This study was performed to investigate the feasibility of ion-exchange resins as soil amendment. To select resins, weinvestigate four kinds of ion exchange resins, which ions have the most adsorption efficiency of ions (N+, PO4−, K+). Inthe Cation (H+) vs Anion (OH−)=1:2 (w:w), it showed that the highest N, P, K adsorption efficiency was about 80%and reached pH 6~7 & EC 1~2dS/m after 20min. The ability to maintain ion adsorption, it was investigated that thegentle curve of the residual ion ratio of nitrate nitrogen, available phosphorus, exchangeable potassium was maintained.On the other hand, the control (Slow release fertilizer) was significantly reduced under artificial rainfall conditions. Inaddition, the results of three consecutive crop test were showed that the growth of crops decreased 41.8% than the earlygrowth in the control group, whereas decreased 8.3% in the treatment group (ion exchange resins). According to the resultsof soil analysis, it was reduced that the fertilizer ingredients (N 94%, P 74.5%, K 98.6%) in the control and reducedfertilizer ingredients (N 64%, P 60.3%, K 58.4%) in the treatment. Overall, it was estimated that the Ion-exchange resinscould be used as a soil amendment.

• 박장우([주]오상킨섹트) | Jang-Woo Park
• 박기병([주]오상킨섹트) | Ki-Byung Park
• 이준석([주]오상킨섹트) | Jun-Seok Lee
• 이은영(수원대학교 환경에너지공학과) | Eun Young Lee Corresponding author