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Most of the world's freshwater resources in the liquid state (i.e. not in glaciers and polar caps) are underground. As the population grows and demand for water rises, reliance on groundwater increases. In many cases the groundwater underlies boundaries, or is part of a hydraulic system that crosses boundaries. In such cases there is always the danger that the 'prisoner's dilemma' will run its course and all parties will compete over who will pump the most water, ultimately destroying the storage potential to the detriment of future generations of all parties reliant on the groundwater. This book explores the options and means for averting this all too realistic scenario by managing these shared groundwater resources. Nowhere is the likelihood of excessive use of groundwater greater than in the water-scarce Middle East, and especially in the Israeli-Palestinian case. Here both sides are heavily reliant on a shared aquifer, the Mountain aquifer. This book is the outcome of a seven-year effort to find ways to manage the Mountain aquifer, perhaps the most important resource shared by Israelis and Palestinians. As part of this cooperative study, four workshops were held in which a selected number of Palestinian, Israeli, and foreign experts were invited. The chapters in this book were originally presented in one of these workshops. To these papers introductory and concluding chapters were added.
This book from the NATO ASI on "Overexploitation and Contamination of Shared Groundwater Resources Management, (Bio)technological, and Political Approaches to Avoid Conflicts" is written by authors from different disciplines and regions of the world. The aim of the book is to contribute to the knowledge of shared groundwater resources management to avoid conflicts by considering multi-disciplinary approaches based on effective and equitable water sharing for all water users.
The aim of this book is to document for the first time the dimensions and requirements of effective integrated groundwater management (IGM). Groundwater management is a formidable challenge, one that remains one of humanity’s foremost priorities. It has become a largely non-renewable resource that is overexploited in many parts of the world. In the 21st century, the issue moves from how to simply obtain the water we need to how we manage it sustainably for future generations, future economies, and future ecosystems. The focus then becomes one of understanding the drivers and current state of the groundwater resource, and restoring equilibrium to at-risk aquifers. Many interrelated dimensions, however, come to bear when trying to manage groundwater effectively. An integrated approach to groundwater necessarily involves many factors beyond the aquifer itself, such as surface water, water use, water quality, and ecohydrology. Moreover, the science by itself can only define the fundamental bounds of what is possible; effective IGM must also engage the wider community of stakeholders to develop and support policy and other socioeconomic tools needed to realize effective IGM. In order to demonstrate IGM, this book covers theory and principles, embracing: 1) an overview of the dimensions and requirements of groundwater management from an international perspective; 2) the scale of groundwater issues internationally and its links with other sectors, principally energy and climate change; 3) groundwater governance with regard to principles, instruments and institutions available for IGM; 4) biophysical constraints and the capacity and role of hydroecological and hydrogeological science including water quality concerns; and 5) necessary tools including models, data infrastructures, decision support systems and the management of uncertainty. Examples of effective, and failed, IGM are given. Throughout, the importance of the socioeconomic context that connects all effective IGM is emphasized. Taken as a whole, this work relates the many facets of effective IGM, from the catchment to global perspective.
The question of whether the earth's climate is changing in some significant human-induced way remains a matter of much debate. But the fact that climate is variable over time is well known. These two elements of climatic uncertainty affect water resources planning and management in the American West. Managing Water Resources in the West Under Conditions of Climate Uncertainty examines the scientific basis for predictions of climate change, the implications of climate uncertainty for water resources management, and the management options available for responding to climate variability and potential climate change.
An All-Inclusive Guide to Efficient, Cost-Effective Management of Groundwater Resources Groundwater Sustainability is a reliable, one-stop guide containing all the information you'll need to succeed in your groundwater management and development projects. It covers virtually every aspect of the subject, from how to characterize groundwater and evaluate its resources to determining the interactions between surface water and groundwater. Packed with hundreds of illustrations, this expansive guide reviews both established and innovative aquifer restoration techniques and technologies, including the control and remediation of contaminant sources and groundwater contaminant plumes. You'll also find valuable information regarding resource augmentation, the engineering necessary for resource development, and building comprehensive databases for efficient, cost-effective assessment. Written in an inviting-to-read style by a recognized expert in the field, Groundwater Sustainability provides the last word on the all-important subject of how to maintain and manage the most precious natural resource. Inside: In-depth coverage of groundwater availability and sustainability Treatment options for groundwater contaminants Tools and techniques for effectively managing aquifers Proven tactics for protecting and restoring groundwater resources Case studies, figures, graphs, and photographs Tips on building assessment models using a GIS platform This all-in-one guide covers: Global Freshwater Resources Aquifer Evaluation Groundwater Resource Development Groundwater Recharge Climate Change and Its Impact on Groundwater Groundwater Chemistry Drinking Water Treatment Options Managing & Restoring Groundwater Resources
