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During the third decade of the 21st century, human societies across the world are facing significant water-related problems, such as ecosystem degradation, groundwater depletion, natural and anthropogenic droughts and floods, water-borne health issues, and deforestation. These problems are exacerbated by climate change, a phenomenon that has been accelerated due to human intervention in natural systems since the industrial revolution. There is an urgent need to better understand the interaction of hydrological systems in terms of climate variability and the anthropogenic factors that contribute to the dynamics and resilience of coupled human–water systems and effective risk management in the area of water resource management. Socio-hydrology is an interdisciplinary field that integrates natural and social sciences and aims to study the long-term dynamics of bidirectional feedback in coupled human–water systems. This book on socio-hydrology aims to compile cross-disciplinary scientific endeavors and innovations in research on the development, education, and application of coupled human–water systems. The articles published in this book represent diverse and broad aspects of water management in the context of socio-hydrology systems around the globe. The articles and ideas presented in this book represent a significant source of references for interdisciplinary water science programs and provide an excellent guide for experts involved in the future planning and management of water resources. This book is dedicated to friends of the Green Water-Infrastructure Academy and those who pursue cross-disciplinary water research, education, and management.

digital elevation model --- maximum likelihood estimation (MLE) classification --- runoff quality --- social, economic and environmental (SEE) factor --- Triangulated Irregular Network (TIN) --- urbanization --- vegetation density --- stormwater management --- social factors --- green stormwater infrastructure --- society --- risk analysis --- water-related crises --- resilience --- security --- floods --- drinking water --- crisis planning --- landslides --- logistic regression --- slope gradient --- land use --- soil --- Coonoor --- behavior --- trust --- risk --- tap water --- salience --- common pool resources --- integrated water management --- water governance --- water resilience --- socio-hydrology --- irrigation efficiency --- surface water-groundwater interactions --- sustainability --- knowledge coproduction --- integrated local environmental knowledge --- education and training --- community-based water development --- Black Sea --- coastal tourism --- regional climate change --- warming --- wind --- waves --- sea level rise --- upwelling --- heavy rain --- river plume --- algal bloom --- introduced species --- n/a

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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: general --- Environmental economics --- groundwater-surface water interaction --- analytical --- numerical --- FEMME --- STRIVE --- MODFLOW --- Long Short-Term Memory --- groundwater level prediction --- groundwater withdrawal impact --- groundwater level variation --- machine learning --- integrated surface water and groundwater analysis --- climate change --- hydraulic fracturing --- construction of well pads --- MIKE-SHE --- MIKE-11 --- northwestern Alberta --- SWAT+ --- groundwater --- modeling --- groundwater–surface water interactions --- rainwater harvesting --- climate variability --- small island developing states --- improved water governance --- national sustainable development plans --- SDG6 --- community participation --- drinking water supply --- water supply scheme --- surface water/groundwater interactions --- managed aquifer recharge --- induced riverbank filtration --- groundwater resource management --- water curtain cultivation --- surface–groundwater interaction --- water budget analysis --- Nera River --- carbonate aquifer --- recession curves --- seismic sequence --- permafrost hydrology --- Russian Arctic --- water tracks --- hydrological connectivity --- stable water isotopes --- dissolved organic carbon --- electrical resistivity tomography --- taliks --- flood --- surface and groundwater interactions --- HEIFLOW --- Managed Aquifer Recharge --- groundwater tracer --- heat transport --- surface–ground-water interactions --- infiltration basin --- groundwater hydrology --- young water fraction --- global meteoric water line --- northern Italian Apennines --- stakeholder participation --- surface water-groundwater interaction --- scenario modelling --- integrated water management --- agent-based modelling --- SimCopiapo --- water balance --- water table fluctuation method --- irrigated pastures --- deep percolation --- aquifer recharge --- clay soils --- flood irrigation --- water management --- surface water --- n/a --- groundwater-surface water interactions --- surface-groundwater interaction --- surface-ground-water interactions

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• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

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: general --- Environmental economics --- groundwater-surface water interaction --- analytical --- numerical --- FEMME --- STRIVE --- MODFLOW --- Long Short-Term Memory --- groundwater level prediction --- groundwater withdrawal impact --- groundwater level variation --- machine learning --- integrated surface water and groundwater analysis --- climate change --- hydraulic fracturing --- construction of well pads --- MIKE-SHE --- MIKE-11 --- northwestern Alberta --- SWAT+ --- groundwater --- modeling --- groundwater-surface water interactions --- rainwater harvesting --- climate variability --- small island developing states --- improved water governance --- national sustainable development plans --- SDG6 --- community participation --- drinking water supply --- water supply scheme --- surface water/groundwater interactions --- managed aquifer recharge --- induced riverbank filtration --- groundwater resource management --- water curtain cultivation --- surface-groundwater interaction --- water budget analysis --- Nera River --- carbonate aquifer --- recession curves --- seismic sequence --- permafrost hydrology --- Russian Arctic --- water tracks --- hydrological connectivity --- stable water isotopes --- dissolved organic carbon --- electrical resistivity tomography --- taliks --- flood --- surface and groundwater interactions --- HEIFLOW --- Managed Aquifer Recharge --- groundwater tracer --- heat transport --- surface-ground-water interactions --- infiltration basin --- groundwater hydrology --- young water fraction --- global meteoric water line --- northern Italian Apennines --- stakeholder participation --- surface water-groundwater interaction --- scenario modelling --- integrated water management --- agent-based modelling --- SimCopiapo --- water balance --- water table fluctuation method --- irrigated pastures --- deep percolation --- aquifer recharge --- clay soils --- flood irrigation --- water management --- surface water