배덕효
이병주
정일원한국수자원학회논문집, 제40권, 제12호, pp. 921-930[2007]
Zhang, H., Huang G.H., Wang, D., and Zhang, X. (2011). “Uncertainty assessment of climate change impacts on the hydrology of small prairie wetlands.” Journal of Hydrology, Vol. 396, pp. 94-103.
Zeng, X., Zhao, M. and Dickinson, R.E. (1998). “Intercomparison of bulk aerodynamic algorithms for the computation of sea surface fluxes using toga coare and tao data”, Journal of Climate, Vol. 11, pp. 2628-2644.
Xu, H., Taylor, R.G., and Xu, Y. (2011). “Quantifying uncertainty in the impacts of climate change on river discharge in sub-catchments of the Yangtze and Yellow river basin, China”, Hydrology and Earth System Sciences, Vol. 15, pp. 333-344.
Wilby, R.L. and Harris, I. (2006). “A framework for assessing uncertainties in climate change impacts: Low-flow scenarios for the River Thames, U.K..” Water Resources Research, Vol. 42, W02419.
Wang, D., Hagen, S.C., and Alizad, K. (2013). “Climate change impact and uncertainty analysis of extreme rainfall events in the Apalachicola river basin, Florida”, Journal of Hydrology, Vol. 480, pp. 125-135.
Thornthwaite, C.W. (1948). “An approach toward a rational classification of climate”, Geographical Review, Vol. 8, pp. 55–94.
Teutschbein, C. and Seibert, J. (2012). “Bias correction of regional climate model simulations for hydrological climate-change impact studies: Review and evaluation of different methods”, Journal of Hydrology, Vol. 456–457, pp. 12–29.
Sunyer, M.A., Madsen, H., and Ang, P.H. (2011). "A comparison of different regional climate models and statistical downscaling methods for extreme rainfall estimation under climate change", Atmospheric Research, Vol. 103, pp. 119-128.
Spittlehouse, D.L. (1989). Estimating evapotranspiration from land surfaces in British Columbia. In: Estimation of Areal Evapotranspiration. IAHS Publication, No. 177, pp. 245-253.
Smedema, L.K., Rycroft, D.W. (1983). Land drainage-planning and desing of agricultural drainage systems, Cornell University press, Ithica, N.Y
Sloan, P.G., Morre, I.D., Coltharp, G.B., Eigel., J.D. (1983). Modeling surface and subsurface stormflow on steeply-sloping forested watersheds, Water Resources Inst. Report 142, Univ. Kentucky, Lexington.
Sloan, P.G. and Moore. I.D., (1984). "Modeling subsurface stormflow on steeply sloping forested watersheds", Water Resources Research, Vol. 20, No. 12, pp. 1815-1822.
Singh, V. and Kluwer (1996). Geographical Information Systems in Hydrology, Kluwer Academic Publishers, pp.175-194.
Shuttleworth, W.J. (1993). Handbook of Hydrology edited by Maidment D.R., McGraw-Hil, New York, pp. 4.1-4.53.
Schneider, C., Laize, C.L.R., Acreman, M.C., and Florke, M. (2013). "How will climate change modify river flow regimes in Europe?", Hydrology and Earth System Science, Vol. 17, pp. 325-339.
Rost, S., Gerten, D., Bondeau, A., Lucht, W., Rohwer, J., and Schaphoff, S. (2008). “Agricultural green and blue water consumption and its influence on the global water system”, Water Resources Research Vol. 44, pp. W09405
Richtie, J.T. (1972). “Model for predicting evaporation from a row crop with incomplete cover”, Water Resources Research, Vol. 8, No. 5, pp. 1204-1213.
Prudhomme, C. and Davies, H. (2009b). “Assessing uncertainties in climate change impact analyses on the river flow regimes in the UK. Part 2: Future climate”, Climatic Change, Vol.93, pp.197-222.
Prudhomme, C. and Davies, H. (2009a). “Assessing uncertainties in climate change impact analyses on the river flow regimes in the UK. Part 1: baseline climate”, Climatic Change, Vol.93, pp.177-195.
Priestley, C.H.B. and Taylor, R.J. (1972). "On the assessment of surface heat flux and evaporation using large-scale parameters.", Mon. Weather. Rev., Vol. 100, pp. 81-92.
Pal, J.S., Small, E.E., and Eltahir, E.A.B. (2000). "Simulation of regional-scale water and energy budgets: representation of subgrid cloud and precipitation processes within RegCM", Journal of Geophysical Research, Vol. 105, pp. 576-594.
