TOPMODEL-Publications

From CSDMS
References TOPMODEL

Publication(s)YearTypeCited
Beven, Keith; 1997. TOPMODEL: A critique. Hydrological Processes, 11, 1069–1085. 10.1002/(SICI)1099-1085(199707)11:93.0.CO;2-O
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1997Model overview 564
Ambroise, Bruno; Beven, Keith; Freer, Jim; 1996. Toward a Generalization of the TOPMODEL Concepts: Topographic Indices of Hydrological Similarity. Water Resources Research, 32, 2135–2145. 10.1029/95WR03716
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1996Model overview 315
Beven, Keith; Freer, Jim; 2001. A dynamic TOPMODEL. Hydrological Processes, 15, 1993–2011. 10.1002/hyp.252
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2001Model overview 329
Holko, L; Lepistö, A; 1997. Modelling the hydrological behaviour of a mountain catchment using TOPMODEL. Journal of Hydrology, 196, 361–377. 10.1016/S0022-1694(96)03237-4
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1997Model application 48
Walter, M. Todd; Steenhuis, Tammo S.; Mehta, Vishal K.; Thongs, Dominique; Zion, Mark; Schneiderman, Elliot; 2002. Refined conceptualization of TOPMODEL for shallow subsurface flows. Hydrological Processes, 16, 2041–2046. 10.1002/hyp.5030
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2002Model overview 85
Saulnier, Georges-Marie; Beven, Keith; Obled, Charles; 1997. Including spatially variable effective soil depths in TOPMODEL. Journal of Hydrology, 202, 158–172. 10.1016/S0022-1694(97)00059-0
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1997Model overview 146
Brasington, James; Richards, Keith; 1998. Interactions between model predictions, parameters and DTM scales for topmodel. Computers & Geosciences, 24, 299–314. 10.1016/S0098-3004(97)00081-2
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1998Model application 116
Moličová, Helena; Grimaldi, Michel; Bonell, Mike; Hubert, Pierre; 1997. Using TOPMODEL towards identifying and modelling the hydrological patterns within a headwater, humid, tropical catchment. Hydrological Processes, 11, 1169–1196. <1169::AID-HYP551>3.0.CO;2-W 10.1002/(SICI)1099-1085(199707)11:9<1169::AID-HYP551>3.0.CO;2-W
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1997Model application 62
Neto, Sílvio Luís Rafaeli; Sá, Eder Alexandre Schatz; Debastiani, Aline Bernarda; Padilha, Víctor Luís; Antunes, Thiago Alves; 2019. Efficacy of Rainfall-Runoff Models in Loose Coupling Spacial Decision Support Systems Modelbase. Water Resources Management, 33, 889–904. 10.1007/s11269-018-2086-2
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2019

Model application

6
Mackay, D. Scott; Band, Lawrence E.; 1997. Forest ecosystem processes at the watershed scale: dynamic coupling of distributed hydrology and canopy growth. Hydrological Processes, 11, 1197–1217. <1197::AID-HYP552>3.0.CO;2-W 10.1002/(SICI)1099-1085(199707)11:9<1197::AID-HYP552>3.0.CO;2-W
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1997

Model application

84
Wolock, D.M.; 1993. Simulating the variable-source-area concept of streamflow generation with the watershed model TOPMODEL. Water-Resources Investigations Report.
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1993

Model overview

108
Ishigooka, Yasushi; Kuwagata, Tsuneo; Goto, Shinkichi; Toritani, Hitoshi; Hasegawa, Toshihiro; Sawano, Shinji; Ohno, Hiroyuki; 2009. Estimation of saturated area in Northeast Thailand using large-scale water balance model. , , .
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2009Model application 4
Gil Morales, Eydith Girleza; Tobón Marín, Conrado; 2016. Hydrological modelling with TOPMODEL of Chingaza páramo, Colombia. Revista Facultad Nacional de Agronomía Medellín, 69, 7919–7933. 10.15446/rfna.v69n2.59137
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2016Model application 5
Niu, Guo-Yue; Yang, Zong-Liang; Dickinson, Robert E.; Gulden, Lindsey E.; 2005. A simple TOPMODEL-based runoff parameterization (SIMTOP) for use in global climate models. Journal of Geophysical Research, 110, D21106. 10.1029/2005JD006111
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2005Model application 348
Quinn, P. F.; Beven, K. J.; Lamb, R.; 1995. The in(a/tan/β) index: How to calculate it and how to use it within the topmodel framework. Hydrological Processes, 9, 161–182. 10.1002/hyp.3360090204
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1995Model application 535
Houser, Paul R.; Shuttleworth, W. James; Famiglietti, James S.; Gupta, Hoshin V.; Syed, Kamran H.; Goodrich, David C.; 1998. Integration of soil moisture remote sensing and hydrologic modeling using data assimilation. Water Resources Research, 34, 3405–3420. 10.1029/1998WR900001
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1998Model application 475
Takata, Kumiko; Emori, Seita; Watanabe, Tsutomu; 2003. Development of the minimal advanced treatments of surface interaction and runoff. Global and Planetary Change, 38, 209–222. 10.1016/S0921-8181(03)00030-4
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2003Model application 377
Wood, Eric F.; Sivapalan, M.; Beven, Keith; Band, Larry; 1988. Effects of spatial variability and scale with implications to hydrologic modeling. Journal of Hydrology, 102, 29–47. 10.1016/0022-1694(88)90090-X
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1988Model application 699
Desbarats, A.J.; Logan, C.E.; Hinton, M.J.; Sharpe, D.R.; 2002. On the kriging of water table elevations using collateral information from a digital elevation model. Journal of Hydrology, 255, 25–38. 10.1016/S0022-1694(01)00504-2
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2002Model application 183
Westerberg, I. K.; Guerrero, J.-L.; Younger, P. M.; Beven, K. J.; Seibert, J.; Halldin, S.; Freer, J. E.; Xu, C.-Y.; 2011. Calibration of hydrological models using flow-duration curves. Hydrology and Earth System Sciences, 15, 2205–2227. 10.5194/hess-15-2205-2011
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2011Model application 205
Wolock, David M.; McCabe, Gregory J.; 1995. Comparison of Single and Multiple Flow Direction Algorithms for Computing Topographic Parameters in TOPMODEL. Water Resources Research, 31, 1315–1324. 10.1029/95WR00471
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1995Model application 333
Wolock, David M.; Price, Curtis V.; 1994. Effects of digital elevation model map scale and data resolution on a topography-based watershed model. Water Resources Research, 30, 3041–3052. 10.1029/94WR01971
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1994Model application 404
Lyon, Steve W.; Walter, M. Todd; Gérard-Marchant, Pierre; Steenhuis, Tammo S.; 2004. Using a topographic index to distribute variable source area runoff predicted with the SCS curve-number equation: VARIABLE SOURCE AREA RUNOFF. Hydrological Processes, 18, 2757–2771. 10.1002/hyp.1494
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2004Model application 169
Franks, Stewart W.; Gineste, Philippe; Beven, Keith J.; Merot, Philippe; 1998. On constraining the predictions of a distributed model: The incorporation of fuzzy estimates of saturated areas into the calibration process. Water Resources Research, 34, 787–797. 10.1029/97WR03041
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1998Model application 233
Wise, Stephen; 2000. Assessing the quality for hydrological applications of digital elevation models derived from contours. Hydrological Processes, 14, 1909–1929. 10.1002/1099-1085(20000815/30)14:11/123.0.CO;2-6
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2000Model application 249
Liu, Yanli; Freer, Jim; Beven, Keith; Matgen, Patrick; 2009. Towards a limits of acceptability approach to the calibration of hydrological models: Extending observation error. Journal of Hydrology, 367, 93–103. 10.1016/j.jhydrol.2009.01.016
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2009Model application 163
Andréassian, Vazken; Perrin, Charles; Michel, Claude; Usart-Sanchez, Iolanda; Lavabre, Jacques; 2001. Impact of imperfect rainfall knowledge on the efficiency and the parameters of watershed models. Journal of Hydrology, 250, 206–223. 10.1016/S0022-1694(01)00437-1
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2001Model application 282
Choi, Hyung Tae; Beven, Keith; 2007. Multi-period and multi-criteria model conditioning to reduce prediction uncertainty in an application of TOPMODEL within the GLUE framework. Journal of Hydrology, 332, 316–336. 10.1016/j.jhydrol.2006.07.012
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2007Model application 163
De Oliveira Nascimento, Nilo; Yang, Xiaoliu; Makhlouf, Zoubir; Michel, Claude; 1999. GR3J: a daily watershed model with three free parameters. Hydrological Sciences Journal, 44, 263–277. 10.1080/02626669909492221
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1999Model application 216
Ludwig, Ralf; Schneider, Philipp; 2006. Validation of digital elevation models from SRTM X-SAR for applications in hydrologic modeling. ISPRS Journal of Photogrammetry and Remote Sensing, 60, 339–358. 10.1016/j.isprsjprs.2006.05.003
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2006Model application 128
Franchini, Marco; Wendling, Jacques; Obled, Charles; Todini, Ezio; 1996. Physical interpretation and sensitivity analysis of the TOPMODEL. Journal of Hydrology, 175, 293–338. 10.1016/S0022-1694(96)80015-1
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1996Model application 225
Stieglitz, Marc; Shaman, Jeff; McNamara, James; Engel, Victor; Shanley, Jamie; Kling, George W.; 2003. An approach to understanding hydrologic connectivity on the hillslope and the implications for nutrient transport. Global Biogeochemical Cycles, 17, n/a–n/a. 10.1029/2003GB002041
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2003Model application 251
Lane, S. N.; Brookes, C. J.; Kirkby, M. J.; Holden, J.; 2004. A network-index-based version of TOPMODEL for use with high-resolution digital topographic data. Hydrological Processes, 18, 191–201. 10.1002/hyp.5208
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2004Model application 173
Takeuchi, Kuniyoshi; Ao, Tianqi; Ishidaira, Hiroshi; 1999. Introduction of block-wise use of TOPMODEL and Muskingum-Cunge method for the hydroenvironmental simulation of a large ungauged basin. Hydrological Sciences Journal, 44, 633–646. 10.1080/02626669909492258
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1999Model application 128
Peters-Lidard, C. D.; Zion, M. S.; Wood, E. F.; 1997. A soil-vegetation-atmosphere transfer scheme for modeling spatially variable water and energy balance processes. Journal of Geophysical Research: Atmospheres, 102, 4303–4324. 10.1029/96JD02948
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1997Model application 159
Devia, Gayathri K.; Ganasri, B.P.; Dwarakish, G.S.; 2015. A Review on Hydrological Models. Aquatic Procedia, 4, 1001–1007. 10.1016/j.aqpro.2015.02.126
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2015

