05367nam 2201345z- 450 991055759880332120220111(CKB)5400000000043689(oapen)https://directory.doabooks.org/handle/20.500.12854/76324(oapen)doab76324(EXLCZ)99540000000004368920202201d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierIntegrated Water Resources ResearchAdvancements in Understanding to Improve Future SustainabilityBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 online resource (364 p.)3-0365-0228-9 3-0365-0229-7 Anthropogenic and natural disturbances to freshwater quantity and quality are a greater issue for society than ever before. To successfully restore water resources requires understanding the interactions between hydrology, climate, land use, water quality, ecology, and social and economic pressures. This Special Issue of Water includes cutting edge research broadly addressing investigative areas related to experimental study designs and modeling, freshwater pollutants of concern, and human dimensions of water use and management. Results demonstrate the immense, globally transferable value of the experimental watershed approach, the relevance and critical importance of current integrated studies of pollutants of concern, and the imperative to include human sociological and economic processes in water resources investigations. In spite of the latest progress, as demonstrated in this Special Issue, managers remain insufficiently informed to make the best water resource decisions amidst combined influences of land use change, rapid ongoing human population growth, and changing environmental conditions. There is, thus, a persistent need for further advancements in integrated and interdisciplinary research to improve the scientific understanding, management, and future sustainability of water resources.Integrated Water Resources ResearchResearch and information: generalbicsscAppalachiaAppalachian Mountainsaquatic ecologybacteriabasinBoufakrane river watershedBudykoChesapeake Bay WatershedChinese provincial input efficiencyclimate changecollaborative adaptive managementdecision-makingdrinking waterecohydrologyendocrine disrupting chemicalenvironmental flowsenvironmental perceptionsenvironmental persistenceenvironmental variablesEscherichia coliexperimental watershedexperimental watershed studyfarmer perceptionsgood governancehuman dimensionshuman dimensions of waterhydroecologyhydrologic modelhydrological modelinghydrologyland useland use practicesLand use practicesland use-land coverland-atmosphere couplingland-use practiceslogit regressionLULCCmetabolomicsmodel validationmunicipal watershedontologyopioidpathway analysispedotransfer functionphysical habitatphysicochemistrypublic fundsreaeration ratesreforestationremote sensingsanitationsaturated hydraulic conductivitysocial networkssocioeconomicsspatial modelsstream healthstream metabolismstream water temperaturestreamflow sensitivitysuspended particulate matterSuspended particulate mattersustainabilitythree-stage DEA modeltotal dissolved solidsurban watershed managementurban watershedsvulnerabilitywater balance partitioningwater balanceswater conservation adoptionwater pollutantswater qualityWater qualitywater quality impairmentwater resourceswater securitywater supplywater-saving agriculturewatershedwatershed managementWatershed managementwatershed modelingResearch and information: generalHubbart Jason Aedt1295503Hubbart Jason AothBOOK9910557598803321Integrated Water Resources Research3023547UNINA