Browse > Article
http://dx.doi.org/10.3741/JKWRA.2004.37.9.745

Evaluation of the Evapotranspiration Models in the SLURP Hydrological Model  

Kim, Byung-Sik (인하대학교 토목공학과)
Kim, Hung-Soo (인하대학교 토목공학과)
Seoh, Byung-Ha (인하대학교 토목공학과)
Publication Information
Journal of Korea Water Resources Association / v.37, no.9, 2004 , pp. 745-758 More about this Journal
Abstract
Hydrological models simulate the land phase components of the water cycle and provide a mechanism for evaluating the effects of climatic variation and change on water resources. Evapotranspiration(ET) is a critical process within hydrological models. This study evaluates five different methods for estimating ET in the SLURP(Semi-distributed Land Use Runoff Process)model, in the Yongdam basin. The five ET methods were the FAO Penman-Monteith, Morton CRAE (Complementary Relationship Area Evapotranspiration), the Spittlehouse-Black, the Granger, the Linacre model. We evaluated the five ET models, based on the ability of SLURP model to simulate daily streamflow, and How the five ET methods influence the sensitivity of simulated streamflow to changes in key model parameters and validation SLURP independently for each ET methods. The results showed that the Merton CRAE model had more physical significance and gave better agreement simulated stream flow and recorded flows. It noted that the Morton CRAE model might be more appropriate for the simulation of the actual evapotranspiration in SLURP hydrologic model.
Keywords
Climatic variation; Evapotranspiration model; SLURP; Sensitivity analysis;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Palmer, W. C. (1965). 'Meteorologic drought.' Res. Pap. US Weather Bur, Vol. 45, pp.58
2 Saxton, KE. and McGuinness, J. L. (1982). Evaptranspiration ; Hydrologic Modeling of small watersheds
3 Singh, V. P. (1989). Hydrologic system, Vol. II, prentice Hall, Eaglewood Cliffs, New Jersey
4 Sugawara, M. I. (1984). Tank model with snow component, N.R.C. for Disaster prevention
5 Wosten, J. H. M, Lilly, A, Nemes and Le Bas, C.(1998). Using existing soil data to derive hydraulic parameters for simulation models in environmental studies and in land use planning. Report 156, DLO-Staring Centre, Wageningen
6 Martz, L.W. and Garbrecht, J. (1993). 'Automated extraction of drainage network and watershed data from digital elevation models.' Water Resources Bulletin, ASCE. Vol. 29(6), pp. 901-908   DOI
7 Morton, F.L. (1983). 'Operational estimates of area evapotranspiration and their significace to the science and practice of hydrology.' Journal of Hydrology, Vol. 66, pp. 1-76   DOI   ScienceOn
8 Neitsch, S. L., Arnold, J. R.(2001). Soil and Water Assessment tool; Theoretical Documentation Version 2000, USDA ARS, Temple, Texas
9 Oliver, H. R. (1985). 'Availability of evaporation data in space and time for use in water computations.' New Approaches in Water Balance Computation. IAHS publ. Vol. 148, pp. 21-31
10 Leavesley, G.H., Lichty, R.W., Troutman, B.M. and Saindon, L.G. (1983). Precipitation-Runoff Modeling System: User's manual, Water Resources Investigation 88-4238
11 Lemeur, R. and Zhang, Lu. (1990). 'Evaluation of three evapotranspiration models in terms of their applicability for an arid region.' Journal of Hydrology, Vol. 114, pp. 395-411   DOI   ScienceOn
12 Barr, A G., Kite, G.W., Granger, R. and Smith, C.(1997). 'Evaluation three evapotranspiration methods in SLURP macroscale hydrological model.' Hydrological processes, Vol. 11, pp. 1685-1705   DOI   ScienceOn
13 Johnson, M.S., Coon, W.F., Mehta, V.K., Steenhuis, T.S., Brooks, E.S., and Boll, J. (2003). 'Application of two hydrologic models with defferent runoff mechanisms to a hillslope dominated watershed in the northeastern US: a comparison of HSPF and SMR.' Journal of Hydrology, Vol. 284, pp. 57-76   DOI   ScienceOn
14 Kite, G. W. and Spence (1995). 'Land cover, NDVL LAI and evaportranspiration in hydrologic modelling. In: Applications of Remote Sensing in Hydrology.' Proceedings of the Second International Workshop, PP 18-20
15 Kite, G.W. (2000) Using a basin-scale hydrological model to estimate crop transpiration and soil evaporation, Journal of Hydrology, Vol. 229, pp. 59-69   DOI   ScienceOn
16 Krysanova, V., Muller-Wohlfeil, D. I. and Becker, A (1996). 'Integrated modelling of hydrology and water quality in mesoscale watersheds.' Proc. Third Int. Conf. on Intergrating GIS and Environmental Modeling, Santa Fe, New. Mexico, January pp. 21-25
17 한국수자원공사(1999). 확률강수량 산정 및 이용방법의 연구
18 Dyck, A. j. (1983). 'Overview on the present status of the concepts of water balance models.' New Approaches in Water Balance Computation. IAHS Publ. Vol.148, pp. 3-19
19 Garbrecht, J. and Campbell, J. (1997). TOPAZ version 1.20: An automated digital landscape analysis tool for topographic evaluation, drainage identification, watershed segmentation and subcatchment parameterization In: TOPAZ User Manual. Rep.# GRL 97-4. Grazinglands Research Laboratory, USDA, Agricultural Research Service, El Reno, OK
20 김병식, 서병하, 김형수, 김남원 (2003) SLURP 모형을 이용한 하천유출량 모의, 大韓士木學會論文集, 대한토목학회 제 23권 제 4B호. pp. 289-303