Model application

362
Li, Hongyi; Huang, Maoyi; Wigmosta, Mark S.; Ke, Yinghai; Coleman, André M.; Leung, L. Ruby; Wang, Aihui; Ricciuto, Daniel M.; 2011. Evaluating runoff simulations from the Community Land Model 4.0 using observations from flux towers and a mountainous watershed: EVALUATING RUNOFF SIMULATIONS FROM CLM4. Journal of Geophysical Research: Atmospheres, 116, n/a–n/a. 10.1029/2011JD016276
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2011

Model application

90
Dai, Yongjiu; Zeng, Xubin; Dickinson, Robert E.; Baker, Ian; Bonan, Gordon B.; Bosilovich, Michael G.; Denning, A. Scott; Dirmeyer, Paul A.; Houser, Paul R.; Niu, Guoyue; Oleson, Keith W.; Schlosser, C. Adam; Yang, Zong-Liang; 2003. The Common Land Model. Bulletin of the American Meteorological Society, 84, 1013–1024. 10.1175/BAMS-84-8-1013
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2003Model application 1002
Bohn, T J; Lettenmaier, D P; Sathulur, K; Bowling, L C; Podest, E; McDonald, K C; Friborg, T; 2007. Methane emissions from western Siberian wetlands: heterogeneity and sensitivity to climate change. Environmental Research Letters, 2, 045015. 10.1088/1748-9326/2/4/045015
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2007

Model application

129
Warrach, Kirsten; Stieglitz, Marc; Mengelkamp, Heinz-Theo; Raschke, Ehrhard; 2002. Advantages of a Topographically Controlled Runoff Simulation in a Soil–Vegetation–Atmosphere Transfer Model. Journal of Hydrometeorology, 3, 131–148. 10.1175/1525-7541(2002)0032.0.CO;2
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2002

Model application

59
Lu, Xiaoliang; Zhuang, Qianlai; 2012. Modeling methane emissions from the Alaskan Yukon River basin, 1986-2005, by coupling a large-scale hydrological model and a process-based methane model: CH 4 EMISSIONS IN THE YUKON RIVER BASIN. Journal of Geophysical Research: Biogeosciences, 117, n/a–n/a. 10.1029/2011JG001843
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2012Model application 23
Lei, H.; Huang, M.; Leung, L.R.; Yang, D.; Shi, X.; Mao, J.; Hayes, D.J.; Schwalm, C.R.; Wei, Y.; Liu, S. 2014. Sensitivity of global terrestrial gross primary production to hydrologic states simulated by the Community Land Model using two runoff parameterizations. Journal of Advances in Modeling Earth Systems, 6, 658–679. 10.1002/2013MS000252
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2014

Model application

42
Hu, Caihong; Guo, Shenglian; Xiong, Lihua; Peng, Dingzhi; 2005. A modified Xinanjiang model and its application in northern China. Hydrology Research, 36, 175–192. 10.2166/nh.2005.0013
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2005Model application 45
Feng, Dongmei; Beighley, Edward; 2020. Identifying uncertainties in hydrologic fluxes and seasonality from hydrologic model components for climate change impact assessments. Hydrology and Earth System Sciences, 24, 2253–2267. 10.5194/hess-24-2253-2020
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2020Model application 9
Bartlett, M. S.; Parolari, A. J.; McDonnell, J. J.; Porporato, A.; 2017. Reply to comment by Fred L. Ogden et al. on “Beyond the SCS-CN method: A theoretical framework for spatially lumped rainfall-runoff response”: REPLY TO COMMENT BY OGDEN ET AL.. Water Resources Research, 53, 6351–6354. 10.1002/2017WR020456
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2017Model application 6
Oleson, K. W.; Niu, G.-Y.; Yang, Z.-L.; Lawrence, D. M.; Thornton, P. E.; Lawrence, P. J.; Stöckli, R.; Dickinson, R. E.; Bonan, G. B.; Levis, S.; Dai, A.; Qian, T.; 2008. Improvements to the Community Land Model and their impact on the hydrological cycle: COMMUNITY LAND MODEL HYDROLOGY. Journal of Geophysical Research: Biogeosciences, 113, n/a–n/a. 10.1029/2007JG000563
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2008Model application 687
Feng, D.; Beighley, E.; 2019. Identifying uncertainties in simulated streamflow from hydrologic model components for climate change impact assessments. .
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2019

Model application

0
Sivapalan, M.; Woods, R.A.; Kalma, J.D. 1997. Variable bucket representation of TOPMODEL and investigation of the effects of rainfall heterogeneity. Hydrological Processes, 11, 1307–1330. 10.1002/(SICI)1099-1085(199707)11:93.0.CO;2-Y
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1997

Model application

35
Quinn, P.; Beven, K.; Chevallier, P.; Planchon, O.; 1991. The prediction of hillslope flow paths for distributed hydrological modelling using digital terrain models. Hydrological Processes, 5, 59–79. 10.1002/hyp.3360050106
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1991Model application 1426
Bonan, Gordon B.; Oleson, Keith W.; Vertenstein, Mariana; Levis, Samuel; Zeng, Xubin; Dai, Yongjiu; Dickinson, Robert E.; Yang, Zong-Liang; 2002. The Land Surface Climatology of the Community Land Model Coupled to the NCAR Community Climate Model. Journal of Climate, 15, 3123–3149. 10.1175/1520-0442(2002)0152.0.CO;2
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2002Model application 649
Zhang, Weihua; Montgomery, David R.; 1994. Digital elevation model grid size, landscape representation, and hydrologic simulations. Water Resources Research, 30, 1019–1028. 10.1029/93WR03553
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1994Model application 804
Freer, Jim; Beven, Keith; Ambroise, Bruno; 1996. Bayesian Estimation of Uncertainty in Runoff Prediction and the Value of Data: An Application of the GLUE Approach. Water Resources Research, 32, 2161–2173. 10.1029/95WR03723
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1996Model application 794
Walko, Robert L.; Band, Larry E.; Baron, Jill; Kittel, Timothy G. F.; Lammers, Richard; Lee, Tsengdar J.; Ojima, Dennis; Pielke, Roger A.; Taylor, Chris; Tague, Christina; Tremback, Craig J.; Vidale, Pier Luigi; 2000. Coupled Atmosphere–Biophysics–Hydrology Models for Environmental Modeling. Journal of Applied Meteorology, 39, 931–944. 10.1175/1520-0450(2000)0392.0.CO;2
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2000Model application 580
Crow, Wade T; Wood, Eric F; 2003. The assimilation of remotely sensed soil brightness temperature imagery into a land surface model using Ensemble Kalman filtering: a case study based on ESTAR measurements during SGP97. Advances in Water Resources, 26, 137–149. 10.1016/S0309-1708(02)00088-X
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2003Model application 362
Niu, Guo-Yue; Yang, Zong-Liang; 2006. Effects of Frozen Soil on Snowmelt Runoff and Soil Water Storage at a Continental Scale. Journal of Hydrometeorology, 7, 937–952. 10.1175/JHM538.1
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2006Model application 325
Casadei, M.; Dietrich, W. E.; Miller, N. L.; 2003. Testing a model for predicting the timing and location of shallow landslide initiation in soil-mantled landscapes. Earth Surface Processes and Landforms, 28, 925–950. 10.1002/esp.470
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2003Model application 234
Stieglitz, M.; Rind,D.; Famiglietti, J.;Rosenzweig, C.; 1997. An Efficient Approach to Modeling the Topographic Control of Surface Hydrology for Regional and Global Climate Modeling. Journal of Climate, , . <0118:AEATMT>2.0.CO;2 10.1175/1520-0442(1997)010<0118:AEATMT>2.0.CO;2
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1997

