References
- Azucue, J. M., A. J. Zeman, A. Mudroch, F. Rosa, and T. Patterson, 1998. Assessment of sediment and porewater after one year of subaqueous capping of contaminated sediments in Hamilton Harbour, Canada. Water Science and Technology 37(6-7): 323-329. https://doi.org/10.1016/S0273-1223(98)00214-5
- Bae, S. W., S. Y. Han, B. J. Lee, and Y. B. Kwon, 1999. Characteristics of Cement Based Solidification Process for Municipal Solid Wastes Incineration Plant Fly Ash. Journal of Korean Solid Wastes Engineering Society 16(1): 67-72 (in Korean).
- Bansode, R. R., J. N. Losso, W. E. Marshall, R. M. Rao, and R. J. Portier, 2004. Pecan shell-based granular activated carbon for treatment of chemical oxygen demand (COD) in municipal wastewater. Bioresource Technology 94: 129-135. https://doi.org/10.1016/j.biortech.2003.12.009
- Berg, U., T. Neumann, D. Donnert, R. Nuesch, and D. Stuben, 2004. Sediment capping in eutrophic lakes-efficiency of undisturbed calcite barriers to immobilize phosphorus. Applied Geochemistry 19(11): 1759-1771. https://doi.org/10.1016/j.apgeochem.2004.05.004
- Cho, Y. C., and S. W. Chung, 2007. Sediment Release Rate of Nutrients from Namyang reservoir. Journal of Korean Society of Environmental Engineers 29(12): 1345-1352 (in Korean).
- Dawson, R. M., 1998. The tocicology of microcystins. Toxicon 36(7): 953-962. https://doi.org/10.1016/S0041-0101(97)00102-5
- Ghosh, U., R. G. Luthy, G. Cornelissen, D. Werner, C. A. Menzie, 2011. In-situ sorbent amendments: a new direction in contaminated sediment management. Environmental Science and Technology 45: 1163-1168. https://doi.org/10.1021/es102694h
- Goldberg, S., and C. T. Johnson, 2001. Mechanisms of arsenic adsorption on amorphous oxides evaluated using macroscopic measurements, vibrational spectroscopy, and surface complexation modeling. Journal of Colloid and Interface Science 234(1): 204-216. https://doi.org/10.1006/jcis.2000.7295
- Hakanson, L., and M. Jansson, 2002. Principles of lake sedimentology. The Blackburn Press.
- Jacobs, P. A., and U. Forstner, 1999. Concept of subaqueous capping of contaminated sediments with active barrier systems (ABS) using natural and modified zeolites, Water Research 33(9): 2083-2087. https://doi.org/10.1016/S0043-1354(98)00432-1
- Jo, S. W., and S. J. Park, 2014. Applicability assessment of steel slag as reactive capping material for blocking phosphorus release from marine sediment. Journal of the Korean Society of Agricultural Engineers 56(3): 11-17 (in Korean).
-
Kang, K., S. J. Park, W. S. Shin, B. H. Um, and Y. K. Kim, 2012. Removal of synthetic heavy metal (
$Cr^{6+}$ ,$Cu^{2+}$ ,$As^{3+}$ ,$Pb^{2+}$ from water using red mud and lime stone. Journal of Korean Society of Environmental Engineers 34(8): 566-573 (in Korean). https://doi.org/10.4491/KSEE.2012.34.8.566 - Kang, K., Y. K. Kim, S. G. Hong, H. J. Kim, and S. J. Park, 2014. Application of montmorillonite as capping material for blocking of phosphate release from contaminated marine sediment. Journal of Korean Society of Environmental Engineers 36(8): 554-560 (in Korean). https://doi.org/10.4491/KSEE.2014.36.8.554
- Kikegawa, K., 1983. Sand overlying for bottom sediment improvement by sand spreader. Management of bottom sediments containing toxic substances: Proceedings of the 7th U.S/Japan Experts Meeting.
- Kim, D. H., 2002. A study on the measurement of nutrients release from sediment. Journal of the Environmental Sciences 11(12): 1333-1337 (in Korean). https://doi.org/10.5322/JES.2002.11.12.1333
- Kim, G. H., and W. H. Jeong, 2006. Impact of thickness of sand capping on phosphorus release rate from sediment. Korean Journal of Limnology 39(3): 331-339 (in Korean).
