References
- Buttle, J.M. 1994. Isotope hydrograph separations and rapid delivery of pre-event water from drainage basins. Progress in Physical Geography 18(1): 16-41 https://doi.org/10.1177/030913339401800102
- Bazemore, D.E., K.N. Eshleman and K.J. Hollenbeck. 1994. The role of soil water in stormflow generation in a forested headwater catchment: synthesis of natural tracer and hydrometric evidence. Journal of Hydrology 162: 47-75 https://doi.org/10.1016/0022-1694(94)90004-3
- Caissie, D., T.L. Pollock and R.A. Cunjak. 1996. Variation in stream water chemistry and hydrograph separation in a small drainage basin. Journal of Hydrology 178: 137-157 https://doi.org/10.1016/0022-1694(95)02806-4
- Christophersen, N., C. Neal., R.P. Hooper., R.D. Vogt and S. Andersen. 1990. Modeling streamwater chemistry as a mixture of soil water end-members-A step towards second generation acidification models. Journal of Hydrology 116: 307-320 https://doi.org/10.1016/0022-1694(90)90130-P
- Elsenbeer, H., D. Lorieri and M. Bonell. 1995. Mixing model approaches to estimate storm flow sources in an overland flow-dominated tropical rain forest catchment. Water Resources Research 31(9): 2267-2278 https://doi.org/10.1029/95WR01651
- Genereux, D.P., H.F. Hemond and P.J. Mulholland. 1993. Use of radon 222 and calcium as tracers in al three-end-member mixing model for streamflow generation on the West Fork of Walker Branch watershed. Journal of Hydrology 142: 167-211 https://doi.org/10.1016/0022-1694(93)90010-7
- Hooper, R.P. 2001. Applying the scientific method to small catchment studies: a review of the Panola Mountain experience. Hydrological Processes 15: 2039-2050 https://doi.org/10.1002/hyp.255
- Hooper, R.P., N. Christophersen and N.E. Peters. 1990. Modeling streamwater chemistry as a mixture of soil water end-members - An application to the Panola Mountain catchment, Georgia, USA. Journal of Hydrology 116: 321-343 https://doi.org/10.1016/0022-1694(90)90131-G
- Inamdar S.P. and M.J. Mitchell. 2007. Contributions of riparian and hillslope waters to storm runoff across multiple catchments and storm events in a glaciated forested watershed. Journal of Hydrology doi: 10.1016/j.jhydrolo.2007.05.007
- Joerin, C., K.J. Beven, I. Iorgulescu and A. Musy. 2002. Uncertainty in hydrograph separations based on geochemical mixing models. Journal of Hydrology 255: 90-106 https://doi.org/10.1016/S0022-1694(01)00509-1
- Kim, K. and Y.H. Jeong. 2002. Hydrograph separations using the two-component mixing model with electrical conductivity as a chemical tracer in the three small forested catchments. Journal of Korean Forestry Society 91.(5): 624-631
- Kim, K., J.Y. Yoo, J.H. Jun, H.T. Choi and Y.H. Jeong. 2006. Hydrograph Separation by using EMMA model for the Coniferous Forest Catchment in Gwangneung Gyeonggido, Republic of Korea (I)-Determination of the End Members and Tracers-Journal of Korean Forestry Society 95(5): 556-561
- Liu, F., M.W. Williams and N. Caine. 2004. Source waters and flow paths in an alpine catchment, Colorado Front Range, United States. Water Resources Research 40(9): W09401, doi:10.1029/2004WR003076. 1-16
- Pinder, G.F. and J.F. Jones. 1969. Determination of the groundwater component of peak discharge from the chemistry of total runoff water. Water Resources Research 5(2): 438-445 https://doi.org/10.1029/WR005i002p00438
- Sueker, J.K., J.N. Ryan, C. Kendall and R.D. Jarrett. 2000. Determination of hydrologic pathways during snowmelt for alpine/subalpine basins, Rocky Mountain National Park, Colorado. Water Resources Research 36(1): 63-75 https://doi.org/10.1029/1999WR900296
- Yoo, J.Y, K. Kim, J.H. Jun, H.T. Choi and Y.H. Jeong. 2006. Searching the natural tracers for separation of runoff components in a small forested catchment. J. Korean Env. Res. & Reveg. Tech. 9(4): 52-59