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With its widely diverse and growing populations, burgeoning industrialization and changing weather patterns, the continent of Asia encompasses a vast array of water related problems. This book contains both specially written invited contributions from experts and related articles published previously in the Asian Journal of Water, Environment and Pollution in recent years. Included are some case studies from areas outside Asia, such as Africa and the UK. Topics covered include: the impact of coal mining on water quality; coastal pollution loading; the application of GIS and remote sensing for the sustainable use and management of groundwater; organic pollution discharge from tropical landfill; the impact of industrial effluents; multivariate statistical analysis to define water quality; fluoride content and dental fluorosis; stable carbon and nitrogen isotopes as indicators of organic matter sources; and the evaluation of drinking water quality. Representing a serious effort to address and resolve the issues described, this book will be of interest to water specialists, researchers and policymakers alike. About the Editor: Prof. V. Subramanian, after completing his PhD in the U.S.A. with a Fulbright Fellowship and teaching for about two years at McGill University, Canada, joined Jawaharlal Nehru University in 1975. Since then he has been working on global rivers and their impact on coastal and delta processes for over three decades. More than 35 students did their PhD under him over the years and he has authored or co-authored more than 175 technical international publications, including books. He set up academic activities on rivers in South Asia at JNU way back in 1975 and has since been associated with several international institutions/organizations either as member or guest faculty from time to time. He also worked as Emeritus Fellow in Environmental Sciences at JNU. After completion of this term, he is working as an Advisor in Environmental Sciences at Amity University, Noida, India.
Excessive groundwater pumping, groundwater contamination, and subsurface thermal anomalies have occurred frequently in Asian coastal cities, greatly disturbing the urban aquifer and the subsurface environment. In this volume, the relationship between the stage of a city’s development and subsurface environment issues have been explored. Intensive field surveys were done in Tokyo, Osaka, Seoul, Taipei, Bangkok, Jakarta, and Manila. New, advanced methods, including satellite, tracer techniques, and the social economy model, were developed to evaluate subsurface conditions. Groundwater storage and groundwater recharge rates, as well as the accumulation and transport of pollutants, have been compiled as integrated indices of natural capacities under climate and social changes, and used to evaluate the vulnerability risk for all cities. The indices have been made on a yearly basis for seven cities for a century (1900–2000). Using these indicators it is now possible to manage groundwater resources in a sustainable fashion. This volume is indispensable to researchers in hydrology, coastal oceanography, civil engineering, urban geography, social economy, climatology, geothermics, and urban management.
In 2007, the world's urban population surpassed the number of people living in rural areas and is still growing. The number of city dwellers who do not have access to piped water and rely on groundwater is also increasing. In many Asian cities, groundwater is not only the source of domestic water but also an important resource for industrial development, making better management of groundwater resources essential for sustainable development. Because groundwater is easier to access and costs less than water from piped systems, groundwater abstraction cannot be easily regulated. Policies for groundwater management adopted in Japan and other Asian countries are compared, and technologies for efficient use of groundwater are elucidated. Groundwater contamination is also a serious problem that exacerbates water scarcity in Asian cities. Case studies illustrate the cause and consequences of naturally occurring contaminants such as arsenic and fluoride, and groundwater contamination due to anthropogenic contaminants is described. Also discussed are technologies for treating contaminated groundwater to reduce the health risks of drinking contaminated groundwater.
This will be the first comprehensive and detailed volume on the physical environment of Southeast Asia and will be essential reading for geographers, ecologists, and environmental managers. As the definitive reference work on the region it will cover all aspects of the biophysical environment and its current environmental problems and mangement practices. The topics discussed range from a regional view of landforms and vegetation to specific cases including urban environments,coral reefs, volcanic hazards, and the Mekong River Basin. The contributors are distinguished, scholarly, and have a long association with Southeast Asia.This is the fourth volume to be published in the Oxford Regional Environment series.
