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OverviewGlobal Groundwater: Source, Scarcity, Sustainability, Security, and Solutions presents a compilation of compelling insights into groundwater scenarios within all groundwater-stressed regions across the world. Thematic sub-sections include groundwater studies on sources, scarcity, sustainability, security, and solutions. The chapters in these sub-sections provide unique knowledge on groundwater for scientists, planners, and policymakers, and are written by leading global experts and researchers. Global Groundwater: Source, Scarcity, Sustainability, Security, and Solutions provides a unique, unparalleled opportunity to integrate the knowledge on groundwater, ranging from availability to pollution, nation-level groundwater management to transboundary aquifer governance, and global-scale review to local-scale case-studies. Full Product DetailsAuthor: Abhijit Mukherjee (Department of Geology and Geophysics, School of Environmental Science and Engineering, Indian Institute of Technology Kharagpur, India) , Bridget R. Scanlon (Fisher Endowed Chair in Geological Sciences and Senior Research Scientist, Bureau of Economic Geology, Jackson School of Geosciences, University of Texas at Austin, USA) , Alice Aureli (Chief Groundwater Systems and Human Settlements, Senior Officer, Intergovernmental Hydrological Programme, UNESCO, Paris, France) , Simon Langan (Director Digital Innovations and Country Manager, International Water Management Institute, Colombo, Sri Lanka)Publisher: Elsevier Science Publishing Co Inc Imprint: Elsevier Science Publishing Co Inc Weight: 1.830kg ISBN: 9780128181720ISBN 10: 0128181729 Pages: 676 Publication Date: 11 November 2020 Audience: Professional and scholarly , Professional & Vocational Format: Paperback Publisher's Status: Active Availability: Manufactured on demand We will order this item for you from a manufactured on demand supplier. Table of Contents1. Global groundwater: from scarcity to security through sustainability and solutions 2. Groundwater of carbonate aquifers 3. Groundwater resources in Australia—their occurrence, management, and future challenges 4. Groundwater storage dynamics in the Himalayan river basins and impacts of global change in the Anthropocene 5. Groundwater variations in the North China Plain: monitoring and modeling under climate change and human activities toward better groundwater sustainability 6. Emerging groundwater and surface water trends in Alberta, Canada 7. Groundwater irrigation and implication in the Nile river basin 8. Groundwater availability and security in the Kingston Basin, Jamaica 9. Transboundary aquifers: a shared subsurface asset, in urgent need of sound governance 10. Transboundary groundwater of the Ganges— 11. Groundwater drought: environmental controls and monitoring 12. Groundwater scarcity in the Middle East 13. Groundwater scarcity and management in the arid areas in East Africa 14. Global geogenic groundwater pollution 15. Out of sight, but not out of mind: per- and polyfluoroalkyl substances in groundwater 16. Geogenic-contaminated groundwater in China 17. Screening of emerging organic pollutants in the typical hygrogeological units of China 18. Groundwater pollution of Pearl River Delta 19. Hydrochemical characteristics and quality assessment of water from different sources in Northern Morocco 20. Arsenic in groundwater in the United States: research highlights since 2000, current concerns and next steps 21. Hydrogeochemical characterization of groundwater quality in the states of Texas and Florida, United States 22. Groundwater pollution in Pakistan 23. Groundwater of Afghanistan (potential capacity, scarcity, security issues, and solutions) 24. Groundwater resources sustainability 25. Sustainability of groundwater used in agricultural production and trade 26. Groundwater and society: enmeshed issues, interdisciplinary approaches 27. Groundwater sustainability in cold and arid regions 28. Groundwater in Australia—understanding the challenges of its sustainable use 29. Groundwater recharge and sustainability in Brazil 30. Groundwater management in Brazil: current status and challenges for sustainable utilization 31. Challenges of sustainable groundwater development and management in Bangladesh: vision 2050 32. Integrating groundwater for water security in Cape Town, South Africa 33. Drivers for progress in groundwater management in Lao People’s Democratic Republic 34. Groundwater sustainability and security in South Asia 35. Role of measuring the aquifers for sustainably managing groundwater resource in India 36. Balancing livelihoods and environment: political economy of groundwater irrigation in India 37. The future of groundwater science and research 38. Technologies to enhance sustainable groundwater use 39. Applications of Gravity Recovery and Climate Experiment in global groundwater study 40. Use of machine-learning and deep-learning