Akmeşe, BTosun Satır, İ2026-03-312026-03-3120252619-9149http://dx.doi.org/10.18016/ksutarimdoga.vi.1580513https://hdl.handle.net/11491/9588Recent textile sector growth has resulted in excessive water consumption and wastewater releases into the environment that contain highly harmful compounds, endangering human health and the environment. Notably, the water pollution problem is exacerbated by the mutagenic, carcinogenic, and teratogenic properties of chemicals like dyes. This study aimed to determine whether waste materials from nature might be used as adsorbents to remove colors from aqueous solutions in textile effluent. Acid red 1 (AK1), acid blue 80 (AM80), bright blue G (PMG), safranin O (SO), and Victoria pure blue BO (VSMBO) dyes were examined for their adsorption capacity to achieve this goal. Materials that are abundant in nature and can be considered trash, such as peanut shells, pine pollen, tangerine peels, pomegranate peels, pistachio shells, banana peels, and pumpkin peels, were employed as adsorbents. The original pH and pH=2 were the two pH levels at which the study was conducted, and it was at these pH levels that the adsorption effectiveness was assessed. Consequently, the most excellent clearance at pH=2 was achieved with pomegranate peel (96.49%), peanut shell (94.83%), and banana peel (86.07%) for AK1 dye, AM80 dye, and PMG dye. For SO and VSMBO dyes, it was found that all adsorbents worked well at the initial pH. In this study, the effect of different pH levels (original pH and pH=2) on the adsorption capacities of these dyes was evaluated by one-way ANOVA analysis. While significant differences were observed for AK1, AM80, SO, and VSM80, no significant difference was found for PMG. These findings offer affordable, eco-friendly methods for treating wastewater from textile production. The results suggest that optimizing pH levels can enhance the effectiveness of certain adsorbents in removing dyes from wastewater. Further research may explore the long-term stability and regeneration potential of these materials to ensure sustainable applications in industrial settings. This tool offers a variety of features designed to enhance writing, including grammar checking, paraphrasing, and summarization. By utilizing advanced algorithms, it aims to assist users in producing clear and effective written communication.enAgricultural wasteAdsorptionDyestuffWastewaterTextileArticle28210.18016/ksutarimdoga.vi.1580513WOS:001450752000017