Analysis of Baseflow Contribution based on Time-scales Using Various Baseflow Separation Methods |
Lee, Seung Chan
(Department of Regional Infrastructures Engineering, Kangwon National University)
Kim, Hui Yeon (Department of Regional Infrastructures Engineering, Kangwon National University) Kim, Hyo Jeong (Department of Regional Infrastructures Engineering, Kangwon National University) Han, Jeong Ho (Department of Regional Infrastructures Engineering, Kangwon National University) Kim, Seong Joon (Department of Civil & Environmental System Engineering, Konkuk University) Kim, Jonggun (Institute of Agriculture and Life Science, Kangwon National University) Lim, Kyoung Jae (Department of Regional Infrastructures Engineering, Kangwon National University) |
1 | Arnold, J. G., P. M. Allen, R. Muttiah, and G. Bernhardt, 1995. Automated baseflow separation and recession analysis techniques. Ground Water 33(6): 1010-1018. DOI |
2 | Bloomfield, J. P., D. J. Allen, and K. J. Griffiths, 2009. Examining geological controls on baseflow index (BFI) using regression analysis: an illustration from the thames basin, UK. Journal of Hydrology 373(1): 164-176 DOI |
3 | Brodie, R. S. and S. Hostetler. 2005. A review of techniques for analysing baseflow from stream hydrographs. In Proceedings of the NZHS-IAH-NZSSS 2005 conference. |
4 | Choi, Y. H., Y. S., Park, J. C. Ryu, D. J. Lee, Y. S. Kim, J. D. Choi, and K. J. Lim, 2014. Analysis of baseflow contribution to streamflow at several flow stations. Journal of Korean Society on Water Environment 30(4): 441-451 (in korean). DOI |
5 | Choi, Y. H., D. Kum, J. Ryu, Y. Jung, Y. S. Kim, J. H. Jeon, K. S. Kim, and K. J. Lim, 2015. A study of total nitrogen pollutant load through baseflow analysis at the watershed, Journal of Korean Society on Water Environment 31(1): 55-66 (in Korean). DOI |
6 | Cho, S. H., 2006. Computation of baseflow contributionto streamflow using environmental tracers in threesmall catchments Yuseong, Daejeon. Ph.D diss., Choongnam National University, Deajeon (in Korean). |
7 | Eckhardt, K., 2005. How to construct recursive digitalfilters for baseflow separation. Hydrological Processes 19(2): 507-515. DOI |
8 | Eckhardt, K., 2008. A comparison of baseflow indices, which were calculated with seven different baseflow separation methods. Journal of Hydrology 352(1): 168-173. DOI |
9 | Han, J. H., K. J. Lim, and Y. H. Jung, 2016. Analysis of relationship between streamflow volatility and basin runoff contribution in the Nakdong river basin. Korean Society of Agricultural Engineers 27-38 (in Korean). |
10 | Hong, J. Y., K. J. Lim, Y. C. Shin, and Y. H. Jung, 2015. Quantifying contribution of direct runoff and baseflow to rivers in Han river system, South Korea. Journal of Korea Water Resources Association 48(4): 309-319 (in Korean). DOI |
11 | Hwang, I. S., 2016. Analysis of correlation between physical properties and consolidation parameter of clay in Han and Geum river basin. Chungbuk University 46-47 (in Korean). |
12 | Jeong, S. Y. and K. C. Dong, 2010. Correlation analysis between groundwater Level and baseflow in the Geum river watershed, calculated using the WHAT SYSTEM. The journal of Engineering Geology 107-116 (in Korean). |
13 | Jeong, J. Y., 2006. Continuous streamflow simulation using baseflow separation and Nash's instantaneous unit hydrograph. MS Thesis, Dankook University, Seoul, Korea (in Korean). |
14 | Kang, D. S., 2011. Study on the change of river discharge and baseflow considering urbanization and climate change. MS Thesis, Kookmin University, Seoul, Korea (in Korean). |
15 | Kim, G. and H. Lee, 2009. Impacts of nitrate in base flow discharge on surface water quality, Journal of the Korean Society of Civil Engineers 29(1B): 105-109 (in Korean). |
