Read more
This book offers technical insights into the application of remote sensing and GIS in water resources management, simulation, and modeling in India's Delta region. It outlines strategies to minimize losses, maximize benefits, and protect the environment. The critical roles of science, technology, and innovation in achieving sustainable water resource management are also discussed.
Key challenges in implementing sustainable practices and infrastructure regulations are addressed, with a focus on remote sensing and GIS applications. The book presents innovative programs to advance sustainable water management and proposes practical solutions through collaboration with scientific, industrial, and community stakeholders, especially in the context of climate change impacts.
Applications include facility management, pandemic response, urban wastewater treatment and reuse, and agriculture. Authored by experts, this book offers diverse perspectives, supporting readers in exploring the multidisciplinary connections between these fields. It is an invaluable resource for researchers, professionals, policy makers, and engineers involved in water resources assessment, simulation, and management.
This comprehensive guide aims to foster innovation and actionable solutions for water management challenges, appealing to a wide range of academic and professional audiences.
List of contents
Remote Sensing and GIS Application for Water Resources Management.- Remote Sensing Applications for Crop Evapotranspiration Dynamics - A Case Study for Krishna-Godavari Deltaic Basin.-Analyzing Precipitation and Drought Anomalies in Cauvery Delta Using Remote Sensing Techniques.- Water Resources Management & Application of GIS & Remote Sensing: Climate Change Impact on Water Resources.
About the author
Prof. Shalini Yadav, Professor in Civil Engineering and Head of the Centre for Advanced Water and Environmental Research at Rabindranath Tagore University, India. Her expertise includes solid and hazardous waste management, environmental quality, and water resources. She has overseen numerous R&D projects, guided 35 M.Tech. and 15 Ph.D. students, and authored over 90 publications. Prof. Yadav has contributed to several Springer Nature book series on climate change, water management, and environmental topics and serves on various conference committees and as a reviewer for international journals.
Dr. Ravi Galkate, Senior Scientist and Head, Central India Hydrology Regional Centre, National Institute of Hydrology, Bhopal, India. His research focuses on water resource management, hydrological modeling, drought management, and climate change. Dr. Galkate has led national and international projects, supervised over 20 M.Tech. and 3 Ph.D. students, and authored more than 100 research papers and 10 technical reports. He has also contributed to multiple book chapters.
Prof. Ram Narayan Yadava, Advisor for Research & International Affairs at Mansarovar Global University, Bhopal, and founding Vice Chancellor of AISECT University, India. Also, a founding member of CSIR-AMPRI, he specializes in solid mechanics, environmental quality, and water resources. Prof. Yadava has executed diverse projects, supervised numerous M.Tech. and Ph.D. students, and delivered invited talks globally. With over 100 publications, four textbooks, and 16 edited books, he has been recognized for his leadership in environmental sciences and hydrology. He also serves as Vice President of the International. Association of Water, Environment, Energy, and Society.
Summary
This book offers technical insights into the application of remote sensing and GIS in water resources management, simulation, and modeling in India’s Delta region. It outlines strategies to minimize losses, maximize benefits, and protect the environment. The critical roles of science, technology, and innovation in achieving sustainable water resource management are also discussed.
Key challenges in implementing sustainable practices and infrastructure regulations are addressed, with a focus on remote sensing and GIS applications. The book presents innovative programs to advance sustainable water management and proposes practical solutions through collaboration with scientific, industrial, and community stakeholders, especially in the context of climate change impacts.
Applications include facility management, pandemic response, urban wastewater treatment and reuse, and agriculture. Authored by experts, this book offers diverse perspectives, supporting readers in exploring the multidisciplinary connections between these fields. It is an invaluable resource for researchers, professionals, policy makers, and engineers involved in water resources assessment, simulation, and management.
This comprehensive guide aims to foster innovation and actionable solutions for water management challenges, appealing to a wide range of academic and professional audiences.
