This research focuses on enhancing water quality for concrete construction by utilizing treated wastewater from wetlands. The study employs a dual -stage treatment process involving charcoal and aggregate layers for primary treatment, followed by water hyacinths for secondary treatment. Investigating water hyacinths' ability to absorb nutrients and contaminants from wastewater is a unique aspect of the study, offering a potential solution for soil and water remediation. Water hyacinths, especially stems and leaves, act as natural filters, effectively indicating heavy-metal pollution in tropical regions. The primary goal is heavy-metal removal from wastewater, allowing treated -water use in concrete production at varying proportions (20 %, 40 %, 60 %, 80 %, and 100 %). Silica fume at 15 % concentration is incorporated to enhance the concrete's durability. Concrete specimens undergo thorough preparation and mechanical property evaluations, compared to conventional M20 -grade concrete. The results reveal improvements in mechanical properties, particularly with 80 % treated wastewater in the mix. The dual -stage treatment process removes heavy metals, and the inclusion of silica fume enhances the concrete's durability and resistance.