwater withdrawal impactgroundwater level variationmachine learningintegrated surface water and groundwater analysisclimate changehydraulic fracturingconstruction of well padsMIKE-SHEMIKE-11northwestern AlbertaSWAT+groundwatermodelinggroundwater-surface water interactionsrainwater harvestingclimate variabilitysmall island developing statesimproved water governancenational sustainable development plansSDG6community participationdrinking water supplywater supply schemesurface water/groundwater interactionsmanaged aquifer rechargeinduced riverbank filtrationgroundwater resource managementwater curtain cultivationsurface-groundwater interactionwater budget analysisNera Rivercarbonate aquiferrecession curvesseismic sequencepermafrost hydrologyRussian Arcticwater trackshydrological connectivitystable water isotopesdissolved organic carbonelectrical resistivity tomographytaliksfloodsurface and groundwater interactionsHEIFLOWManaged Aquifer Rechargegroundwater tracerheat transportsurface-ground-water interactionsinfiltration basingroundwater hydrologyyoung water fractionglobal meteoric water linenorthern Italian Apenninesstakeholder participationsurface water-groundwater interactionscenario modellingintegrated water managementagent-based modellingSimCopiapowater balancewater table fluctuation methodirrigated pasturesdeep percolationaquifer rechargeclay soilsflood irrigationwater managementsurface waterResearch & information: generalEnvironmental economicsChung Il-Moonedt1319569Chang Sun WooedtHwang YeonsangedtKim YeonjooedtChung Il-MoonothChang Sun WooothHwang YeonsangothKim YeonjooothBOOK9910595073803321Integrated Surface Water and Groundwater Analysis3033977UNINA