Readers will find an in-depth analysis of the intersections of AI and the FEW Nexus, including the critical need for sustainable farming practices, water conservation, and energy efficiency. Contributing authors are experts from around the globe who offer practical solutions, case studies, and cutting-edge technologies like digital twins, machine learning, and hyperspectral imaging to optimize resource management.
Table of Contents
Section 1. Introduction to AI in the Water-Energy-Food Nexus1. Introduction and Overview of the Topic
2. Bridging AI and the Water-Energy-Food Nexus: Ethical Considerations, Educational Frameworks, and Outreach Strategies
Section 2. AI Applications for Sustainable Agricultural and Water Resource Management
3. Revolutionizing Poultry Farming: AI Innovations for Sustainable Resource Management
4. Economic Implications of Digital Twin Models in Agriculture: Lessons from Cotton in Texas
5. AI-Driven Approaches for Water Stress Monitoring and Sustainable Resource Management in Agriculture
6. Harnessing Machine Learning for Peanut Yield Prediction and Climate Impact Analysis in Central Georgia Agriculture
7. AI-Driven Energy Transition: Advancing Sustainability Through Reduced Environmental Footprints and Enhanced Water-Food Security
Section 3. Technological Innovations for Post-Harvest and Food Efficiency
8. AI-Driven Advancements in Post-Harvest Processing and Secure Grain Storage: Integrating Emerging Technologies with Sustainable Resource Management
9. Hyperspectral Imaging and AI for Food Quality and Sustainability in the Water-Energy-Food Nexus
10. Data-Driven Innovations for Crop Water Management
Section 4. Addressing Global Challenges and Future Directions in the WEF Nexus
11. AI-Driven Monitoring of Food Efficiency and Weight Gain in Goats
12. Tackling the Water-Energy-Food Nexus in Sub-Saharan Africa: Challenges and Solutions
13. AI and the FEW Nexus: A Computable General Equilibrium Model
14. AI and Team Science: Advancing Interdisciplinary Solutions for Global Water-Energy-Food Challenges
15. Synthesis and Recommendations

