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This book synthesizes current knowledge and understanding of management and governance in the context of water resilience; advances theory through synthesis of research and experiences from a variety of disciplinary perspectives. The book highlights the implications of theory and experience for innovation in practice and policy; and it explores frontiers and future research. The book further addresses the need for a consolidated, interdisciplinary approach to the theoretical advances and practical implications of water resilience for academics, resource managers, aid organizations, policy makers and citizens.
A new approach to water-resources for researchers, professionals and graduate students, focusing on global sustainability and socio-ecological resilience to change.
This book discusses what it means for cities to work toward and achieve resilience in the face of climate change. The content takes an urban planning perspective with a water-related focus, exploring the continued global and local efforts in improving disaster risk management within the water sphere. Chapters examine four cities in the US and Germany - San Francisco, San Diego, Solingen and Wuppertal - as the core case studies of the discussion. The chapters for each case delve into the current status of the cities and issues resilience must overcome, and then explore solutions and key takeaways learned from the implementation of various resilience approaches. The book concludes with a summary of cross-cutting themes, best-practice examples and a reflection on the relevance of the approaches to cases in the wider developing world. This book engages both practitioners and scientific audiences alike, particularly those interested in issues addressed by the Sendai Framework for Disaster Risk Reduction 2015-2030, the 2030 Agenda for Sustainable Development, the recent Water Action Decade 2018-2028 and the Rockefeller Foundation’s 100 Resilient Cities.
This book highlights the relationship between the water sector and various other sectors in order to establish an improved understanding of the importance of water resources as an essential cross-cutting vector of socio-economic development. The book is both policy and practice oriented and is not constrained by existing definitions on water security. It includes actual experiences of policy, management, development and governance decisions taken within the water sector, and examples on how these have affected the energy and agricultural sectors as well as impacted the environment, and vice versa, as appropriate. It also discusses trade-offs, short and long-term implications, lessons learnt, and the way forward. The book includes case studies on cities, countries and regions such as Australia, China, Singapore, Central Asia, Morocco, Southern Africa, France, Latin America, Brazil and California.
Infrastructure that manages our water resources (such as, dams and reservoirs, irrigation systems, channels, navigation waterways, water and wastewater treatment facilities, storm drainage systems, urban water distribution and sanitation systems), are critical to all sectors of an economy. Realizing the importance of water infrastructures, efforts have already begun on understanding the sustainability and resilience of such systems under changing conditions expected in the future. The goal of this collected work is to raise awareness among civil engineers of the various implications of landscape change and non-climate drivers on the resilience of water management infrastructure. It identifies the knowledge gaps and then provides effective and complementary approaches to assimilate knowledge discovery on local (mesoscale)-to-regional landscape drivers to improve practices on design, operations and preservation of large water infrastructure systems.
This book presents readers with an integrated modeling approach for analyzing and understanding the interconnection of water, energy, and food resources and discusses the relationship between resilience and sustainability of the food- energy –water (FEW) system. Authors provide novel frameworks, models, and algorithms designed to balance the theoretical and applicative aspects of each chapter. The book covers an integrated modeling approach for FEW systems along with developed methods, codes, and planning tools for designing interdependent energy, water and food systems. In-depth chapters discuss the impact of renewable energy resources in FEW systems, sustainable design and operation, net zero energy buildings, and challenges and opportunities of the FEW nexus in the sustainable development of different countries. This book is useful for graduate students, researchers, and engineers seeking to understand how sustainable FEW systems contribute to the resilience of these systems and help policy and design makers allocate and prioritize resources in an integrated manner across the food, energy, and water sectors.
Building water-wise cities is a pressing need nowadays in both developed and developing countries. This is mainly due to the limitation of the available water resources and aging infrastructure to meet the needs of adapting to social and environmental changes and for urban liveability. This is the first book to provide comprehensive insights into theoretical, systematic, and engineering aspects of water-wise cities with a broad coverage of global issues. The book aims to (1) provide a theoretical framework of water-wise cities and associated sustainable water systems including key concepts and principles, (2) provide a brand-new thinking on the design and management of sustainable urban water systems of various scales towards a paradigm shift under the resource and environmental constraints, and (3) provide a technological perspective with successful case studies of technology selection, integration, and optimization on the “fit-for-purpose” basis.
The world's human population now constitutes the largest driving force of changes to the biosphere. Emerging water challenges require new ideas for governance and management of water resources in the context of rapid global change. This book presents a new approach to water resources, addressing global sustainability and focusing on socio-ecological resilience to changes. Topics covered include the risks of unexpected change, human impacts and dependence on global water, the prospects for feeding the world's population by 2050, and a pathway for the future. The book's innovative and integrated approach links green and blue freshwater with terrestrial and aquatic ecosystem functions and use. It also links changes arising from land-use alteration with the impacts of those changes on social-ecological systems and ecosystem services. This is an important, state-of-the-art resource for academic researchers and water resource professionals, and a key reference for graduate students studying water resource governance and management.
Asia and the Pacific is the most disaster-prone region in the world and water is the primary medium through which the impacts of climate change are felt. Resilient water management is central to achieving climate adaptation, managing and better preparing for natural and public health threats, and addressing water scarcity issues. This guidance note provides specific actions and tools for scaling up and mainstreaming water resilience in the region through operations of the Asian Development Bank. The guidance note is based on six pillars: (i) demand for resilient water investments; (ii) a community approach; (iii) strengthened staff capacity; (iv) knowledge, innovation, and partnerships; (v) finance for water resilience; and (vi) digitalization.
This book is a hard copy of the editorial and all the papers in a Special Issue of the peer-reviewed open access journal ‘Water’ on the theme ‘Managed Aquifer Recharge for Water Resilience’. Managed aquifer recharge (MAR) is the purposeful recharge of water to aquifers for subsequent recovery or environmental benefit. MAR is increasingly used to make water supplies resilient to drought, climate change and deteriorating water quality, and to protect ecosystems from declining groundwater levels. Global MAR has grown exponentially to 10 cu.km/year and will increase ten-fold within a few decades. Well informed hydrogeologists, engineers and water quality scientists are needed to ensure that this investment is effective in meeting increasingly pressing needs. This compilation contains lessons from many examples of existing projects, including several national and continental summaries. It also addresses the elements essential for identifying and advancing projects such as mapping aquifer suitability and opportunities, policy matters, operational issues, and some innovations in MAR methods and monitoring. This collection exemplifies the state of progress in the science and practice of MAR and is intended to be useful, at least to water managers, water utilities, agricultural water users and urban planners, to facilitate water resilience through new MAR projects.