methods in groundwater 41. Desalination of brackish groundwater to improve water quality and water supply 42. Desalination of deep groundwater for freshwater supplies 43. Quantifying future water environment using numerical simulations: a scenario-based approach for sustainable groundwater management plan in Medan, Indonesia 44. Managed aquifer recharge with various water sources for irrigation and domestic use: a perspective of the Israeli experience 45. MAR model: a blessing adaptation for hard-to-reach livelihood in thirsty Barind Tract, BangladeshReviews"""Groundwater is abstracted globally to meet our agricultural, domestic and industrial needs. The distribution of groundwater is highly heterogeneous and varies substantially between different geographical regions (Famiglietti, 2014). Similarly, groundwater management strategies also vary between different regions (Ahmad et al., 2020; Mushtaq et al., 2018; Quino Lima et al., 2020). In the Netherlands, for example, groundwater level and quality is effectively monitored throughout the country with a well-established monitoring network (Stuyfzand et al., 008). on on the groundwater issues from 14 different countries."" --Elsevier, Groundwater for Sustainable Development ""This book should prove to be a valuable resource for groundwater professionals, since it provides reviews of current technologies, and introduces the socioeconomic issues that should be considered in conjunction with the technical issues when developing groundwater management plans or addressing unforeseen crises. For policy makers, who, for the most part, are familiar with the socioeconomic issues, the book highlights the technical practices and solutions that promote the sustainable management of groundwater resources, such as monitoring the levels and quality of groundwater; the ways to manage both supply and demand; and the options for integrated management of multiple water sources, such as groundwater and surface water. Finally, for the general public, the book highlights the importance of groundwater and its value in our everyday lives, and provides an understanding of the technical and cultural difficulties that must be addressed to preserve the benefits of this most valuable resource for present and future generations."" --GRIPP" ""Groundwater is abstracted globally to meet our agricultural, domestic and industrial needs. The distribution of groundwater is highly heterogeneous and varies substantially between different geographical regions (Famiglietti, 2014). Similarly, groundwater management strategies also vary between different regions (Ahmad et al., 2020; Mushtaq et al., 2018; Quino Lima et al., 2020). In the Netherlands, for example, groundwater level and quality is effectively monitored throughout the country with a well-established monitoring network (Stuyfzand et al., 008). on on the groundwater issues from 14 different countries."" --Elsevier, Groundwater for Sustainable Development ""This book should prove to be a valuable resource for groundwater professionals, since it provides reviews of current technologies, and introduces the socioeconomic issues that should be considered in conjunction with the technical issues when developing groundwater management plans or addressing unforeseen crises. For policy makers, who, for the most part, are familiar with the socioeconomic issues, the book highlights the technical practices and solutions that promote the sustainable management of groundwater resources, such as monitoring the levels and quality of groundwater; the ways to manage both supply and demand; and the options for integrated management of multiple water sources, such as groundwater and surface water. Finally, for the general public, the book highlights the importance of groundwater and its value in our everyday lives, and provides an understanding of the technical and cultural difficulties that must be addressed to preserve the benefits of this most valuable resource for present and future generations."" --GRIPP Author InformationProf. Abhijit Mukherjee received his PhD degree from the University of Kentucky, United States and is a postdoctoral fellow at the University of Texas at Austin, United States. He has served as the physical hydrogeologist at the Alberta Geological Survey in Canada and is currently a professor at the Department of Geology and Geophysics, and the School of Environmental Science and Engineering at the Indian Institute of Technology Kharagpur, India. Prof. Mukherjee’s main research area is hydrogeology, including water pollution, scarcity, and governance. He is known globally for his studies on geological and human-sourced groundwater pollution and has done extensive work on delineating groundwater scarcity using field observations, advanced computation, and Artificial Intelligence techniques. He has received many distinctions, including the highest award in Indian science. He is a fellow of the Geological Society of