Groundwater contributes to the sustainable development of many Asian cities by providing water for domestic, industrial and agricultural uses and regulating ecosystem flows. However, groundwater has not always been properly managed, which often has resulted in depletion and degradation of the resource. Groundwater Environment in Asian Cities presents the up-to-date scientific knowledge on groundwater environment in fourteen Asian cities using Driver-Pressure-State-Impact-Response (DPSIR) framework. In detail the book presents the facts and figures of groundwater dependency, problems related to groundwater over exploitation, implementation of various policy instruments and management practices and their results in selected fourteen Asian cities, namely; Bandung (Indonesia), Bangkok (Thailand), Beijing (China), Bishkek (Kyrgyzstan), Chitwan (Nepal), Delhi (India), Dili (East Timor), Ho Chi Minh (Vietnam), Hyderabad (India), Khulna (Bangladesh), Lahore (Pakistan), Seoul (South Korea), Tokyo (Japan), and Yangon (Myanmar). The book provides the one-step platform to get sufficient details about groundwater aquifers, hydrogeology, groundwater status, impacts on groundwater environment and responses (technology, policy, institutional, etc.) deployed in the case studies cities, and therefore, provides a snap-shot of Asian groundwater environments. The theoretical background of the topics discussed along with the case studies help the readers understand the similarities and differences about the status of groundwater development and use in each city. In addition, the information in the book will serve as a baseline for other research such as mitigation of groundwater related problems (e.g., land subsidence), impact of climate change on groundwater, and importance of groundwater for implementing sustainable development goals in future. - Presents a framework for evaluating groundwater environment in urban environments - Includes case studies and local examples from a broad geographical range of urban environments from virtually every region in Asia, including Bandung, Bangkok, Delhi, Bishkek, Beijing and Tokyo - The book will be a valuable resource for groundwater adversaries in the scientific, decision-making and end-user communities, particularly for understanding and assessing state of groundwater resources in the region as well as learning from the responses practiced so far (Dr. Linda Anne Stevenson, APN) - The contents in this book are very much useful for informed decision-making for protecting groundwater environemntand therefore contributes in making invisible visible (Dr. Neno Kukuric, IGRAC) - With concrete examples and lessons for readers, this book responds to the call for comprehensive research and studies, the implementation of new science-based methodologies and endorsement of principles for groundwater resources management and cities (Dr. Aureli Alice, UNESCO-IHP) - As a "Regional Hub for Groundwater Management in the Asia Pacific Region, IGES finds this book as a very much useful reference for knowledge hub partners, groundwater managers, academic institutions, research scholars, and international organizations working in the areas of groundwater in Asia and beyond (Dr. Hideyuki Mori, IGES)
This book presents recent findings from the South Asian region (SA), broadly including groundwater studies on (a) quantity, (b) exploration, (c) quality and pollution, (d) economics, management and policies, (e) groundwater and society, and (f) sustainable sources. It offers a compilation of compelling, authentic insights into groundwater scenarios throughout the water-stressed South Asia region. Comprising Afghanistan, Bangladesh, Bhutan, India, Myanmar, Nepal, Pakistan, and Sri Lanka, it is the most densely populated region in the world: It occupies approximately 4% of the global land area but supports more than 25% of the global population. The SA region now faces an acute shortage of fresh water due to a rapid rise in water demand and changes in societal water-use patterns. Combining essential advances and perspectives, this book offers a valuable resource for all scientists, planners and policymakers who are interested in understanding and developing the SA and other related areas.
Global Change and Future Earth is derived from the work of several programs of the International Union of Geodesy and Geophysics (IUGG). It demonstrates how multi- and inter-disciplinary research outputs from the geoscience community can be applied to tackle the physical and societal impacts of climate change and contribute to the Future Earth programme of the International Council for Science. The volume brings together an international team of eminent researchers to provide authoritative reviews on the wide-ranging ramifications of climate change spanning eight key themes: planetary issues; geodetic issues; the Earth's fluid environment; regions of the Earth; urban environments; food security; and risk, safety and security; and climate change and global change. Covering the challenges faced by urban and rural areas, and in both developed and developing counties, this volume provides an important resource for a global audience of graduate students and researchers from a broad range of disciplines, as well as policy advisors and practitioners.
Fully updated and expanded into two volumes, the new edition of Groundwater Contamination explains in a comprehensive way the sources for groundwater contamination, the regulations governing it, and the technologies for abating it. This volume discusses aquifer management and strategies for stormwater control and groundwater restoration. A number of case histories on site analysis and remediation based on DOE and state documents are included. Among the many new features of this edition are a full discussion of risk assessment, the preparation of groundwater protection plans, and references linking the text to over 2,300 water-related Web sites.
Global 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. - Provides interdisciplinary content that bridges the knowledge from groundwater sources to solutions and sustainability, from science to policy, from technology to clean water and food - Includes global and regional reviews and case studies, building a bridge between broad reviews of groundwater-related issues by domain experts as well as detailed case studies by researchers - Identifies pathways for transforming knowledge to policy and governance of groundwater security and sustainability
Agricultural development in South Asia (a comparative study in the green revolution experiences) is a pioneer work of its own kind and unique in nature. Its salient features are: It is a comprehensive and self-contained study covering an analysis of determinants of agriculture and agricultural attributes -- so, a cause-effect analysis. Agricultural development regions and agro-ecological regions have been delineated, and specific recommendations have been made for redressing the regionalimbalances in levels of agricultural development in the South Asian countries--so a planning-oriented study. The study is based on field truthing, personal communications, district-by-district data etc. The data have been presented in maps enlightening patterns and dynamics of agricultural inputs and outputs, and the cartographic work is of high quality. So far, no such in-depth study has been conducted, covering only the primary activity of the sub-continent and highlighting the green evolution experiences--so, a study related to the then and now as regards agricultural inputs and outputs. It will be a study of great relevance to the SAARC nations for planning purposes and making master plans for reducing regional inequalities in agricultural performance levels. Since this work is a pioneer attempt and is based on the field work and district-by district data covering the green revolution period (1967-68 to 1987-88), it is a work of its own kind and unique in nature. The greatest inequality in the use of agricultural inputs within the borders of South Asia is responsible for agricultural development differences. These range from the poverty in densely populated Bangladesh to agriculturally high-speed Punjab-Haryana region in Northwestern India. Moreover, South Asia includes the cold empties of the high Himalayan ranges where agricultural development has a special meaning. The agricultural face of South Asia has changed at a different rate because the diffusion of green revolution technology was not a universal scale. As a consequence, four levels of agricultural development were observed, such as: Very high level development with high speed change; High/medium level development with high/medium speed change; Low level development with low speed change, and Very low level development with very low speed change. Therefore, it is no longer desirable to write only a static geography of agricultural development of South Asia, and it is also equally important, above, all to examine, explain, identify and understand the recognisable ceaseless patterns of change in agricultural development levels.