Model application

219
Beven, K.J.; Kirkby, M.J.; Schofield, N.; Tagg, A.F.; 1984. Testing a physically-based flood forecasting model (TOPMODEL) for three U.K. catchments. Journal of Hydrology, 69, 119–143. 10.1016/0022-1694(84)90159-8
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1984Model application 465
Cameron, David; 2006. An application of the UKCIP02 climate change scenarios to flood estimation by continuous simulation for a gauged catchment in the northeast of Scotland, UK (with uncertainty). Journal of Hydrology, 328, 212–226. 10.1016/j.jhydrol.2005.12.024
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2006Model application 89
Cameron, D.S; Beven, K.J; Tawn, J; Blazkova, S; Naden, P; 1999. Flood frequency estimation by continuous simulation for a gauged upland catchment (with uncertainty). Journal of Hydrology, 219, 169–187. 10.1016/S0022-1694(99)00057-8
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1999Model application 209
Freer, J.E.; McMillan, H.; McDonnell, J.J.; Beven, K.J.; 2004. Constraining dynamic TOPMODEL responses for imprecise water table information using fuzzy rule based performance measures. Journal of Hydrology, 291, 254–277. 10.1016/j.jhydrol.2003.12.037
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2004Model application 127
Kleinen, T.; Brovkin, V.; Schuldt, R. J.; 2012. A dynamic model of wetland extent and peat accumulation: results for the Holocene. Biogeosciences, 9, 235–248. 10.5194/bg-9-235-2012
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2012Model application 138
Pauwels, Valentijn R. N.; Verhoest, Niko E. C.; De Lannoy, Gabriëlle J. M.; Guissard, Vincent; Lucau, Cozmin; Defourny, Pierre; 2007. Optimization of a coupled hydrology-crop growth model through the assimilation of observed soil moisture and leaf area index values using an ensemble Kalman filter: ASSIMILATION OF LAI AND SOIL MOISTURE. Water Resources Research, 43, . 10.1029/2006WR004942
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2007

Model application

136
Obled, Ch.; Wendling, J.; Beven, K.; 1994. The sensitivity of hydrological models to spatial rainfall patterns: an evaluation using observed data. Journal of Hydrology, 159, 305–333. 10.1016/0022-1694(94)90263-1
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1994Model application 277
McDonnell, Jeffrey J.; 2013. Are all runoff processes the same?: INVITED COMMENTARY. Hydrological Processes, 27, 4103–4111. 10.1002/hyp.10076
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2013Model application 82
Lamb, R.; Beven, K.; Myrabø, S.; 1998. Use of spatially distributed water table observations to constrain uncertainty in a rainfall–runoff model. Advances in Water Resources, 22, 305–317. 10.1016/S0309-1708(98)00020-7
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1998Model application 110
Wang, Jun; Endreny, Theodore A.; Nowak, David J.; 2008. Mechanistic Simulation of Tree Effects in an Urban Water Balance Model 1. JAWRA Journal of the American Water Resources Association, 44, 75–85. 10.1111/j.1752-1688.2007.00139.x
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2008Model application 132
Bandaragoda, Christina; Tarboton, David G; Woods, Ross; 2004. Application of TOPNET in the distributed model intercomparison project. Journal of Hydrology, 298, 178–201. 10.1016/j.jhydrol.2004.03.038
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2004Model application 132
Gedney, N.; Cox, P.M.; 2003. The Sensitivity of Global Climate Model Simulations to the Representation of Soil Moisture Heterogeneity. Journal of Hydrometeorology, , . <1265:TSOGCM>2.0.CO;2 10.1175/1525-7541(2003)004<1265:TSOGCM>2.0.CO;2
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2003

Model application

178
Takeuchi, Kuniyoshi; Hapuarachchi, Prasantha; Zhou, Maichun; Ishidaira, Hiroshi; Magome, Jun; 2008. A BTOP model to extend TOPMODEL for distributed hydrological simulation of large basins. Hydrological Processes, 22, 3236–3251. 10.1002/hyp.6910
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2008Model application 50
Wise, S.M.; 2007. Effect of differing DEM creation methods on the results from a hydrological model. Computers &amp; Geosciences, 33, 1351–1365. 10.1016/j.cageo.2007.05.003
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2007Model application 81
Wilson, David J.; Western, Andrew W.; Grayson, Rodger B.; 2005. A terrain and data-based method for generating the spatial distribution of soil moisture. Advances in Water Resources, 28, 43–54. 10.1016/j.advwatres.2004.09.007
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2005Model application 121
Lin, Kairong; Zhang, Qiang; Chen, Xiaohong; 2010. An evaluation of impacts of DEM resolution and parameter correlation on TOPMODEL modeling uncertainty. Journal of Hydrology, 394, 370–383. 10.1016/j.jhydrol.2010.09.012
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2010Model application 62
Blazkova, Sarka; Beven, Keith; 2002. Flood frequency estimation by continuous simulation for a catchment treated as ungauged (with uncertainty): FLOOD FREQUENCY FOR AN UNGAUGED CATCHMENT. Water Resources Research, 38, 14–1-14-14. 10.1029/2001WR000500
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2002Model application 113
Huang, Bo; 2003. Web-based dynamic and interactive environmental visualization. Computers, Environment and Urban Systems, 27, 623–636. 10.1016/S0198-9715(02)00063-7
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2003Model application 42
Yang, Dawen; Herath, Srikantha; Musiake, Katumi; 2000. Comparison of different distributed hydrological models for characterization of catchment spatial variability. Hydrological Processes, 14, 403–416. 10.1002/(SICI)1099-1085(20000228)14:33.0.CO;2-3
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2000Model application 91
Reusser, D. E.; Buytaert, W.; Zehe, E.; 2011. Temporal dynamics of model parameter sensitivity for computationally expensive models with the Fourier amplitude sensitivity test: TEMPORAL DYNAMICS OF MODEL PARAMETER SENSITIVITY. Water Resources Research, 47, . 10.1029/2010WR009947
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2011Model application 101
Cameron, D.; Beven, K.; Naden, P.; 2000. Flood frequency estimation by continuous simulation under climate change (with uncertainty). Hydrology and Earth System Sciences, 4, 393–405. 10.5194/hess-4-393-2000
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2000Model application 142
Marthews, T. R.; Dadson, S. J.; Lehner, B.; Abele, S.; Gedney, N.; 2015. High-resolution global topographic index values for use in large-scale hydrological modelling. Hydrology and Earth System Sciences, 19, 91–104. 10.5194/hess-19-91-2015
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2015Model application 79
Andréassian, Vazken; Perrin, Charles; Michel, Claude; 2004. Impact of imperfect potential evapotranspiration knowledge on the efficiency and parameters of watershed models. Journal of Hydrology, 286, 19–35. 10.1016/j.jhydrol.2003.09.030
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2004Model application 139
Chen, Xi; Yang, Tao; Wang, Xiaoyan; Xu, Chong-Yu; Yu, Zhongbo; 2013. Uncertainty Intercomparison of Different Hydrological Models in Simulating Extreme Flows. Water Resources Management, 27, 1393–1409. 10.1007/s11269-012-0244-5
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2013Model application 51
Hossain, Faisal; Anagnostou, Emmanouil N.; Dinku, Tufa; Borga, Marco; 2004. Hydrological model sensitivity to parameter and radar rainfall estimation uncertainty. Hydrological Processes, 18, 3277–3291. 10.1002/hyp.5659
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2004Model application 108
Pauwels, Valentijn R.N.; Hoeben, Rudi; Verhoest, Niko E.C.; De Troch, François P.; 2001. The importance of the spatial patterns of remotely sensed soil moisture in the improvement of discharge predictions for small-scale basins through data assimilation. Journal of Hydrology, 251, 88–102. 10.1016/S0022-1694(01)00440-1
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2001Model application 174
Pellenq, J.; Kalma, J.; Boulet, G.; Saulnier, G.-M.; Wooldridge, S.; Kerr, Y.; Chehbouni, A.; 2003. A disaggregation scheme for soil moisture based on topography and soil depth. Journal of Hydrology, 276, 112–127. 10.1016/S0022-1694(03)00066-0
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2003Model application 129
Lee, H.; Zehe, E.; Sivapalan, M.; 2007. Predictions of rainfall-runoff response and soil moisture dynamics in a microscale catchment using the CREW model. Hydrology and Earth System Sciences, 11, 819–849. 10.5194/hess-11-819-2007
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2007Model application 55
Güntner, Andreas; Seibert, Jan; Uhlenbrook, Stefan; 2004. Modeling spatial patterns of saturated areas: An evaluation of different terrain indices: SPATIAL PATTERNS OF SATURATED AREAS. Water Resources Research, 40, . 10.1029/2003WR002864
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2004Model application 142
Montgomery, David R.; Dietrich, William E.; 2002. Runoff generation in a steep, soil-mantled landscape: RUNOFF GENERATION IN A STEEP LANDSCAPE. Water Resources Research, 38, 7–1-7-8. 10.1029/2001WR000822
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2002Model application 111
Blazkov, Sarka; Beven, Keith; 1997. Flood frequency prediction for data limited catchments in the Czech Republic using a stochastic rainfall model and TOPMODEL. Journal of Hydrology, 195, 256–278. 10.1016/S0022-1694(96)03238-6
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1997Model application 132
Qiu, Chunjing; Zhu, Dan; Ciais, Philippe; Guenet, Bertrand; Peng, Shushi; Krinner, Gerhard; Tootchi, Ardalan; Ducharne, Agnès; Hastie, Adam; 2019. Modelling northern peatland area and carbon dynamics since the Holocene with the ORCHIDEE-PEAT land surface model (SVN r5488). Geoscientific Model Development, 12, 2961–2982. 10.5194/gmd-12-2961-2019
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2019Model application 12
Beaujouan, Véronique; Durand, Patrick; Ruiz, Laurent; 2001. Modelling the effect of the spatial distribution of agricultural practices on nitrogen fluxes in rural catchments. Ecological Modelling, 137, 93–105. 10.1016/S0304-3800(00)00435-X
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2001Model application 133
Bouilloud, Ludovic; Chancibault, Katia; Vincendon, Béatrice; Ducrocq, Véronique; Habets, Florence; Saulnier, Georges-Marie; Anquetin, Sandrine; Martin, Eric; Noilhan, Joel; 2010. Coupling the ISBA Land Surface Model and the TOPMODEL Hydrological Model for Mediterranean Flash-Flood Forecasting: Description, Calibration, and Validation. Journal of Hydrometeorology, 11, 315–333. 10.1175/2009JHM1163.1
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2010Model application 45
Addor, N.; Melsen, L. A.; 2019. Legacy, Rather Than Adequacy, Drives the Selection of Hydrological Models. Water Resources Research, 55, 378–390. 10.1029/2018WR022958
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2019Model application 66
Wigmosta, Mark S.; Lettenmaier, Dennis P.; 1999. A comparison of simplified methods for routing topographically driven subsurface flow. Water Resources Research, 35, 255–264. 10.1029/1998WR900017
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1999Model application 132
Chaney, Nathaniel W.; Metcalfe, Peter; Wood, Eric F.; 2016. HydroBlocks: a field-scale resolving land surface model for application over continental extents: HydroBlocks. Hydrological Processes, 30, 3543–3559. 10.1002/hyp.10891
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2016Model application 62
Ratto, M.; Young, P. C.; Romanowicz, R.; Pappenberger, F.; Saltelli, A.; Pagano, A.; 2007. Uncertainty, sensitivity analysis and the role of data based mechanistic modeling in hydrology. Hydrology and Earth System Sciences, 11, 1249–1266. 10.5194/hess-11-1249-2007
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2007Model application 97
Lane, Stuart N.; 2007. Assessment of rainfall-runoff models based upon wavelet analysis. Hydrological Processes, 21, 586–607. 10.1002/hyp.6249
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2007Model application 58
Page, T.; Beven, K. J.; Freer, Jim; Neal, Colin; 2007. Modelling the chloride signal at Plynlimon, Wales, using a modified dynamic TOPMODEL incorporating conservative chemical mixing (with uncertainty). Hydrological Processes, 21, 292–307. 10.1002/hyp.6186
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2007Model application 87
Zhao, Junfang; Xu, Jingwen; Xie, Xingmei; Lu, Houquan; 2016. Drought monitoring based on TIGGE and distributed hydrological model in Huaihe River Basin, China. Science of The Total Environment, 553, 358–365. 10.1016/j.scitotenv.2016.02.115
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2016Model application 19
Seuffert, G.; Gross, P.; Simmer, C.; Wood, E.F.; 2002. The Influence of Hydrologic Modeling on the Predicted Local Weather: Two-Way Coupling of a Mesoscale Weather Prediction Model and a Land Surface Hydrologic Model. Journal of Hydrometeorology, 3, 505-523. <0505:TIOHMO>2.0.CO;2 10.1175/1525-7541(2002)003<0505:TIOHMO>2.0.CO;2
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2002