Oleson, K.W., G. Y. Niu, Z. L. Yang, D. M. Lawrence, P. E. Thornton, P. J. Lawrence, R. Stockli, R. E. Dickinson, G. B. Bonan, S. Levis, A. Dai, and T. Qian. (2008). “Improvements to the community land model and their impact on the hydrological cycle”, Journal of Geophysical Research: Biogeosciences, Vol. 113, No. G1, DOI: 10.1029/2007JG000563
Nohara, D., Kitoh, A., Hosaka, M., and Oki, T. (2006). “Impact of climate change on river discharge projected by multimodel ensemble." Journal of Hydrometeorology, Vol. 7, pp. 1076-1089.
Narsimlu, B., Gosain, A.K., and Gchahar, B.R. (2013). “Assessment of future climate change impacts on water resources of upper Sind river basins, India using SWAT model." Water Resources Management, Vol. 27, pp. 3647-3662.
Najafi, M.R. Moradkhani, H., Jung, I.W. (2011). “Assessing the uncertainties of hydrologic model selection in climate change impact studies”, Hydrologic Processes, Vol. 25, No. 18, pp. 2814-2826.
Montheith, J.L., and Unsworth, M.H. (1990). Principles of Environmental Physics, Chapman and Hall, New York, pp. 291.
Monteith, J.L. (1965). Evaporation and the environment p.p. 205-234. In The state and movement of water in living organisms, XIXth Symposium. Soc. for Exp. Biol., Swansea, Cambridge University Press.
Milly P.C.D, Dunne K.A, Vecchia A.V (2005). “Global pattern of trends in streamflow and water availability in changing climate”, Nature, Vol. 438, No. 17, pp. 347-350.
Maurer, E. P. (2007). "Uncertainty in hydrologic impacts of climate change in the Sierra Nevada, California, under two emission scenario", Climatic Change, Vol. 82, pp. 309-325.
Martin, G.M., M.A. Ringer, V.D. Pope, A. Jones, C. Dearden, and T.J. Hinton (2006). "The physical properties of the atmosphere in the new Hadley Centre Global Environmental Model (HadGEM1). Part I: Model description and global climatology." Journal of Climate, Vol. 19, pp. 1274-1301.
Louis, J. (1979). “A parametric model of vertical eddy fluxes in th atmosphere”, Boudary Layer Meteorology, Vol. 17, pp. 187-202.
Liu, L., Liu, Z., Ren, X., Fischer, T., Xu, Y. (2011). “Hydrological impacts of climate change in the Yellow river basin, for the 21st century using hydrological model and statistical downscaling model”, Quaternary International, Vol. 244, pp. 211-220.
Liang, X., Wood, E.F. and Lettenmaier, D.P. (1996). “Surface soil moisture parameterization of the VIC-2L model: Evaluation and modifications”, Global and Planetary Change, Vol. 13, pp. 195-206.
Liang, X., Lettenmainer, D.P., Wood, E.F. and Burges, S.J. (1994). “A simple hydrologically based model of land surface water and energy fluxes for General Circulation Models”, Journal of Geophysical Research, Vol. 99, pp. 14415-14428.
Lee, M.H., and Bae, D.H. (2015). “Climate change impact assessment on green and blue water over Asian monsoon region, Water Resources Management, Vol. 29, pp. 2407-2427.
Lee, D.K., and Suh, M.S. (2000). “Ten-year east Asian summer monsoon simulation using a regional climate model (RegCM2).” Journal of Geophysical Research, Vol. 105, pp. 29565-29577.
Lee, D.K., Cha, D.H. and Kang, H.S. (2004). “Regional climate simulation for the 1998 summer flood over East Asia”, Journal of the Meteorological Society of Japan, Vol. 82, pp. 1735-1753.
Krichak, S.O. (2008). “Regional climate model simulation of present-day regional climate over the european part of Russia with RegCM3”, Russian Meteorology and Hydrology, Vol. 22, pp. 20-26.
Kiehl, J.T., Hack, J.J., Bonan, G.B., Boville, B.A. Briegleb, B.P. Williamson, D.L. and Rasch, P.J. (1996). Description of NCAR Community Climate Model(CCM3). NCAR Technical Note NCAR/TN-420+STR, pp. 152.
Kay, A.L., Davies, H.N., Bell, V.A., and Jones, R.G. (2009). “Comparison of uncertainty sources for climate change impacts: flood frequency in England”, Climatic Change, Vol. 92, pp. 41-63.
