질산-수산화나트륨 개질 활성탄을 이용한 Lumbriculus variegatus의Cd, Pb, Zn 생물축적량 저감 실험연구Reduction of Cd, Pb, and Zn Bioaccumulation in Lumbriculus variegatus Using Nitric Acid-Sodium Hydroxide Modified Activated Carbon
- Other Titles
- Reduction of Cd, Pb, and Zn Bioaccumulation in Lumbriculus variegatus Using Nitric Acid-Sodium Hydroxide Modified Activated Carbon
- Authors
- 서환종; 박재우
- Issue Date
- Apr-2025
- Publisher
- 한국지하수토양환경학회
- Keywords
- Acid-base modified activated carbon (HNO3–NaOH modified activated carbon); Heavy metals; Adsorption; Diffusive Gradient in Thin films (DGT); Bioaccumulation
- Citation
- 지하수토양환경, v.30, no.2, pp 13 - 24
- Pages
- 12
- Indexed
- KCI
- Journal Title
- 지하수토양환경
- Volume
- 30
- Number
- 2
- Start Page
- 13
- End Page
- 24
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/208180
- DOI
- 10.7857/JSGE.2025.30.2.0013
- ISSN
- 1598-6438
2287-8831
- Abstract
- This study investigated the effectiveness of acid-base modified activated carbon in reducing the mobility andbioavailability of heavy metals (Cd, Pb, Zn) in contaminated sediments using Diffusive Gradient in Thin films (DGT)analysis and bioaccumulation assessment with Lumbriculus variegatus. Microcosm experiments were conducted for 7, 14,21, and 28 days using stabilizer application rates of 5% and 10%, with mechanical mixing and bioturbation methods. DGTanalysis showed that the modified activated carbon achieved maximum stabilization efficiencies of 91.67% for Cd, 83%for Pb, and 98.25% for Zn, effectively decreasing the concentrations of bioavailable heavy metals over time. In thebioaccumulation assessment, the accumulation of heavy metals in L. variegatus decreased by up to 9.4 times at the 10%application rate compared to the 5% rate, confirming the dose-dependent effect of the stabilizer. Initially, the populationdecreased temporarily due to the intake of stabilizers in benthic organisms, but the survival population recovered overtime, indicating that the long-term negative impact was not significant. These results indicate that the acid-base modifiedactivated carbon is an effective stabilizing agent for heavy metal-contaminated sediments and highlight the importance ofdetermining optimal application rates by balancing stabilization efficiency and ecological stability.
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