Model application

126
Rodhe, A; Seibert, J; 1999. Wetland occurrence in relation to topography: a test of topographic indices as moisture indicators. Agricultural and Forest Meteorology, 98, 325–340. 10.1016/S0168-1923(99)00104-5
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1999Model application 146
Huang, Bo; Jiang, Bin; 2002. AVTOP: a full integration of TOPMODEL into GIS. Environmental Modelling &amp; Software, 17, 261–268. 10.1016/S1364-8152(01)00073-1
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2002Model application 76
Wu, Simon; Li, Jonathan; Huang, G.H.; 2007. Modeling the effects of elevation data resolution on the performance of topography-based watershed runoff simulation. Environmental Modelling &amp; Software, 22, 1250–1260. 10.1016/j.envsoft.2006.08.001
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2007Model application 74
Bastola, Satish; Ishidaira, Hiroshi; Takeuchi, Kuniyoshi; 2008. Regionalisation of hydrological model parameters under parameter uncertainty: A case study involving TOPMODEL and basins across the globe. Journal of Hydrology, 357, 188–206. 10.1016/j.jhydrol.2008.05.007
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2008Model application 78
Kavetski, Dmitri; Kuczera, George; Franks, Stewart W.; 2003. Semidistributed hydrological modeling: A “saturation path” perspective on TOPMODEL and VIC: SEMIDISTRIBUTED HYDROLOGICAL MODELING. Water Resources Research, 39, . 10.1029/2003WR002122
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2003Model application 63
Blazkova, S.; Beven, K. J.; Kulasova, A.; 2002. On constraining TOPMODEL hydrograph simulations using partial saturated area information. Hydrological Processes, 16, 441–458. 10.1002/hyp.331
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2002Model application 71
Ringeval, B.; Decharme, B.; Piao, S. L.; Ciais, P.; Papa, F.; de Noblet-Ducoudré, N.; Prigent, C.; Friedlingstein, P.; Gouttevin, I.; Koven, C.; Ducharne, A.; 2012. Modelling sub-grid wetland in the ORCHIDEE global land surface model: evaluation against river discharges and remotely sensed data. Geoscientific Model Development, 5, 941–962. 10.5194/gmd-5-941-2012
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2012Model application 53
Quinn, P. F.; Beven, K. J.; 1993. Spatial and temporal predictions of soil moisture dynamics, runoff, variable source areas and evapotranspiration for plynlimon, mid-wales. Hydrological Processes, 7, 425–448. 10.1002/hyp.3360070407
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1993Model application 140
Buytaert, Wouter; Beven, Keith; 2009. Regionalization as a learning process: REGIONALIZATION AS A LEARNING PROCESS. Water Resources Research, 45, . 10.1029/2008WR007359
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2009Model application 60
Gallart, Francesc; Latron, Jérôme; Llorens, Pilar; Beven, Keith; 2007. Using internal catchment information to reduce the uncertainty of discharge and baseflow predictions. Advances in Water Resources, 30, 808–823. 10.1016/j.advwatres.2006.06.005
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2007Model application 70
Stocker, B. D.; Spahni, R.; Joos, F.; 2014. DYPTOP: a cost-efficient TOPMODEL implementation to simulate sub-grid spatio-temporal dynamics of global wetlands and peatlands. Geoscientific Model Development, 7, 3089–3110. 10.5194/gmd-7-3089-2014
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2014Model application 74
Bruneau, P.; Gascuel-Odoux, C.; Robin, P.; Merot, Ph.; Beven, K.; 1995. Sensitivity to space and time resolution of a hydrological model using digital elevation data. Hydrological Processes, 9, 69–81. 10.1002/hyp.3360090107
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1995Model application 147
Crow, W.T.; Wood, E.F.; 2002. The Value of Coarse-Scale Soil Moisture Observations for Regional Surface Energy Balance Modeling. Journal of Hydrometeorology, 3, 467-482. <0467:TVOCSS>2.0.CO;2 10.1175/1525-7541(2002)003<0467:TVOCSS>2.0.CO;2
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2002