Kang, H.S., Cha, D.H. and Lee, D.K. (2005). “Evaluation of the mesoscale model/land surface model(MM5=LSM) coupled model for East Asian summer monsoon simulations”, Journal of Geophysical Research, Vol. 110, D10105;DOI:10.1029=2004JD005266.
Jung, I.W., Bae, D.H., Lee, B.J. (2013). “Possible change in Korean streamflow seasonality based on multi-model climate projections”, Hydrological Processes, Vol.27, No.7, pp.1033-1045.
Jung, I.W, Bae, D.H. Kim, G. (2011). “Recent trends of mean and extreme precipitation in Korea”, International Journal of Climatology, Vol.31, No.3, pp.359-370.
Juang, H.M.H., and Hong, S.Y. (2001). “Sensitivity of the NCEP regional spectral model on domain size and nesting strategy”, Monthly Weather Review, Vol. 129, pp. 2904-2922.
Juang, H.M.H., Hong, S.Y. and Kanamitsu, M. (1997). “The NCEP Regional Spectral Model: An update”, Bulletin of the American Meteorological Society, Vol. 78, pp. 2125-2143.
Im, E.S., and Kwon, W.T. (2007). “Characteristics of extreme climate sequences over Korea using a regional climate change scenario.” Scientific Online Letters on the Atmosphere, Vol. 3, pp. 17-20.
IPCC (2013). Climate change 2013: The Physical Scientific basis, IPCC Contribution of Working Group Ⅰ to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change, Cambrige University Press, Cambridge.
IPCC (2001). Climate change 2001: The Scientific basis, IPCC Contribution of Working Group Ⅰ to the Third Assessment Report of the Intergovernmental Panel on Climate Change, Cambrige University Press, Cambridge.
Hong, S. Y., Noh, Y. and Dudhia, J. (2006). “A new vertical diffusion package with an explicit treatment of entrainment processes”, Monthly Weather. Review, Vol. 134, pp.2318-2341.
Hong, S. Y., Dudhia, J. and Chen, S. H. (2004). “A revised approach to ice microphysical processes for the bulk parameterization of cloud and precipitation”, Monthly Weather Review, Vol.132, pp.103-120.
Holtslag, A.A.M., de Brujin, E.I.F., Pan, H.L. (1990). "A high resolution air mass transformation model for short-range weather forecasting", Monthly Weather Review, Vol.118, pp.1561-1575.
Heokstra A.Y., and Hung P.Q. (2002). A quantification of virtual water flows between nations in relation to international crop trade, IHE DELFT, Research Report Series No. 11.
Hargreaves, G.L., Hargreaves, G.H., Riley, and J.P. (1985). "Agricultural benefits for Senegal River Basin", Journal of Irrigation and Drainage Engineering, Vol. 111, No. 2, pp. 113-124.
Hamon, W.R. (1961). “Estimating potential evapotranspiration”, Journal of the Hydraulic Division, Vol. 87, No. HY3, pp. 107-120.
Grell, G.A., Dudhia, J. and Stauffer, D.R. (1994). “Description of the fifth generation Penn - 90 - State/NCAR Mesoscale Model (MM5)”, Tech. Rep. TN-398+STR, NCAR, Boulder, Colorado, p. 121.
Granger, R.J. (1991). Evaporation from natural nonsaturated surfaces. Ph.D. Thesis, Department of Agricultural Engineering, University of Saskatchewan, Saskatoon, p. 140.
Giorgi, F., Marinucci, M.R., and Bates G.T. (1993a). “Development of a second generation regional climate model (RegCM2). Part Ⅰ. Boundary-layer and radiative transfer processes”, Monthly Weather Review, Vol. 121, pp. 2794-2813.
Giorgi, F., Marinucci, M.R., Bates, G.T., De Canio G. (1993b). "Development of a second generation regional climate model (RegCM2). Part Ⅱ. Convective processes and assimilation of lateral boundary conditions", Monthly Weather Review, Vol. 121, pp. 2814-2832.
Giorgi, F. (1990). “Simulation of regional climate using a limited area model nested in a general circulation model”. Journal of Climate, Vol. 3, pp. 941-963.
Francini, M., and Paciani, M. (1991). “Comparative analysis of several conceptual rainfal-runof models”, Journal of Hydrology, Vol.12, pp.161-219.
Fowler, H.J., and Kilsby, C.G. (2007). “Using regional climate model data to simulate historical and future river flows in northwest England”, Climatic Change, Vol. 80, pp. 337-367.
