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@article{192831,
        author = {SAI GOWRAV AITHAPPA and NEHRUJI .V and DR SHAMPA NANDI},
        title = {Blueprint for Earth: A Global Policy Architecture for Climate Resilience, Ecological Justice, and Sustainable Prosperity},
        journal = {International Journal of Innovative Research in Technology},
        year = {2026},
        volume = {12},
        number = {9},
        pages = {2339-2358},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=192831},
        abstract = {Global ecological sustainability is under increasing pressure due to rapid industrial growth, accelerating urbanization, widespread deforestation, and continued dependence on fossil fuels. These forces have intensified interconnected environmental challenges including climate change, pollution, biodiversity loss, and resource depletion that demand integrated solutions rather than isolated interventions. This paper presents a conceptual global policy framework designed to address these challenges through a unified governance approach. Using comparative institutional analysis and scenario-based policy design, the study synthesizes insights from authoritative global data sources and peer reviewed sustainability research to develop a cohesive architecture covering afforestation, transport emissions, industrial pollution, cooling related greenhouse gases, groundwater protection, waste management, and renewable energy transition.
The framework brings together six complementary policy instruments including the Global Mandatory Afforestation and Ecological Compliance Framework 2025, the Global Industrial Pollution Control and Ecological Compliance Act, and coordinated global measures for clean mobility, sustainable cooling, groundwater restoration, and circular economy implementation. These instruments are supported by emerging technologies such as artificial intelligence enabled environmental monitoring, satellite-based compliance verification, and incentive mechanisms including Planetary Regeneration Credits.
By integrating legal structures, financial incentives, technological innovation, and citizen participation within a single policy architecture, the framework offers a practical pathway to strengthen climate resilience and advance ecological restoration. The study contributes to sustainability governance scholarship by presenting an implementation-oriented model capable of supporting international cooperation and long-term planetary stewardship.},
        keywords = {Global Climate Resilience; Ecological Justice; Mandatory Afforestation; Circular Economy Enforcement; Industrial Pollution Control; AI-Driven Environmental Governance; Renewable Energy Transition; Sustainable Urban Infrastructure; Groundwater Restoration; Zero-Emission Mobility; Planetary Regeneration Credits (PRCs); Climate Policy Architecture},
        month = {February},
        }