America, the American Geophysical Union, and the Royal Society of Chemistry. He has editorial roles in the Journal of Hydrology, Applied Geochemistry, Journal of Earth System Sciences, Scientific Reports, ES&T Letters, ES&T Engineering, and Water Resources Research. He is the editor of several books, including Groundwater of South Asia and Global Groundwater: Source, Scarcity, Security, Sustainability and Solutions. Bridget Scanlon has a PhD from the University of Kentucky, and is presently Fisher Endowed Chair in Geological Sciences and a Senior Research Scientist at the Bureau of Economic Geology, Jackson School of Geosciences, the University of Texas at Austin. As a world-leading authority on water research, her career has been characterized by a commitment to data as well as innovative approaches that cut across disciplines. During her ~40 years academic career, Bridget has published articles in numerous peer-reviewed journals, and has been involved with U.S. Department of Energy scientific endeavors, and has been a member of the NASA GRACE satellite Science team. In 2016, she was elected as a member of the National Academy of Engineering, one of the highest U.S. scientific professional honors and also the National Ground Water Association’s M. King Hubbert Award. Bridget is widely considered as one of the foremost authorities on global groundwater resources and besides being an Associate Editor of several subject journals, she is the former Managing Editor of Journal of Hydrology. Alice Aureli has a PhD in Hydrogeology and has worked in the UNESCO Water Sciences Division since 1989. She is the Chief of the Groundwater Resources and Aquifer Systems Section of UNESCO’s International Hydrological Programme. She is responsible for, amongst others, the International Shared Aquifers Resources Management (ISARM) programme. This role has led her to supervise the work of the interdisciplinary group that advised the UN International Law Commission to prepare the Draft Articles on the Law of Transboundary Aquifers. An important aspect of her work has been on scientific and policy-related issues surrounding groundwater governance. Alice is the author of a large number of publications and has also served as editor of various international journals. Simon Langan received his PhD from University of St. Andrews, UK, followed by a post-doctoral fellowship atImperial College, London, UK. He was the Director of IIASA’s Water Program and the Water Futures and Solutions Initiative. Throughout his career, Simon has won grants and secured funding from regional and international donor projects, including from the private sector, the EU 7th Framework, Natural Environment Research Council, National Power, Scottish Environment Protection Agency, USAID, and Canadian Government. Simon has an extensive number of publications in peer-reviewed journals, as well as experience in policy-related analyses, including numerous peer-reviewed articles, technical reports, books/chapters and conference proceedings. Huaming Guo has a PhD from the China University of Geosciences: Wuhan, Hubei, China, followed by a Postodoctoral Fellowship at Tsinghua University: Beijing, Beijing, China. He has also been an Alexander van Humboldt Research Fellow at the Karlsruhe Institute of Technology, Germany. He is currently a Professor at the School of Water Resources and Environment, China University of Geosciences, Beijing, China. He has been also a Senior Visiting Professor to Columbia University, USA. Huaming has over 20 years of teaching and research experience. He has been Associate Editor of several journals and presently servesas Editor-in-Chief of Journal of Hydrology. Andrew McKenzie has a B.A (Hons.) from Oxford University and M.Sc. from University College London in Hydrogeology. He worked as an exploration geologist and hydrogeologist in Africa, the Middle East and the UK before joining the BGS in 1988, working on groundwater issues, in Central America. As a hydrogeologist in BGS’s Groundwater Directorate he has been responsible for managing the survey’s databases on groundwater, focussing on field data collection, data processing and developing systems to disseminate data to stakeholders. This includes contributing to the NERC systems for monitoring groundwater status, investigating drought and floods, and, more recently, developing forecasts of groundwater resources at a national level. He has extensive international experience principally in Africa and South Asia, where he was Senior Hydrogeologist for the World Bank India Hydrology Project, and co-investigator on research projects in the Ganga and Cauvery basins. He is currently Platform Lead for the BGS ODA Project ‘Sustainable Asian Cities’ which is building networks for urban geoscience across several Asian countries. Andrew has over 35 years of research experience. He is a Fellow of Geological Society of London. Tab Content 6Author Website:Countries AvailableAll regions |