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The accelerating global demand for food, dwindling natural resources, intensifying climate change, and mounting pressure on land productivity have rendered traditional agricultural models increasingly inadequate. In response, innovative production systems integrating smart technology, ecological circularity, and modular architecture have emerged as viable solutions. This project introduces a new generation of multi-level, four-season biogenic greenhouse systems(hydrobloom system), built with industrial-grade lightweight framing technologies , intelligent climate control , and cross-sectoral interaction between plant cultivation, poultry farming, and aquaculture. At the heart of the design lies a closed-loop resource cycle: processed poultry waste becomes enriched feed for freshwater fish; fish effluent fertilizes hydroponic and aquaponic crops; and surplus plant biomass is recycled into organic poultry feed. This layered cycling of resources minimizes inputs, reduces environmental impact, and enhances energy self-sufficiency through renewable integration. The system’s modular design ensures adaptability across urban and rural landscapes, representing a transformative model for smart cities, sustainable farming, and resilient food systems.