Fisher, R.A. (1925). “Statistical methods for research workers”, Classics in the history of phychology.
Faramarzi M., Abbaspour K.C., Schulin R., and Yang H. (2009). “Modelling blue and green water resources availability in Iran.” Hydrological Processes Vol. 23 pp. 486-501.
Elguindi, N., Bi, X., Giorgi, F., Nagarajan, B., Pal, J., Solmon, F., Rauscher, S., and Zakey, A. (2010). “RegCM Version 4.0 User's Guide”, Trieste, Italy, p. 24.
Ducoudre, N.I., Laval, K., and Perier, A. (1993). “A new set of parameterizations of the hydrologic exchanges at the land-atmosphere interface within the LMD atmospheric general circulation model”, Journal of Climatology, Vol.6, pp.248-273.
Dickinson, R.E., Henderson-Sellers A. and Kennedy, P.J. (1993). “ Biosphere-atmosphere transfer scheme(BATS) version 1e as coupled to the ncar community climate model.” NCAR/TN-387+STR, p. 72.
Dickinson, R.E. (1984). “Modeling evaportanspiration for thre-dimensional global climate models”, Climate processes and Climate Sensitivity, Vol.29, AGU, Washington, D.C., pp. 58-72.
Davies, D., Cullen, M.J.P., Malcom, A.J., Mawson, M.H., Staniforth, A., White, A.A., Wood, N. (2005) “A new dynamical core for the Met Office’s global and regional modelling of the atmosphere”, Quarterly Journal of the Royal Meteorological Society, Vol. 131, pp. 1759-1782.
Choi, S.J. (2010). “Effects of the spectral nudging on seasonal tropical cyclone simulation over the western North Pacific”. Ph.D. thesis, Seoul National University, Seoul, South Korea.
Chiew, F.H.S., Kirono, D.G.C., Kent, D.M., Frost, A.J., Charles, S.P., Timbal, B., Nguyen, K.C., and Fu, G. (2010). "Comparison of runoff modelled using rainfall from different downscaling methods for historical and future climates", Journal of Hydrology, Vol. 387, pp. 10-23.
Chen, J., Brissette, F.P., and Leconte, R. (2011). "Uncertainty of dowscaling method in quantifying the impact of climate change on hydrology", Journal of Hydrology, Vol.401, pp.190-202.
Cha, D.H., Lee, D.K. and Hong, S.Y. (2008). “Impact of boundary layer processes on seasonal simulation of the East Asian summer monsoon using a regional climate model”, Meteorology and Atmospheric Physics, Vol. 100, pp. 53-72.
Bosshard, T., Carambia, M., Goergen, K., Kotlarski, S., Krahe, P., Zappa, M., and Schar, C. (2013). “Quantifying uncertainty sources in an ensemble of hydrological climate-impact projections”, Water Resources Research, Vol. 49, pp. 1523-1536.
Blondin, C. (1991). “Parameterization of land-surface proceses in numerical weather prediction”, Land Surface Evaporation: Measurements and Parameterization, pp. 31-54.
Bae, D.H., Jung, I.W., and Chang, H. (2008b). “Potential changes in Korean water resources estimated by high-resolution climate simulation." Climate Research, Vol. 35, pp.213-226.
Bae, D.H., Jung, I.W., and Chang, H. (2008a). “Long-term trend of precipitation and runoff in Korean river basins." Hydrological Processes, Vol. 22, pp. 2644-2656.
Bae D.H., Jung I.W., and Lettenmaier D.P. (2011). “Hydrologic uncertainties in climate change from IPCC AR4 GCM simulations of the Chungju basin, Korea.” Journal of Hydrology, Vol. 401, pp. 90-105.
Allen, R.G., Jensen, M.E., Wright, J.L., and Burman, R.D. (1989). "Operational estimates of evapotranspiration.", Agronomy Journal, Vol. 81, pp. 650-662.
Allen, R.G. (1986). “A Penman for all seasons”, Journal of Irrigation and Drainage Engineering, Vol. 112 No. 4, pp. 348-368.
Ahn, Y.I., and Lee, D.K. (2002). “Impact of bogus tropical cyclones on summertime circulation in regional climate simulation”, Journal of Geophysical Research, Vol. 107, pp. 4303, doi:10.1029/2001JD000416.
'
기후변화에 따른 물가용성의 불확실성 평가기법 개발 및 적용 = Development and Application of Climate Change Uncertainty Assessment Method on Water Availability'
의 유사주제(
) 논문