Abstract Sustainable development and environmental planning require scientific tools that can analyze complex interactions among environmental, economic, and social systems. Mathematical models provide powerful frameworks for understanding these interactions and supporting evidence-based decision-making. This study examines the role of mathematical foundations in addressing sustainability challenges through modeling, optimization, and analytical techniques. It highlights the application of mathematical modeling in forecasting environmental changes, managing natural resources, and evaluating policy alternatives. The paper discusses key mathematical approaches such as optimization methods for resource allocation, dynamic modeling and system dynamics for understanding long-term environmental behavior, and multi-criteria decision analysis for balancing competing sustainability objectives. These approaches help policymakers and planners analyze complex systems, assess trade-offs, and develop efficient strategies for sustainable land-use planning and environmental management. The study emphasizes that integrating mathematical techniques with environmental science and policy frameworks enhances the capacity to design sustainable solutions and achieve long-term ecological balance.
Supriya Prakash Naiknaware (Sun,) studied this question.