Browse > Article
http://dx.doi.org/10.17663/JWR.2011.13.3.443

Estimation of Flow Loads Characteristics each Sub-watershed for TMDL  

Kim, Joo-Hun (한국건설기술연구원 수자원연구실)
Kim, Kyung-Tak (한국건설기술연구원 수자원연구실)
Lee, Jin-Won (한국건설기술연구원 하천해안항만연구실)
Publication Information
Journal of Wetlands Research / v.13, no.3, 2011 , pp. 443-453 More about this Journal
Abstract
This research aims at suggesting the mitigation measures of decreasing pollution by analyzing land cover characteristics according to subwatershed, and non-pollutant load characteristics occurring in each subwatershed. Mushim-cheon is selected as a research area, and HyGIS-SWAT is used as a water quality model. This research analyzed outflow load characteristics by classifying land cover, which has over 50% classified items, into a city area, a farmland area and a forest area. The result shows that the yearly occurrence load quantity represents a farmland area, a forest area and a city area in order. In subwatershed-2, occurrence load quantity is analyzed by setting up a buffer zone in the center of stream, and by changing a farmland area into a natural grass land. Therefore, a farmland area in a subwatershed changes 36.6% into 27.9% and 15.3% comparing to previous land cover change. In the analysis of sediment loads occurrence quantity and nutritive salt load occurrence quantity in subwatershed-2, sediment loads occurrence quantity decreases 52% to about 47%, and nutritive salt load decreases 49% and 34% in compare with previous change. Hereafter, this research will set up the mitigation measures scenario, and find out which is more effective for the mitigation measures.
Keywords
TMDL; HyGIS-SWAT; Landcover change; Sediment Load; Nutrivite salt Load;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 최윤석, 김경탁, 박정술, 김주훈. 2007. HyGISSWAT2007 개발. 2008대한토목학회 정기학술대회 논문집. 3376-3379쪽.
2 환경부. 2004. 오염총량관리제도 이해
3 Bian Ling, Hao Sun, Clayton Blodgett, Stephen Egbert, WeiPing Li, LiMei Ran and Antonis Koussis. 1996. An integrated interface system ti couple the swat model and Arc/Info. Third International Conference/Workshop on Integrating GIS and Environmental Modeling Santa Fe, New Mexico. Jan. 21-25. pp.1-10.
4 Byars, B.W., R. Srinivasan and J.G. Arnold. 2000. SWAT/GRASS Interface Users Manual pp.5-9.
5 Engel, B.A., R. Sriniivasan, J.G. Arnold, C. Rewerts, and S.J. Brown. 1993. Nonpoint source(NPS) pollution modeling using models integrated with Geographic Information System(GIS). Water Science Technology. 28(3-5):685-690.
6 Luzio, M.Di., R. Srinivasan and J.G. Arnold. 2001. ArcView Interface for SWAT2000 User's Guide. pp.1-334.
7 US EPA, 2005. TMDL Model Evaluation and Research Needs. EPA/600/R-05/149. National Risk Management Research Laboratory. http://www.epa.gov/nrmrl/pubs/600r05149/600r05149.pdf
8 US EPA. 2008. Handbook for Developing Watershed TMDLs
9 Zapata Valenzuela. 2003. Development of an ArcGIS interface and design of a geodatabase for the soil and water assessment tool. Master of Science, Texas A&M University. Houston, Texas, USA. pp.11-13.
10 기초기술연구회. 2010. 위성정보 활용지원 운영(위성영상을 이용한 하천정보 생산 및 활용에 관한 연구)
11 고재영, 장태일, 박승우. 2007. HSPF 모형을 이용한 농촌유역에서의 대장균 모의. 대한토목학회지. 11(4):99-109.
12 김주훈, 오덕근, 김경탁. 2005. 토지이용에 따른 부유토시 유출 평가. 한국습지학회지 7(1):119-128.
13 김철겸, 김남원. 2008. 충주댐 유역의 오염원에 따른 오염부하량 발생 특성. 수질보전 한국물환경학회지, 25(2):256-267.
14 김철겸. 2010. SWAT-K를 이용한 비점오염물질의 수문학적 운송특성 분석. 서울대학교 박사학위논문.