16 | Kang, H. S. and S. M. Jun, 2015. Impact analysis of baseflow on river and ecosystem. Journal of Korea Water Resources Association 584-588 (in korean). |
17 | Kang, H. Y., S. H. Lee, J. S. Kim, and Y. I. Mun, 2015. Analysis and typology of hydrological fluctuation tendency of multipurpose dam. Korean Society of Disaster Prevention 15: 123-130 (in Korean). |
18 | Kim, B. S., H. H. Kwon, and H. S. Kim, 2011. Impact assessment of climate change on drought risk. Korean Wetlands Journal, 13(1): 1-11 (in Korean). |
19 | Korea Meteorological Administration (KMA). http://www.kma.go.kr/. Accessed 3 Jan. 2017. |
20 | Lee, J. M., Y. H. Jeong, Y. S. Pack, H. W. Kang, K. J. Lim, and H. S. Kim, 2014. Assessment of future climate change impact on groundwater recharge, baseflow and sediment in steep sloping watershed. Korean Wetlands Journal 16(2): 173-185 (in Korean). |
21 | Lee, S. H., T. J. An, B. M. Yun, and M. P. Shim, 2003. Application of tank model including snow and snowmelt simulations to Soyang river Dam and Chungju Dam. Journal of Korea Water Resources Association 851-861 (in Korean). |
22 | Lim, K. J., B. A. Engel, Z. Tang, J. Choi, K. S. Kim, S. Muthukrishnan, and D. Tripathy, 2005. Automated web GIS based hydrograph analysis tool, WHAT1. Journal of the American Water Resources Association 1407-1416. |
23 | Lyne, V. and M. Hollick, 1979. Stochastic time-variable rainfall runoff modelling. In: Hydrology and Water Resources Symposium, Berth. 1979 Proceedings. National Committee on Hydrology and Water Resourcesof the Institution of Engineers, Australia 89-92. |
24 | Schilling, K. E. and C. F. Wolter, 2001. Contribution of base flow to nonpoint source pollution loads in an agricultural watershed. Ground Water 39(1): 49-58. DOI |
25 | Nam, K. H., G. B. Kim, and G. C. Jeong, 2013. Baseflow comparison using the WHAT system and flow rate measurements in the dry and rainy seasons. The Geological Society of Korea 117-125 (in Korean). |
26 | Rutledge, A. T., 1998. Computer programs for describingthe recession of ground-water discharge and forestimating mean ground-water recharge and discharge from streamflow records: Update. US Department of the Interior, US Geological Survey, USA. |
27 | Sa, G. H., 2010. Proposals for assessment of the degree of topographic change in consideration of regional characteristics. Korea Environment Institute 4-10 (in Korean). |
28 | Seo, J. S., 1975. Geographical study on the seasonal distribution of rainfall in Korea. Ewha University 4-14 (in Korean). |
29 | Shin, M. H., J. A. Lee, S. U. Chen, Y. J. Lee, K. J. Lim, and J. D. Choi, 2010. Analysis of the Characteristics of NPS Runoff and Application of L-THIA model at Upper Daecheong Reservoir. Journal of the Korean Society of Agricultural Engineers 52(1): 1-11 (in Korean). DOI |
30 | Shirmohammadi, A., J. M. Sheridan, and W. G. Knisel, 1987. Regional application of an approximate streamflow partitioning method. Journal of the American Water Resources Association 23: 103-111. DOI |
31 | Sloto, R. A. and M. Y. Crouse, 1996. HYSEP, a computer program for streamflow hydrograph separation and analysis. US Department of the Interior, US Geological Survey. |
32 | Um, M. J., C. S. Jeong, and W. C. Jo, 2009. Analysis of precipitation distribution in Gangwon-do using spatial analysis 1: Classification of precipitation and analysis of Seasonal and annual average precipitation. Korean Society of Disaster Prevention 103-113 (in Korean). |
33 | Willems, P., 2009. A time series tool to support the multi-criteria performance evaluation of rainfall-runoff models. Environmental Modeling & Software 24: 311-321. DOI |