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85
Metcalfe, Peter; Beven, Keith; Freer, Jim; 2015. Dynamic TOPMODEL: A new implementation in R and its sensitivity to time and space steps. Environmental Modelling &amp; Software, 72, 155–172. 10.1016/j.envsoft.2015.06.010
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2015Model application 51
Vincendon, Béatrice; Ducrocq, Véronique; Saulnier, Georges-Marie; Bouilloud, Ludovic; Chancibault, Katia; Habets, Florence; Noilhan, Joël; 2010. Benefit of coupling the ISBA land surface model with a TOPMODEL hydrological model version dedicated to Mediterranean flash-floods. Journal of Hydrology, 394, 256–266. 10.1016/j.jhydrol.2010.04.012
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2010Model application 61
Xue, Lianqing; Yang, Fan; Yang, Changbing; Wei, Guanghui; Li, Wenqian; He, Xinlin; 2018. Hydrological simulation and uncertainty analysis using the improved TOPMODEL in the arid Manas River basin, China. Scientific Reports, 8, 452. 10.1038/s41598-017-18982-8
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2018Model application 21
Szeto, Christopher W.; Sokolov, Artem; Benz, Stephen; Stuart, Joshua; Haussler, David; 2012. Abstract 5085: TopModel: An online resource for predictive models in cancer. . Volume .
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2012Model application 0
Montaldo, Nicola; Ravazzani, Giovanni; Mancini, Marco; 2007. On the prediction of the Toce alpine basin floods with distributed hydrologic models. Hydrological Processes, 21, 608–621. 10.1002/hyp.6260
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2007Model application 60
Gallart, Francesc; Llorens, Pilar; Latron, Jérôme; 1994. Studying the role of old agricultural terraces on runoff generation in a small Mediterranean mountainous basin. Journal of Hydrology, 159, 291–303. 10.1016/0022-1694(94)90262-3
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1994Model application 168
Beaujouan, V�ronique; Durand, Patrick; Ruiz, Laurent; Aurousseau, Pierre; Cotteret, Gilles; 2002. A hydrological model dedicated to topography-based simulation of nitrogen transfer and transformation: rationale and application to the geomorphology- denitrification relationship. Hydrological Processes, 16, 493–507. 10.1002/hyp.327
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2002Model application 116
Wang, Guoqiang; Hapuarachchi, Prasantha; Ishidaira, Hiroshi; Kiem, Anthony S.; Takeuchi, Kuniyoshi; 2009. Estimation of Soil Erosion and Sediment Yield During Individual Rainstorms at Catchment Scale. Water Resources Management, 23, 1447–1465. 10.1007/s11269-008-9335-8
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2009Model application 57
Li, T.; Zhang, W.; Zhang, Q.; Lu, Y.; Wang, G.; Niu, Z.; Raivonen, M.; Vesala, T.; 2015. Impacts of climate and reclamation on temporal variations in CH 4 emissions from different wetlands in China: from 1950 to 2010. Biogeosciences, 12, 6853–6868. 10.5194/bg-12-6853-2015
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2015Model application 15
Robson, Alice; Beven, Keith; Neal, Colin; 1992. Towards identifying sources of subsurface flow: A comparison of components identified by a physically based runoff model and those determined by chemical mixing techniques. Hydrological Processes, 6, 199–214. 10.1002/hyp.3360060208
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1992Model application 162
Li, Tingting; Li, Hailing; Zhang, Qing; Ma, Zhenfeng; Yu, Lingfei; Lu, Yanyu; Niu, Zhenguo; Sun, Wenjuan; Liu, Jia; 2019. Prediction of CH4 emissions from potential natural wetlands on the Tibetan Plateau during the 21st century. Science of The Total Environment, 657, 498–508. 10.1016/j.scitotenv.2018.11.275
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2019Model application 7
Chen, Ji; Wu, Yiping; 2012. Advancing representation of hydrologic processes in the Soil and Water Assessment Tool (SWAT) through integration of the TOPographic MODEL (TOPMODEL) features. Journal of Hydrology, 420, 319–328. 10.1016/j.jhydrol.2011.12.022
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2012Model application 41
Delrieu, Guy; Braud, Isabelle; Berne, Alexis; Borga, Marco; Boudevillain, Brice; Fabry, Frédéric; Freer, Jim; Gaume, Eric; Nakakita, Eiichi; Seed, Alan; Tabary, Pierre; Uijlenhoet, Remko; 2009. Weather radar and hydrology. Advances in Water Resources, 32, 969–974. 10.1016/j.advwatres.2009.03.006
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2009Model application 48
Younger, P. M.; Freer, J. E.; Beven, K. J.; 2009. Detecting the effects of spatial variability of rainfall on hydrological modelling within an uncertainty analysis framework. Hydrological Processes, 23, 1988–2003. 10.1002/hyp.7341
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2009Model application 63
Huang, Pengnian; Li, Zhijia; Chen, Ji; Li, Qiaoling; Yao, Cheng; 2016. Event-based hydrological modeling for detecting dominant hydrological process and suitable model strategy for semi-arid catchments. Journal of Hydrology, 542, 292–303. 10.1016/j.jhydrol.2016.09.001
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2016Model application 36
Fleischbein, Katrin; Wilcke, Wolfgang; Valarezo, Carlos; Zech, Wolfgang; Knoblich, Klaus; 2006. Water budgets of three small catchments under montane forest in Ecuador: experimental and modelling approach. Hydrological Processes, 20, 2491–2507. 10.1002/hyp.6212
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2006Model application 72
Nourani, Vahid; Mano, Akira; 2007. Semi-distributed flood runoff model at the subcontinental scale for southwestern Iran. Hydrological Processes, 21, 3173–3180. 10.1002/hyp.6549
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2007Model application 66
Ambroise, Bruno; Freer, Jim; Beven, Keith; 1996. Application of a Generalized TOPMODEL to the Small Ringelbach Catchment, Vosges, France. Water Resources Research, 32, 2147–2159. 10.1029/95WR03715
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1996Model application 95
Chen, Xi; Chen, Yongqin David; Xu, Chong-yu; 2007. A distributed monthly hydrological model for integrating spatial variations of basin topography and rainfall. Hydrological Processes, 21, 242–252. 10.1002/hyp.6187
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2007Model application 46
Bechtold, M.; De Lannoy, G. J. M.; Koster, R. D.; Reichle, R. H.; Mahanama, S. P.; Bleuten, W.; Bourgault, M. A.; Brümmer, C.; Burdun, I.; Desai, A. R.; Devito, K.; Grünwald, T.; Grygoruk, M.; Humphreys, E. R.; Klatt, J.; Kurbatova, J.; Lohila, A.; Munir, T. M.; Nilsson, M. B.; Price, J. S.; Röhl, M.; Schneider, A.; Tiemeyer, B.; 2019. PEAT‐CLSM: A Specific Treatment of Peatland Hydrology in the NASA Catchment Land Surface Model. Journal of Advances in Modeling Earth Systems, 11, 2130–2162. 10.1029/2018MS001574
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2019Model application 16
Zhang, Zhen; Zimmermann, Niklaus E.; Kaplan, Jed O.; Poulter, Benjamin; 2016. Modeling spatiotemporal dynamics of global wetlands: comprehensive evaluation of a new sub-grid TOPMODEL parameterization and uncertainties. Biogeosciences, 13, 1387–1408. 10.5194/bg-13-1387-2016
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2016Model application 42
Lu, Xiaoliang; Zhuang, Qianlai; Liu, Yaling; Zhou, Yuyu; Aghakouchak, Amir; 2016. A large-scale methane model by incorporating the surface water transport: Development of a Methane Model. Journal of Geophysical Research: Biogeosciences, 121, 1657–1674. 10.1002/2016JG003321
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2016Model application 5
Piñol, Josep; Beven, Keith; Freer, James; 1997. Modelling the hydrological response of mediterranean catchments, Prades, Catalonia. The use of distributed models as aids to hypothesis formulation. Hydrological Processes, 11, 1287–1306. 10.1002/(SICI)1099-1085(199707)11:93.0.CO;2-W
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1997Model application 94
Reid, Simon C.; Lane, Stuart N.; 2007. Does hydrological connectivity improve modelling of coarse sediment delivery in upland environments?. Geomorphology, 90, 263–282. 10.1016/j.geomorph.2006.10.023
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2007Model application 61
Wang, Shu; Zheng, Hui; Lin, Peirong; Zheng, Xing; Yang, Zong-Liang; 2019. Evaluation and uncertainty attribution of the simulated streamflow from NoahMP-RAPID over a high-altitude mountainous basin. Chinese Science Bulletin, 64, 444–455. 10.1360/N972018-00598
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2019Model application 1
Campling, Paul; Gobin, Anne; Beven, Keith; Feyen, Jan; 2002. Rainfall-runoff modelling of a humid tropical catchment: the TOPMODEL approach. Hydrological Processes, 16, 231–253. 10.1002/hyp.341
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2002Model application 77
Chang, Jianxia; Zhang, Hongxue; Wang, Yimin; Zhu, Yuelu; 2016. Assessing the impact of climate variability and human activities on streamflow variation. Hydrology and Earth System Sciences, 20, 1547–1560. 10.5194/hess-20-1547-2016
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2016Model application 50
Güntner, A.; Uhlenbrook, S.; Seibert, J.; Leibundgut, Ch; 1999. Multi-criterial validation of TOPMODEL in a mountainous catchment. Hydrological Processes, 13, 1603–1620. 10.1002/(SICI)1099-1085(19990815)13:113.0.CO;2-K
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1999Model application 131
Liu, Shuang; Xu, Jingwen; Zhao, Junfang; Xie, Xingmei; Zhang, Wanchang; 2014. Efficiency enhancement of a process-based rainfall–runoff model using a new modified AdaBoost.RT technique. Applied Soft Computing, 23, 521–529. 10.1016/j.asoc.2014.05.033
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2014Model application 18
Decharme, B.; 2007. Influence of runoff parameterization on continental hydrology: Comparison between the Noah and the ISBA land surface models. Journal of Geophysical Research, 112, D19108. 10.1029/2007JD008463
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2007Model application 30
Chancibault, K.; Anquetin, S.; Ducrocq, V.; Saulnier, G.-M.; 2006. Hydrological evaluation of high-resolution precipitation forecasts of the Gard flash-flood event (8–9 September 2002). Quarterly Journal of the Royal Meteorological Society, 132, 1091–1117. 10.1256/qj.04.164
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2006Model application 51
Boyer, E. W.; Hornberger, G. M.; Bencala, K. E.; McKnight, D. M.; 2000. Effects of asynchronous snowmelt on flushing of dissolved organic carbon: a mixing model approach. Hydrological Processes, 14, 3291–3308. 10.1002/1099-1085(20001230)14:183.0.CO;2-2
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2000Model application 120
Fu, Xiaolei; Luo, Lifeng; Pan, Ming; Yu, Zhongbo; Tang, Ying; Ding, Yongjian; 2018. Evaluation of TOPMODEL-Based Land Surface–Atmosphere Transfer Scheme (TOPLATS) through a Soil Moisture Simulation. Earth Interactions, 22, 1–19. 10.1175/EI-D-17-0037.1
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2018Model application 7
Pan, Feifei; Peters-Lidard, Christa D.; Sale, Michael J.; King, Anthony W.; 2004. A comparison of geographical information systems-based algorithms for computing the TOPMODEL topographic index: A COMPARISON OF TOPOGRAPHIC INDEX ALGORITHMS. Water Resources Research, 40, . 10.1029/2004WR003069
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2004Model application 73
Clark, Douglas B.; Gedney, Nicola; 2008. Representing the effects of subgrid variability of soil moisture on runoff generation in a land surface model. Journal of Geophysical Research, 113, D10111. 10.1029/2007JD008940
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2008Model application 65
Ao, Tianqi; Ishidaira, Hiroshi; Takeuchi, Kuniyoshi; Kiem, Anthony S.; Yoshitari, Junich; Fukami, Kazuhiko; Magome, Jun; 2006. Relating BTOPMC model parameters to physical features of MOPEX basins. Journal of Hydrology, 320, 84–102. 10.1016/j.jhydrol.2005.07.006
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2006Model application 51
Molénat, Jérôme; Gascuel-Odoux, Chantal; Davy, Philippe; Durand, Patrick; 2005. How to model shallow water-table depth variations: the case of the Kervidy-Naizin catchment, France: MODELLING WATER TABLE DEPTH. Hydrological Processes, 19, 901–920. 10.1002/hyp.5546
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2005Model application 52
Xu, Jingwen; Zhang, Wanchang; Zheng, Ziyan; Chen, Jing; Jiao, Meiyan; 2012. Establishment of a hybrid rainfall-runoff model for use in the Noah LSM. Acta Meteorologica Sinica, 26, 85–92. 10.1007/s13351-012-0108-1
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2012Model application 14
Huang, Bo; Claramunt, Christophe; 2004. Environmental simulation within a virtual environment. ISPRS Journal of Photogrammetry and Remote Sensing, 59, 73–84. 10.1016/j.isprsjprs.2004.03.002
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2004Model application 22
Le Lay, M.; Saulnier, G.-M.; Galle, S.; Seguis, L.; Métadier, M.; Peugeot, Ch.; 2008. Model representation of the Sudanian hydrological processes: Application on the Donga catchment (Benin). Journal of Hydrology, 363, 32–41. 10.1016/j.jhydrol.2008.09.006
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2008Model application 30
Buytaert, Wouter; Reusser, Dominik; Krause, Stefan; Renaud, J.-P.; 2008. Why can't we do better than Topmodel?. Hydrological Processes, 22, 4175–4179. 10.1002/hyp.7125
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2008Model application 42
Saulnier, Georges-Marie; Obled, Charles; Beven, Keith; 1997. Analytical compensation between DTM grid resolution and effective values of staurated hydraulic conductivity within the TOPMODEL framework. Hydrological Processes, 11, 1331–1346. 10.1002/(SICI)1099-1085(199707)11:93.0.CO;2-9
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1997Model application 98
Seibert, Jan; Bishop, Kevin H.; Nyberg, Lars; 1997. A test of TOPMODEL'a ability to predict spatially distributed groundwater levels. Hydrological Processes, 11, 1131–1144. 10.1002/(SICI)1099-1085(199707)11:93.0.CO;2-#
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1997Model application 129
Gumindoga, W.; Rwasoka, D.T.; Murwira, A.; 2011. Simulation of streamflow using TOPMODEL in the Upper Save River catchment of Zimbabwe. Physics and Chemistry of the Earth, Parts A/B/C, 36, 806–813. 10.1016/j.pce.2011.07.054
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2011Model application 31
Kim, J.; Miller, N.L.; Farrara, J.D.; Hong, S.-Y.; 2000. A Seasonal Precipitation and Stream Flow Hindcast and Prediction Study in the Western United States during the 1997/98 Winter Season Using a Dynamic Downscaling System. Journal of Hydrometeorology, 1, 311-329. <0311:ASPASF>2.0.CO;2 10.1175/1525-7541(2000)001<0311:ASPASF>2.0.CO;2
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2000

