The book will be of interest to researchers and practitioners in the field of hydrology, environmental engineering, agricultural engineering, earth sciences, and watershed and range sciences, as well as to those engaged in water resources planning, development and management in arid and semi-arid areas. Given the lack of literature on arid regions, this book not only provides an assessment of water resource management in arid regions but also addresses solutions, and it can also be an outstanding textbook on water resources management and sustainability for arid regions.
This volume in the Water Science and Technology Library includes selected papers that have been presented and discussed during the International Water Resources Management and Sustainability: Solutions for Arid Regions, 22–-24 March 2022, Dubai, United Arab Emirates. The conference was organized by the National Water and Energy Center, UAE University, in collaboration with the South Australian Goyder Institute for Water Research, and the Department for Environment and Water, Government of South Australia.
The conference attracted a large number of nationally and internationally well-known experts who have been at the forefront of water resources management and sustainability in arid and semi-arid regions. More than 55 countries, covering the five continents, were represented. The conference was designed to facilitate and encourage new perspectives on how science and innovative technologies can transform water management and sustainability in arid and semi-arid regions around the world. It addressed current challenges and priorities in water management and provided a forum to share knowledge, experiences, research, and discoveries.
Содержание
Wireless Sensor Networks for Hydrological Monitoring, Helpful Tools for Accurate Models.- Automatic Extraction of Surface Water Bodies from High-Resolution Multispectral Remote Sensing Imagery using GIS and Deep Learning Techniques in Dubai.- Multiple Non-Linear Reservoirs to Model Water Balance Components in Sandy Soils.- Flood Mapping and Assessment During Typhoon Ulysses (Vamco) in Cagayan, Philippines using Synthetic Aperture Radar Images.