Deniz, FatihErsanli, Elif Tezel2025-03-232025-03-2320211522-65141549-7879https://doi.org/10.1080/15226514.2020.1857684https://hdl.handle.net/11486/5738The present paper aimed to perform an environmentally friendly and effective study on the purification of biocidal material using bioremediation technique, and in this context, a natural widespread coastal biowaste (Zostera marina) was applied to remove a model biocide from aqueous system. Herein, malachite green was selected as a common agent to evaluate the biosorption efficiency of waste biomaterial. The bioremediation properties of biosorbent were studied in a controlled batch experiment system by the optimization practice of operating parameters like biosorbent quantity, medium pH, time, pollutant concentration and temperature, and kinetic, thermodynamic, equilibrium, and characterization operations. The optimum operating conditions were considered as 10 mg, 4, 6 h, 15 mg L-1, and 25 degrees C, respectively. Elovich and Langmuir were found to be the best-fitted models, describing the experimental biosorption data. Thermodynamic study revealed a favorable nature of the cleanup process. The characterization analysis indicated the presence of various functional groups on the layered biosorbent surface involved on the pollutant treatment. The untreated biosorbent showed a good biocide purification performance with a value of 97.584 mg g(-1), and it could thus be employed as an eco-friendly and cost-effective cleaning agent in environmental bioremediation studies.eninfo:eu-repo/semantics/closedAccessAqueous systembiocidebiowasteArticle23777277910.1080/15226514.2020.1857684333077712-s2.0-85105838019Q1WOS:000597730500001Q2