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This book offers a comprehensive guide to the geo-data revolution, emphasizing how cutting-edge advancements in spatial analysis and natural hazard mapping are transforming global industries and enhancing environmental monitoring. It explores real-world applications across various sectors such as urban planning, disaster management, agriculture, and more. Key topics include the rapid evolution of geo-data collection technologies and advanced spatial analysis tools, highlighting their pivotal role in improving our understanding of Earth's environmental processes. Practical case studies showcase how geo-data is applied to tackle real-world challenges, from mapping natural hazards to optimizing infrastructure planning and advancing environmental conservation. Designed for geospatial professionals, researchers, policymakers, and students, the book provides both technical foundations and insights into the future of spatial technologies. With practical applications, this book will equip readers with the knowledge needed to harness geo-data for sustainable development, disaster resilience, and environmental protection. It can help communities worldwide expand their knowledge in disaster mapping, management, and mitigation.
List of contents
Chapter 1: Ecosystem Services and Sustainable Development Goals: A Comprehensive Review.- Chapter 2: The Role of Carbon Sequestration in Mitigating Cli-mate Change: A Focus on India.- Chapter 3: Assessment & Management of the Gomti River Encroachment through Geospatial Technique.- Chapter 4: Advancements in Remote Sensing for Water Quality Assessment: A Comprehensive Exploration.- Chapter 5: Evolution of Morphometric Features and River Course of Ganges basin: A case study in the Upper Ganga Basin.- Chapter 6: Integrated Urban Water Management: Optimizing Rainwater Harvesting and Stormwater Infrastructure for Sustainable Urban Development.- Chapter 7: Enhancing Environmental Impact Assessment Practices: A Comparative Analysis of International and National Approaches Focusing on India.- Chapter 8: Applications of Remote Sensing and GIS Techniques in Monitoring and Assessment of Land Surface Temperature (LST).- Chapter 9: Crop Yield Estimation in Indiana Using a Semi-Physical Model.- Chapter 10: Geospatial Analysis for assessment of change detection in Land use Land cover pattern in Puranpur block of Pilibhit district of Uttar Pradesh.- Chapter 11: Implementing and Validating a Remote Sensing-Driven Crop Yield Estimation Model in Illinois, USA.- Chapter 12: Analysing Landslide Hazard Propensity in Munnar Panchayat and Surroundings, Idukki District, Kerala.- Chapter 13: Characterization and Pollution Risks of Surface Water Hydrochemistry in Mahanadi River Basin, Odisha (In-dia): An Integrated EWQI, PCA and WAPAS-TOPSIS Framework Approach.- Chapter 14: Crop Health Monitoring and Yield Estimation through Geospatial Technology.- Chapter 15: Comprehensive Water Quality Assessment and GIS-Based Analysis in Kaithal District: Integrating Digital Technologies and Statistical Methods.- Chapter 16: Illegal Foothill Settlements In Visakhapatnam, Andhra Pradesh- A case study.- Chapter 17: Modelling of Urban Ecosystem services in Chandigarh using InVEST Modelling.- Chapter 18: Integrating Multi-Criteria Decision Making and Advanced Technologies in Water Quality Index Development.- Chapter 19: Climate Change Challenges in Western Rajasthan and the Adaptive Response of Haveli Planning and Materials.- Chapter 20: Estimation of Surface Runoff of Satluj sub-basin of Bilaspur and parts of Mandi, Shimla, Solan, Himachal Pradesh, India.- Chapter 21: Flood Risk Assessment and Hydrological Response Modeling in the Bhimgoda Region, Upper Ganga Basin, India.