- Kim, J. K., 2003. Introduction of water pollution. Donghwa Publishing Co., Seoul, Korea (in Korean).
- Kim, K. R., S. H. Kim, and G. H. Hong, 2012. Remediation technologies for contaminated marine sediments. Journal of Korean Environmental Dredging Society 2(1): 20-25 (in Korean).
- Korea Meteorological Administration, http://www.kma.go.kr. Accessed 4. December. 2015.
- Lee, J. K, 2011. Analysis of fast in-situ treatment technologies for contaminated marine sediment. Rural Resources 53: 34-38. (in Korean).
- Lee, J. K, 2015. Management and control technology of contaminated sediment. Rural Community and Environment 129: 86-99 (in Korean).
- Korea Ministry of Environment, 2012. Environmental quality standard for the sediment of river and lake.
- Korea Ministry of Environment, 2013. Environmental quality standard for the water of river and lake.
- Naslund, J. G. S. Samuelsson, J. S. Gunnarsson, F. J. A. Nascimento, H. C. Nilsson, G. Cornelissen, and M. T. Schaanning, 2012. Ecosystem effects of materials proposed for thin-layer capping of contaminated sediments. Marine Ecology Progress Series 449: 27-39. https://doi.org/10.3354/meps09546
- Park, K. S, 2011. Capping remediation using steel slag for the treatment of contaminated bottom sediment. Rural Resources 53: 22-33 (in Korean).
- Perelo, L. W., 2010. Review: In situ and bioremediation of organic pollutants in aquatic sediments, Journal of Hazardous Materials 177: 81-89. https://doi.org/10.1016/j.jhazmat.2009.12.090
- Persson, P. E., 1982. Muddy odour: a problem associated with extreme eutrophication. Hydrobiologia 86(1): 161-164. https://doi.org/10.1007/BF00005805
- Pouria, S., A. de Andrade, J. Barbosa, R. L. Cavalcanti, V. T. Barreto, C. J. Ward, W. Preiser, G. K. Poon, G. H. Neild, and G. A. Codd, 1998. Fatal microcystin intoxication in haemodialysis unit in Caruaru, Brazil. The Lancet 352(9121): 21-26. https://doi.org/10.1016/S0140-6736(97)12285-1
- Ryoo, K. S., and J. H. Choi, 2012. A comparative study on adsorption characteristics of total nitrogen and phosphorous in water using various adsorbents. Journal of the Korean Chemical Society 56(6): 700-705 (in Korean). https://doi.org/10.5012/jkcs.2012.56.6.700
- Seo, C. H., and H. S. Lee, 2002. Mechanism and effect factors of carbonation in concrete. KCI research committee report in KCI 2002 spring proceedings.
- Shin, W. S., and Y. K. Kim, 2013. Removal characteristics of mixed heavy metals from aqueous solution by recycled aggregate as construction waste. Journal of the Korean Society for Marine Environment and Energy 16(2): 115-120 (in Korean). https://doi.org/10.7846/JKOSMEE.2013.16.2.115
- Shin, W. S., and Y. K. Kim, 2014. Stabilization of mixed heavy metals in contaminated marine sediment using steel slag. Journal of Korean Navigation and Port Research 38(3): 269-275 (in Korean). https://doi.org/10.5394/KINPR.2014.38.3.269
- Shin, W. S., K. R. Na, and Y. K. Kim, 2014. Stabilization of heavy metals in contaminated marine sediment using bentonite. Journal of Korean Navigation and Port Research 38(6): 655-661 (in Korean). https://doi.org/10.5394/KINPR.2014.38.6.655
- U. S. EPA, 1994. Assessment and remediation of contaminated sediments (ARCS) Program Remediation guidance.
- Wauer, G., T. Gonslorczyk, K. Kretschmer, P. Casper, and R. Koschel, 2005. Sediment treatment with a nitrate-storing compound to reduce phosphorus release, Water Research 39(2-3): 494-500. https://doi.org/10.1016/j.watres.2004.10.017
- Woo, J. H, 2011. Treatment problem and remediation technologies of contaminated marine sediment. Rural Resources 53(4): 14-21 (in Korean).
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