Model application

66
Huang, J.-C.; Lee, T.-Y.; Kao, S.-J.; Hsu, S.-C.; Lin, H.-J.; Peng, T.-R.; 2012. Land use effect and hydrological control on nitrate yield in subtropical mountainous watersheds. Hydrology and Earth System Sciences, 16, 699–714. 10.5194/hess-16-699-2012
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2012Model application 36
Schelker, J.; Burns, D. A.; Weiler, M.; Laudon, H.; 2011. Hydrological mobilization of mercury and dissolved organic carbon in a snow-dominated, forested watershed: Conceptualization and modeling. Journal of Geophysical Research, 116, G01002. 10.1029/2010JG001330
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2011Model application 46
Yi, Lu; Zhang, Wan-Chang; Yan, Chang-An; 2017. A modified topographic index that incorporates the hydraulic and physical properties of soil. Hydrology Research, 48, 370–383. 10.2166/nh.2016.119
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2017Model application 8
Ning, Like; Xia, Jun; Zhan, Chesheng; Zhang, Yongyong; 2016. Runoff of arid and semi-arid regions simulated and projected by CLM-DTVGM and its multi-scale fluctuations as revealed by EEMD analysis. Journal of Arid Land, 8, 506–520. 10.1007/s40333-016-0126-4
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2016Model application 8
Chen, Jiongfeng; Zhang, Wan-chang; 2018. A new numerical model for simulating top surface soil moisture and runoff. Engineering Computations, 35, 1344–1363. 10.1108/EC-01-2017-0031
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2018Model application 1
Bartlett, M. S.; Parolari, A. J.; McDonnell, J. J.; Porporato, A.; 2016. Framework for event-based semidistributed modeling that unifies the SCS-CN method, VIC, PDM, and TOPMODEL. Water Resources Research, 52, 7036–7052. 10.1002/2016WR019084
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2016Model application 12
Zhu, X.; Zhuang, Q.; Lu, X.; Song, L.; 2014. Spatial scale-dependent land–atmospheric methane exchanges in the northern high latitudes from 1993 to 2004. Biogeosciences, 11, 1693–1704. 10.5194/bg-11-1693-2014
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2014Model application 25
Scanlon, Todd M.; Raffensperger, Jeff P.; Hornberger, George M.; Clapp, Roger B.; 2000. Shallow subsurface storm flow in a forested headwater catchment: Observations and modeling using a modified TOPMODEL. Water Resources Research, 36, 2575–2586. 10.1029/2000WR900125
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2000Model application 84
Rinderer, M.; van Meerveld, H. J.; Seibert, J.; 2014. Topographic controls on shallow groundwater levels in a steep, prealpine catchment: When are the TWI assumptions valid?. Water Resources Research, 50, 6067–6080. 10.1002/2013WR015009
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2014Model application 64
Boyer, Elizabeth W.; Hornberger, George M.; Bencala, Kenneth E.; McKnight, Diane; 1996. Overview of a simple model describing variation of dissolved organic carbon in an upland catchment. Ecological Modelling, 86, 183–188. 10.1016/0304-3800(95)00049-6
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1996Model application 135
Iorgulescu, I.; Musy, A.; 1997. Generalization of TOPMODEL for a power law transmissivity profile. Hydrological Processes, 11, 1353–1355. 10.1002/(SICI)1099-1085(199707)11:93.0.CO;2-U
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1997Model application 65
Xu, Jingwen; Zhang, Wanchang; Zheng, Ziyan; Jiao, Meiyan; Chen, Jing; 2012. Early flood warning for Linyi watershed by the GRAPES/XXT model using TIGGE data. Acta Meteorologica Sinica, 26, 103–111. 10.1007/s13351-012-0110-7
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2012Model application 10
Shaman, Jeffrey; Stieglitz, Marc; Engel, Victor; Koster, Randal; Stark, Colin; 2002. Representation of subsurface storm flow and a more responsive water table in a TOPMODEL-based hydrology model: TOPMODEL STORM FLOW AND A MORE REACTIVE WATER TABLE. Water Resources Research, 38, 31–1-31-16. 10.1029/2001WR000636
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2002Model application 33
Ju, Weimin; Chen, Jing M.; 2005. Distribution of soil carbon stocks in Canada's forests and wetlands simulated based on drainage class, topography and remotely sensed vegetation parameters. Hydrological Processes, 19, 77–94. 10.1002/hyp.5775
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2005Model application 66
Loaiza Usuga, Juan Carlos; Pauwels, Valentijn R.N.; 2008. Calibration and multiple data set-based validation of a land surface model in a mountainous Mediterranean study area. Journal of Hydrology, 356, 223–233. 10.1016/j.jhydrol.2008.04.018
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2008Model application 23
Troch, Peter A.; Smith, James A.; Wood, Eric F.; de Troch, François P.; 1994. Hydrologic controls of large floods in a small basin: central Appalachian case study. Journal of Hydrology, 156, 285–309. 10.1016/0022-1694(94)90082-5
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1994Model application 70
Bresciani, E.; Davy, P.; de Dreuzy, J.-R.; 2014. Is the Dupuit assumption suitable for predicting the groundwater seepage area in hillslopes?. Water Resources Research, 50, 2394–2406. 10.1002/2013WR014284
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2014Model application 13
Blazkova, Sarka; Beven, Keith; Tacheci, Pavel; Kulasova, Alena; 2002. Testing the distributed water table predictions of TOPMODEL (allowing for uncertainty in model calibration): The death of TOPMODEL?: THE DEATH OF TOPMODEL?. Water Resources Research, 38, 39–1-39-11. 10.1029/2001WR000912
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2002Model application 56
Feaster, T.D.; Westcott, N.E.; Hudson, R.J.M.; Conrads, P.A.; Bradley, P.M.; 2012. Comparison of TOPMODEL Streamflow Simulations Using NEXRAD-Based and Measured Rainfall Data, McTier Creek Watershed, South Carolina. Scientific Investigations Report.
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2012

