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This book documents the various impacts of urbanization on hydrological systems and water resources. The first half of the book is focused on urbanization and surface waters, starting with the status of hydrological systems in the urban areas, i.e. the catchment characteristics and changes in rainfall dynamics. The most pronounced hydrological problems in cities are changes in runoff due to precipitation. Recently, rain events have been less frequent but more intense, sometimes leading to flash floods. Though the substantial increase in runoff causes floods in the urbanized area, it may be attributed to the reduction of infiltration due to construction of roads. This, in turn, results in groundwater decline and depletion. The second half of the book covers the impact of urbanization on groundwater, which starts with hindered or significantly reduced recharge taking place due to altered urban surfaces. The limited groundwater resources are over-exploited by the urban population, leading to water scarcity and depletion. Groundwater gets polluted due to solid waste dumping sites or by wastewaters discharged by industries. The book will be useful for researchers, educators, municipal/city authorities, government officials, and NGOs.
In response to the increasing urbanization, advances in the science of urban hydrology have improved urban water system management, creating more livable cities in which public safety and health, as well as the environment, are protected. The ultimate goal of urban water management is to mimic the hydrological cycle prior to urbanization. On top of urbanization, climate change, which has been demonstrated to alter the hydrological cycle in all respects, has introduced additional challenges to managing urban water systems. To mitigate and adapt to urbanization under a changing climate, understanding key hydrologic components should expand to include complex issues brought forth by climate change. Thus, effective and efficient measures can be formulated. This Special Issue of Water presents a variety of research papers that span a range of spatial and temporal scales of relevance in different societies’ efforts in adapting to the eminent changes in climate and the continuous changes in the landscape. From mitigating water quality in permeable pavements and bioretention swales to understanding changes in groundwater recharge in large regions, this Special Issue examines the state-of-the-art in sustainable urban design for adaptation and resiliency.
The book brings together high-quality research articles on advanced hydrological analysis, advanced computational methods, and the ecological and sociological aspects of urban watershed management under one umbrella. The rapid pace of urbanization, not accompanied by any farsighted, holistic plan, has reduced many cities in the developing world into multi-hazard areas. The most perceptible consequence of urbanization is the change in land-use and land cover, which in turn impacts hydrological systems. Accordingly, scientific studies on urban hydrology with due emphasis on ecological and sociological aspects under changing climate are vital to the appropriate design of urban landscapes and civil infrastructure works. This book addresses precisely these issues, offering a useful guide for environmentalists, hydrologists, and a broad range of socio-economic scientists exploring the environmental vulnerabilities arising from urbanization.
River Basin Ecohydrology in the Indian Sub-Continent: Sustainable Strategies and Sustenance provides a multidisciplinary approach that focuses on conservation strategies, water quality management in the eco-regions, catchment management practices, estuaries, preservation of in-stream habitat populations, and natural /bioengineering techniques for the sustainable management of ecological resources in the Indian sub-continent. The book provides a unique platform for readers from branches of science and technology, including engineering sciences, agricultural sciences, biogeochemical sciences, hydrogeochemistry, toxicological sciences, social sciences, environmental policy, and governance, etc. to exchange ideas and information at multiple levels on sustainable water management, degradation of marine quality and indicators of ecological degradation. The book's contributors provide impressive and comprehensive information on different management strategies for sustainable restoration of aquatic ecological systems covering vital aspects of hydrogeochemical and geoenvironmental parameters. This book aims to provide a "platform" for scientists and environmental researchers/planners to discuss the environmental degradation, spatial heterogeneity on water quality and aquatic species, methodological approaches on sustainable management of biodiversity, etc. - Presents an extensive collection of eco-hydrological changes in the river basin driven by both nature and anthropological factors - Provides state of the art modeling, data analysis methodologies for complex socio – ecological complexity applied in the Indian Sub-Continent - Includes specific cases of ecohydrology in the river basin, especially from the Indian Sub-Continent
Effective management of urban water should be based on a scientific understanding of the impact of human activity on both the urban hydrological cycle - including its processes and interactions - and the environment itself. Such anthropogenic impacts, which vary broadly in time and space, need to be quantified with respect to local climate, urban d
This volume highlights important links existing between soils and human health which up to now are not fully realized by the public. Soil materials may have deleterious, beneficial or no impacts on human health; therefore, understanding the complex relationships between diverse soil materials and human health will encourage creative cooperation between soil and environmental sciences and medicine. The topics covered in this book will be of immense value to a wide range of readers, including soil scientists, medical scientists and practitioners, nursing scientists and staff, toxicologists, ecologists, agronomists, geologists, geochemists, public health professionals, planners and several others.
Examining the current literature, research, and relevant case studies, presented by a team of international experts, the Urban Water Reuse Handbook discusses the pros and cons of water reuse and explores new and alternative methods for obtaining a sustainable water supply. The book defines water reuse guidelines, describes the historical and curren
Sustainable management of natural resources is an urgent need, given the changing climatic conditions of Earth systems. The ability to monitor natural resources precisely and accurately is increasingly important. New and advanced remote sensing tools and techniques are continually being developed to monitor and manage natural resources in an effective way. Remote sensing technology uses electromagnetic sensors to record, measure and monitor even small variations in natural resources. The addition of new remote sensing datasets, processing techniques and software makes remote sensing an exact and cost-effective tool and technology for natural resource monitoring and management. Advances in Remote Sensing for Natural Resources Monitoring provides a detailed overview of the potential applications of advanced satellite data in natural resource monitoring. The book determines how environmental and - ecological knowledge and satellite-based information can be effectively combined to address a wide array of current natural resource management needs. Each chapter covers different aspects of remote sensing approach to monitor the natural resources effectively, to provide a platform for decision and policy. This important work: Provides comprehensive coverage of advances and applications of remote sensing in natural resources monitoring Includes new and emerging approaches for resource monitoring with case studies Covers different aspects of forest, water, soil- land resources, and agriculture Provides exemplary illustration of themes such as glaciers, surface runoff, ground water potential and soil moisture content with temporal analysis Covers blue carbon, seawater intrusion, playa wetlands, and wetland inundation with case studies Showcases disaster studies such as floods, tsunami, showing where remote sensing technologies have been used This edited book is the first volume of the book series Advances in Remote Sensing for Earth Observation.
This book focuses on the impact of climate change on India, addressing environmental problems and conducting an analysis of the climate change impact on mitigation processes. It examines crucial factors such as soil capability, soil erosion, soil salinity, and watershed planning, as well as the influence of climate change on water resources, including groundwater. The book explores the interconnections between climate change, soil erosion, natural resources, and agricultural practices, emphasizing their direct or indirect effects on water, vegetation, irrigation planning, and the environment. Furthermore, it delves into various aspects of soil erosion, soil compaction, soil nutrients, aquifers, and the impact of climate change on vegetation, crops, pests, moisture, and sustainable yield. These factors contribute to the development of climate change-related factors within the agricultural sector, ultimately fostering sustainable development and management practices for the future. The book also highlights the significance of parameters such as land use change analysis, rainfall, water resources, crop yield, sustainable agricultural development, pest management, and disease control in accurately assessing the impact of climate change. The insights gained from these analyses can inform future development and planning strategies. Therefore, this book serves as a valuable resource for researchers, scientists, NGOs, and academics interested in understanding the impact of climate change on natural resources and ecological systems.