Foreword -- Preface -- Acronyms & units of measurement -- Introduction to the inventory -- Shared water resources in Western Asia -- Key findings -- Overview & methodology: Surface water -- Euphrates River Basin -- Shared tributaries of the Euphrates River -- Tigris River Basin -- Shared tributaries of the Tigris River -- Shatt al Arab, Karkheh and Karun Rivers -- Jordan River Basin -- Orontes River Basin -- Nahr El Kabir Basin -- Qweik River Basin -- Overview & methodology: Groundwater -- Saq-Ram Aquifer System (West) -- Wajid Aquifer System -- Tawila-Mahra/Cretaceous Sands: Wasia-Biyadh-Aruma Aquifer System (South) -- Sakaka-Rutba: Wasia-Biyadh-Aruma Aquifer System (North) -- Rub'al Khali: Umm er Radhuma-Dammam Aquifer System (South) -- Gulf Umm er Radhuma-Dammam Aquifer System (Centre) -- Widyan-Salman: Umm er Radhuma-Dammam Aquifer System (North) -- Wadi Sirhan Basin: Tawil-Quaternary Aquifer System -- Anti-Lebanon -- Western Aquifer Basin -- Coastal Aquifer Basin -- Yarmouk Basin: Basalt Aquifer System (West) -- Azraq-Dhuleil Basin: Basalt Aquifer System (South) -- Taurus-Zagros -- Jezira Tertiary Limestone Aquifer System -- Jezira Basin: Neogene Aquifer System (North-West): Upper and Lower Fars -- Dibdibba Delta Basin Neogene Aquifer System (South-East): Dibdibba-Kuwait Group
Water scarcity due to climate change, population growth, and economic development is a critical issue in many semi-arid and arid regions around the world. Water scarcity is especially critical in regions where water is shared by several riparian states and used for competing purposes (irrigation, domestic, industry, environment, and hydropower). There is evidence that water scarcity may give rise to conflicts among the riparian states that share water basins. At the same time, there is evidence that proper arrangements among riparian states create a basis for cooperation, which is a necessary condition for economic development, food production, environmental sustainability, and poverty reduction. This book presents a collection of work presented by a group of academics and policy experts dealing with the impact of water scarcity and variability on the ability to jointly manage shared water and the derived welfare of international states and nations sharing international river basins, consisting of economics, technology, law and institutions, geography, and international relations.The book covers theoretical aspects of management of transboundary water as well as case studies from hotspots around the world. The unique aspect of this book is the multidisciplinary nature of the chapters, reflecting a new field of research that will gain popularity as water scarcity will increase over time and across regions.The chapters from the book were presented at the 'Management of Transboundary Water Resources under Scarcity: Perspectives on Agriculture and Food Security' workshop held at The Hebrew University of Jerusalem, Israel, from June 22 to 23, 2015.
It is now widely accepted that groundwater, though not as visible as surface water, is ubiquitous in the global landmass, is contained in the pore spaces of rock formations (aquifers), and its science, hydrogeology, has rapidly developed over the last 35 years. This science has contributed to the well-being and development of the human population in all parts of the globe (Burke and Moench, 2000). While aquifer systems, due to their partial isolation from surface impacts, on the whole contain excellent quality water, there has been poor resource management because economic externalities have been ignored. In many countries, aquifers have been fully evaluated and extensively used for municipal and other demands, as a common good. Aquifer resources represent a substantial hidden global capital, which if abused, leads to future economic costs and environmental-social conflicts. As a result, the beneficial use of groundwater should be more particularly subjected to socio-economic, institutional, legal, cultural, ethical and policy considerations than surface water. Its national sustainable management seems to be hampered by weak social and institutional capacity, and poor legal and policy frameworks. In a transboundary context, this can be even further amplified because of contrasting levels of knowledge, capacities and institutional frameworks on either side of many international boundaries. UNESCO and its partners have established a global programme to address the long-term sustainability for groundwater resources, through a series of actions, including ISARM and PCCP. In this chapter, which is an overview designed to provide the NATO ASI with the necessary background, these actions, and the progress achieved over the past decade will be described so that participants can gain the necessary background to take the agenda forward. Some lessons learned from the inventory process of the Americas are presented, followed by a review of the linkage between transboundary aquifers and globalization, and a presentation of groundwater dependent ecosystems and governance issues. The chapter concludes with an outlook of the UNESCO programme on transboundary water resources encompassed in two very successful initiatives, the PCCP and ISARM.
Attending water security is an important challenge and a major systemic risk humanity faces in the years to come. This is due to population increase, over-consumption of water, especially in agriculture, climate change and various forms of water pollution. The issue becomes more complicated in transboundary water catchments that cover almost half of the world’s land surface, with about 60% of global river flow and 40% of the world’s population. Also, in many parts of the planet, like Saharan Africa, population depends on groundwater resources located in transboundary aquifer systems. These facts illustrate the importance of the book's subject, which is the governance of transboundary waters, both surface and groundwater. The book is written by two distinguished scientists, who, having worked in various international institutions, like UNESCO, GEF, UNEP and at the European Commission, have both an extended expertise on how to bridge the gap between science and political decision-making, which is the main factor for an effective governance of water resources. What is new in the book is the integrated analysis of transboundary governance of both surface water and groundwater, as it occurs in reality. In current literature, groundwater is still often missing for the benefit of surface water or, on the contrary, it is treated separately from surface water. The most important feature of the book is to distinguish between the real and a "good" or an effective transboundary water governance and to provide practical tools, methodologies and examples for its implementation in the field. Published timely during 2018, the book will contribute to address successfully practical problems of governance of transboundary waters that represent a very important part of our precious fresh water resources.