Model application

2
Cameron, D.; Beven, K.; Tawn, J.; Naden, P.; 2000. Flood frequency estimation by continuous simulation (with likelihood based uncertainty estimation). Hydrology and Earth System Sciences, 4, 23–34. 10.5194/hess-4-23-2000
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2000Model application 71
Harris, A.; Hossain, F.; 2008. Investigating the Optimal Configuration of Conceptual Hydrologic Models for Satellite-Rainfall-Based Flood Prediction. IEEE Geoscience and Remote Sensing Letters, 5, 532–536. 10.1109/LGRS.2008.922551
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2008Model application 26
Cui, L.; Li, Y. P.; Huang, G. H.; Huang, Y.; 2014. Effects of digital elevation model resolution on topography-based runoff simulation under uncertainty. Journal of Hydroinformatics, 16, 1343–1358. 10.2166/hydro.2014.137
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2014Model application 4
Moore, R. D.; Thompson, J. C.; 1996. Are Water Table Variations in a Shallow Forest Soil Consistent with the TOPMODEL Concept?. Water Resources Research, 32, 663–669. 10.1029/95WR03487
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1996Model application 100
Huang, Bo; Worboys, Michael; 2001. Dynamic Modelling and Visualization on the Internet. Transactions in GIS, 5, 131–139. 10.1111/1467-9671.00072
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2001Model application 29
Peng, D. Z.; Xu, Z. X.; 2009. Simulating the impact of climate change on streamflow in the Tarim River basin by using a modified semi-distributed monthly water balance model. Hydrological Processes, , n/a–n/a. 10.1002/hyp.7485
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2009Model application 33
Zanon, Carlo; Genereux, David P.; Oberbauer, Steven F.; 2014. Use of a watershed hydrologic model to estimate interbasin groundwater flow in a Costa Rican rainforest: INTERBASIN GROUNDWATER FLOW IN A COSTA RICAN RAINFOREST. Hydrological Processes, 28, 3670–3680. 10.1002/hyp.9917
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2014Model application 12
Li, Wenjing; Lin, Kairong; Zhao, Tongtiegang; Lan, Tian; Chen, Xiaohong; Du, Hongwei; Chen, Haiyan; 2019. Risk assessment and sensitivity analysis of flash floods in ungauged basins using coupled hydrologic and hydrodynamic models. Journal of Hydrology, 572, 108–120. 10.1016/j.jhydrol.2019.03.002
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2019Model application 39
Burns, Douglas A.; Nystrom, Elizabeth A.; Wolock, David M.; Bradley, Paul M.; Riva-Murray, Karen; 2014. An empirical approach to modeling methylmercury concentrations in an Adirondack stream watershed: Modeling Methylmercury in a Stream. Journal of Geophysical Research: Biogeosciences, 119, 1970–1984. 10.1002/2013JG002481
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2014Model application 10
Ludwig, R.; Mauser, W.; 2000. Modelling catchment hydrology within a GIS based SVAT-model framework. Hydrology and Earth System Sciences, 4, 239–249. 10.5194/hess-4-239-2000
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2000Model application 56
Ibbitt, R.P; Henderson, R.D; Copeland, J; Wratt, D.S; 2000. Simulating mountain runoff with meso-scale weather model rainfall estimates: a New Zealand experience. Journal of Hydrology, 239, 19–32. 10.1016/S0022-1694(00)00351-6
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2000Model application 46
Beven, Keith; 1987. Towards the use of catchment geomorphology in flood frequency predictions. Earth Surface Processes and Landforms, 12, 69–82. 10.1002/esp.3290120109
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1987Model application 93
MacKellar, N. C.; Dadson, S. J.; New, M.; Wolski, P.; 2013. Evaluation of the JULES land surface model in simulating catchment hydrology in Southern Africa. Hydrology and Earth System Sciences Discussions, 10, 11093–11128. 10.5194/hessd-10-11093-2013
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2013Model application 11
Nan, ZhuoTong; Shu, LeLe; Zhao, YanBo; Li, Xin; Ding, YongJian; 2011. Integrated modeling environment and a preliminary application on the Heihe River Basin, China. Science China Technological Sciences, 54, 2145–2156. 10.1007/s11431-011-4410-4
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2011Model application 11
Candela, A.; Noto, L.V.; Aronica, G.; 2005. Influence of surface roughness in hydrological response of semiarid catchments. Journal of Hydrology, 313, 119–131. 10.1016/j.jhydrol.2005.01.023
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2005Model application 61
Peters, Norman E.; Freer, James; Beven, Keith; 2003. Modelling hydrologic responses in a small forested catchment (Panola Mountain, Georgia, USA): a comparison of the original and a new dynamic TOPMODEL. Hydrological Processes, 17, 345–362. 10.1002/hyp.1128
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2003Model application 61
Huang, B.; 2004. An Integrated Approach to Real-time Environmental Simulation and Visualization. Journal of Environmental Informatics, 3, 42–50. 10.3808/jei.200400026
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2004Model application 19
Yeguez, Marilena; Ablan, Magdiel; Buytaert, Wouter; Acevedo, Dimas; Rodríguez, Mayanín; Machado, Daniel; 2019. Modelado hidrológico de un páramo andino venezolano con afloramientos rocosos usando TOPMODEL. MASKANA, 10, 54–63. 10.18537/mskn.10.02.06
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2019Model application 0
Pradhan, Nawa Raj; Tachikawa, Yasuto; Takara, Kaoru; 2004. A SCALE INVARIANCE MODEL FOR SPATIAL DOWNSCALING OF TOPOGRAPHIC INDEX IN TOPMODEL. PROCEEDINGS OF HYDRAULIC ENGINEERING, 48, 109–114. 10.2208/prohe.48.109
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2004Model application 13
Li, Zhi-Jia; Zhang, Ke; 2008. Comparison of Three GIS-Based Hydrological Models. Journal of Hydrologic Engineering, 13, 364–370. 10.1061/(ASCE)1084-0699(2008)13:5(364)
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2008Model application 29
Lamb, R.; Beven, K.; Myrabø, S.; 1997. Discharge and water table predictions using a generalised TOPMODEL formulation. Hydrological Processes, 11, 1145–1167. 10.1002/(SICI)1099-1085(199707)11:93.0.CO;2-C
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1997Model application 71
Gao, Hongkai; Birkel, Christian; Hrachowitz, Markus; Tetzlaff, Doerthe; Soulsby, Chris; Savenije, Hubert H. G.; 2019. A simple topography-driven and calibration-free runoff generation module. Hydrology and Earth System Sciences, 23, 787–809. 10.5194/hess-23-787-2019
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2019Model application 28
Hromadka, Theodore; Rao, Prasada; Hankin, Barry; Metcalfe, Peter; Johnson, David; Chappell, Nick A.; Page, Trevor; Craigen, Iain; Lamb, Rob; Beven, Keith; 2017. Strategies for Testing the Impact of Natural Flood Risk Management Measures. In: (eds.)Flood Risk Management.. .
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2017Model application 13
Gascuel-Odoux, Chantal; Aurousseau, Pierre; Cordier, Marie-Odile; Durand, Patrick; Garcia, Frederick; Masson, Véronique; Salmon-Monviola, Jordy; Tortrat, Florent; Trepos, Ronan; 2009. A decision-oriented model to evaluate the effect of land use and agricultural management on herbicide contamination in stream water. Environmental Modelling &amp; Software, 24, 1433–1446. 10.1016/j.envsoft.2009.06.002
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2009Model application 38
Nourani, Vahid; Roughani, Arash; Gebremichael, Mekonnen; 2011. Topmodel capability for rainfall-runoff modeling of the Ammameh watershed at different time scales using different terrain algorithms. Journal of Urban and Environmental Engineering, 5, 1–14. 10.4090/juee.2011.v5n1.001014
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2011Model application 23
Chappell, Nick A.; Franks, Stewart W.; Larenus, Jonny; 1998. Multi-scale permeability estimation for a tropical catchment. Hydrological Processes, 12, 1507–1523. 10.1002/(SICI)1099-1085(199807)12:93.0.CO;2-J
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1998Model application 88
Gumindoga, Webster; Rientjes, Tom; Shekede, Munyaradzi; Rwasoka, Donald; Nhapi, Innocent; Haile, Alemseged; 2014. Hydrological Impacts of Urbanization of Two Catchments in Harare, Zimbabwe. Remote Sensing, 6, 12544–12574. 10.3390/rs61212544
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2014Model application 33
Li, Binquan; Liang, Zhongmin; He, Yingqing; Hu, Lin; Zhao, Weimin; Acharya, Kumud; 2017. Comparison of parameter uncertainty analysis techniques for a TOPMODEL application. Stochastic Environmental Research and Risk Assessment, 31, 1045–1059. 10.1007/s00477-016-1319-2
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2017Model application 21
Suliman, Ali H. Ahmed; Jajarmizadeh, Milad; Harun, Sobri; Mat Darus, Intan Zaurah; 2015. Comparison of Semi-Distributed, GIS-Based Hydrological Models for the Prediction of Streamflow in a Large Catchment. Water Resources Management, 29, 3095–3110. 10.1007/s11269-015-0984-0
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2015Model application 22
