과제정보
본 논문은 원주지방환경청의 남·북한강 상류 수계 흙탕물 및 수질오염원인 파악을 위한 정밀조사와 환경부의 재원으로 한국환경산업기술원의 수생태계 건강성 확보 기술개발사업의 지원을 받아 수행된 연구임 (No. 2020003050001).
참고문헌
- Choi, K. S., and J. R. Jang, 2014. Selection of appropriate plant species of VFS (Vegetative Filter Strip) for reducing NPS pollution of uplands. Journal of Korea Water Resources Association 47(10): 973-983 (in Koeran). doi:10.3741/JKWRA.2014.47.10.973.
- Choi, Y. H., C. H. Won, W. J. Park, M. H. Shin, J. Y. Shin, and J. D. Choi, 2012b. Comparison of NPS pollution characteristics between snowmelt and rainfall runoff from a highland agricultural watershed. Journal of Korean Society on Water Environment 28(4): 523-530 (in Korean).
- Choi, Y. H., C. H. Won, W. J. Park, M. H. Shin, J. Y. Shin, S. I. Lee, and J. D. Choi, 2012a. Characteristics of water quality in basin of alpine field during the snowmelt season. Journal of Korean Society on Water Environment 28(3): 453-459 (in Korean).
- Iida, T., A. Kajihara, H. Okubo, and K. Okajima, 2012. Effect of seasonal snow cover on suspended sediment runoff in a mountainous catchment. Journal of Hydrology 428: 116-128. doi:10.1016/j.jhydrol.2012.01.029.
- Joo, J. H., Y. S. Jung, J. E. Yang, Y. S. Ok, S. E. Oh, K. Y. Yoo, and S. C. Yang, 2007. Assessment of pollutant loads from alpine agricultural practices in Nakdong River basin. Korean Journal of Environmental Agriculture 26(3): 233-238. https://doi.org/10.5338/KJEA.2007.26.3.233
- Kim B. S., D. W. Jang, B. H. Seo, and H. S. Kim, 2008a. Simulation of monthly streamflow for the soyang basin using water and snow balance modeling system. Journal of the Korean Wetlands Society 10(1): 1-9 (in Korean).
- Kim, D. G., J. U. Jung, J. H. Park, and C. G. Park, 2007. Long-term runoff simulation in consideration of snow pack and snow melt. Journal of the Korean Society of Water and Wastewater 21(3): 265-272 (in Korean).
- Kim, J. H., K. H. Han, and J. S. Lee, 2008b. Characteristics of agricultural non-point Source pollutants by rainfall events in rural watersheds. Journal of Korean Society on Water Quality 24(1): 69-77 (in Korean).
- Kim, S. B., S. R. Ahn, H. J. Shin, and S. J. Kim, 2014. Assessment of snowmelt impact on Chungju dam watershed inflow using Terra MODIS data and SWAT model. Journal of the Korean Society of Civil Engineers 34(2): 457-467 (in Korean). https://doi.org/10.12652/Ksce.2014.34.2.0457
- Kim, S. S., J. S. Kim, K. Y. Bang, E. M. Kwon, and W. J. Chung, 2002. The estimation of the unit load and characteristics of non-point source discharge according to rainfall in Kyongan watershed. Journal of Korean Society of Environmental Engineers 24(11): 2019-2027.
- Kwon, H. J., J. G. Kim, K. J. Lim, D. J. Kim, and E. M. Hong, 2020. Determination of EMC and MFFn rainfall runoff in Songcheon, Doam Lake Watershed. Journal of the Korean Society of Agricultural Engineers 62(4): 13-22 (in Korean). doi:10.5389/KSAE.2020.62.4.013.
- Lee, J. S., and C. G. Kim, 2019. Performance analysis for reduction facility of nonpoint source pollutant. Journal of Korea Water Resource Association. 52(3): 207-217 (in Korean). doi:10.3741/JKWRA.2019.52.3.207.
- Lee, S. I., J. Y. Shin, M. H. Shin, S. H. Joo, J. Y. Seo, W. J. Park, J. Y. Lee, and J. D. Choi, 2017. Characteristics of non-point pollutant runoff in highland field fields through long-term monitoring. Journal of the Korean Society of Agricultural 59(4): 85-96 (in Korean). doi:10.5389/KSAE.2017.59.4.085.
- MOE, 2014. Doamho non-point source management area monitoring and evaluation project.
- Park, K. H., B. S. Kim, H. J. Yun. K. Y. Ryu, J. C. Yun, J. Y. Choi, K. D. Kim, and Y. I. Jin, 2012. Characteristics of water quality at main streams and Lake Doam in Daegwallyeong area. Korean Journal of Soil Science and Fertilizer 45(6): 882-889 (in Korean). doi:10.7745/KJSSF.2012.45.6.882.
- Research Institute for Gangwon, 2020. Gangwon-do non-point source management area study on improvement of Han River water system method for optimal management.
- Shin, M. H., Y. C. Shin, S. G. Heo, K. J. Lim, and J. D. Choi, 2007. Analysis of Flow-Weighted Mean Concentration (FWMC) characteristics from rural watersheds. Journal of the Korean Society of Agricultural Engineers 49(6): 3-9 (in Korean). https://doi.org/10.5389/KSAE.2007.49.6.003
- Su, J. J., van Bochove, E., Theriault, G., Novotna, B., Khaldoune, J., Denault, J., Zhou, J., Nolin, M., Hu, C., Bernier, M., Benoy, G., Xing, S., and Chow, L., 2011. Effects of snowmelt on phosphorus and sediment losses from agricultural watersheds in eastern Canada. Agricultural Water Management 98(5): 867-876. doi:10.1016/j.agwat.2010.12.013.
- Tanasienko, A. A., O. P. Yakutina, and A. S. Chumbaev, 2011. Effect of snow amount on runoff, soil loss and suspended sediment during periods of snowmelt in southern West Siberia. Catena 87: 45-51. doi:10.1016/j.catena.2011.05.004.
- Wu, Y., W. Ouyang, Z. Hao, B. Yang, and L. Wang, 2018. Snowmelt water drives higher soil erosion than rainfall water in a mid-high latitude upland watershed. Journal of Hydrology 556: 438-448. doi:10.1016/j.jhydrol.2017.11.037.