Duan, Jinfan; Miller, Norman L.; 1997. A generalized power function for the subsurface transmissivity profile in TOPMODEL. Water Resources Research, 33, 2559–2562. 10.1029/97WR02186
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1997Model application 64
Gumindoga, W.; Rientjes, T.H.M.; Haile, A.T.; Dube, T.; 2014. Predicting streamflow for land cover changes in the Upper Gilgel Abay River Basin, Ethiopia: A TOPMODEL based approach. Physics and Chemistry of the Earth, Parts A/B/C, 76, 3–15. 10.1016/j.pce.2014.11.012
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2014Model application 42
Pradhan, N. R.; Tachikawa, Y.; Takara, K.; 2006. A downscaling method of topographic index distribution for matching the scales of model application and parameter identification. Hydrological Processes, 20, 1385–1405. 10.1002/hyp.6098
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2006Model application 39
Almeida, Auro C.; Smethurst, Philip J.; Siggins, Anders; Cavalcante, Rosane B. L.; Borges, Norton; 2016. Quantifying the effects of Eucalyptus plantations and management on water resources at plot and catchment scales: Eucalypt Management Catchment Water. Hydrological Processes, 30, 4687–4703. 10.1002/hyp.10992
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2016Model application 22
Gao, Jihui; Holden, Joseph; Kirkby, Mike; 2016. The impact of land-cover change on flood peaks in peatland basins: THE IMPACT OF PEATLAND COVER CHANGE ON FLOOD PEAKS. Water Resources Research, 52, 3477–3492. 10.1002/2015WR017667
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2016Model application 33
Rupp, David E.; Woods, Ross A.; 2008. Increased flexibility in base flow modelling using a power law transmissivity profile. Hydrological Processes, 22, 2667–2671. 10.1002/hyp.6863
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2008Model application 25
Kirkby, M. J.; 1997. TOPMODEL: A personal view. Hydrological Processes, 11, 1087–1097. 10.1002/(SICI)1099-1085(199707)11:93.0.CO;2-P
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1997Model application 74
Whitfield, B.; Jacobs, J. M.; Judge, J.; 2006. Intercomparison Study of the Land Surface Process Model and the Common Land Model for a Prairie Wetland in Florida. Journal of Hydrometeorology, 7, 1247–1258. 10.1175/JHM547.1
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2006Model application 25
Hao, Gairui; Li, Jiake; Song, Liming; Li, Huaien; Li, Zhilu; 2018. Comparison between the TOPMODEL and the Xin’anjiang model and their application to rainfall runoff simulation in semi-humid regions. Environmental Earth Sciences, 77, 279. 10.1007/s12665-018-7477-4
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2018Model application 12
Ibbitt, Richard; Woods, Ross; 2004. Re-scaling the topographic index to improve the representation of physical processes in catchment models. Journal of Hydrology, 293, 205–218. 10.1016/j.jhydrol.2004.01.016
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2004Model application 45
Donnelly-Makowecki, L.M; Moore, R.D; 1999. Hierarchical testing of three rainfall–runoff models in small forested catchments. Journal of Hydrology, 219, 136–152. 10.1016/S0022-1694(99)00056-6
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1999Model application 66
Saulnier, G.-M.; Datin, R.; 2004. Analytical solution to a bias in the TOPMODEL framework balance. Hydrological Processes, 18, 1195–1218. 10.1002/hyp.1346
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2004Model application 41
Zhu, D.; Peng, D. Z.; Cluckie, I. D.; 2013. Statistical analysis of error propagation from radar rainfall to hydrological models. Hydrology and Earth System Sciences, 17, 1445–1453. 10.5194/hess-17-1445-2013
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2013Model application 25
Schmidt, Jochen; Hennrich, Kirsten; Dikau, Richard; 2000. Scales and similarities in runoff processes with respect to geomorphometry. Hydrological Processes, 14, 1963–1979. 10.1002/1099-1085(20000815/30)14:11/123.0.CO;2-M
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2000Model application 37
Sun, ShuFen; Deng, HuiPing; Wang, Qian; 2014. Simulation and comparative study of two types of Topographic Index model for a homogeneous mountain catchment. Science China Earth Sciences, 57, 2089–2099. 10.1007/s11430-014-4892-6
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2014Model application 2
Wolock, D. M.; Hornberger, G. M.; Beven, K. J.; Campbell, W. G.; 1989. The relationship of catchment topography and soil hydraulic characteristics to lake alkalinity in the northeastern United States. Water Resources Research, 25, 829–837. 10.1029/WR025i005p00829
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1989Model application 84
Nawarathna, N. M. N. S. Bandara; Kazama, So; Sawamoto, Masaki; 2002. IMPROVEMENT OF CALIBRATION PROCEDURE OF THE BLOCK WISE TOPMODEL WITH MUSKINGUM-CUNGE ROUTING METHOD USING SUB BASINS SIMULATED RESULTS: APPLICATION TO PART OF THE LOWER MEKONG RIVER BASIN. . Volume .
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2002Model application 5
Tsang, Yin-Phan; Hornberger, George; Kaplan, Louis A.; Newbold, J. Denis; Aufdenkampe, Anthony K.; 2014. A variable source area for groundwater evapotranspiration: impacts on modeling stream flow: A VARIABLE SOURCE AREA FOR GROUNDWATER EVAPOTRANSPIRATION. Hydrological Processes, 28, 2439–2450. 10.1002/hyp.9811
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2014Model application 12
Valeo, C.; Moin, S.M.A.; 2000. Variable source area modelling in urbanizing watersheds. Journal of Hydrology, 228, 68–81. 10.1016/S0022-1694(00)00153-0
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2000Model application 40
Gao, Jihui; Holden, Joseph; Kirkby, Mike; 2015. A distributed TOPMODEL for modelling impacts of land-cover change on river flow in upland peatland catchments: A DISTRIBUTED TOPMODEL TO SUPPORT LAND-COVER CHANGE STUDIES. Hydrological Processes, 29, 2867–2879. 10.1002/hyp.10408
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2015Model application 25
Wang, Guoqiang; Zhou, Maichun; Takeuchi, Kuniyoshi; Ishidaira, Hiroshi; 2007. Improved version of BTOPMC model and its application in event-based hydrologic simulations. Journal of Geographical Sciences, 17, 73–84. 10.1007/s11442-007-0073-2
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2007Model application 1
Ao, Tianqi; Ishidaira, Hiroshi; Takeuchi, Kuniyoshi; 1999. STUDY OF DISTRIBUTED RUNOFF SIMULATION MODEL BASED ON BLOCK TYPE TOPMODEL AND MUSKINGUM-CUNGE METHOD. PROCEEDINGS OF HYDRAULIC ENGINEERING, 43, 7–12. 10.2208/prohe.43.7
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1999Model application 25
Shrestha, Sangam; Lohpaisankrit, Worapong; 2017. Flood hazard assessment under climate change scenarios in the Yang River Basin, Thailand. International Journal of Sustainable Built Environment, 6, 285–298. 10.1016/j.ijsbe.2016.09.006
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2017Model application 48
Corral, C; Sempere-Torres, D; Revilla, M; Berenguer, M; 2000. A semi-distributed hydrological model using rainfall estimates by radar. Application to Mediterranean basins. Physics and Chemistry of the Earth, Part B: Hydrology, Oceans and Atmosphere, 25, 1133–1136. 10.1016/S1464-1909(00)00166-0
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2000Model application 23
Deng, HuiPing; Sun, ShuFen; 2012. Incorporation of TOPMODEL into land surface model SSiB and numerically testing the effects of the corporation at basin scale. Science China Earth Sciences, 55, 1731–1741. 10.1007/s11430-012-4431-2
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2012Model application 4
Chen, Xi; Cheng, Qinbo; Chen, Yongqin David; Smettem, Keith; Xu, Chong-Yu; 2010. Simulating the integrated effects of topography and soil properties on runoff generation in hilly forested catchments, South China. Hydrological Processes, 24, 714–725. 10.1002/hyp.7509
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2010Model application 17
Quinn, Paul; Beven, Keith; Culf, Alistair; 1995. The introduction of macroscale hydrological complexity into land surface-atmosphere transfer models and the effect on planetary boundary layer development. Journal of Hydrology, 166, 421–444. 10.1016/0022-1694(94)05090-K
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1995Model application 60
Shrestha, S.; Bastola, S.; Babel, M.S.; Dulal, K.N.; Magome, J.; Hapuarachchi, H.A.P.; Kazama, F.; Ishidaira, H.; Takeuchi, K.; 2007. The assessment of spatial and temporal transferability of a physically based distributed hydrological model parameters in different physiographic regions of Nepal. Journal of Hydrology, 347, 153–172. 10.1016/j.jhydrol.2007.09.016
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2007Model application 30
Sun, Shufen; Deng, Huiping; 2004. A study of rainfall-runoff response in a catchment using TOPMODEL. Advances in Atmospheric Sciences, 21, 87–95. 10.1007/BF02915682
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2004Model application 8
Williamson, T. N.; Lee, B. D.; Schoeneberger, P. J.; McCauley, W. M.; Indorante, S. J.; Owens, P. R.; 2014. Simulating Soil-Water Movement through Loess-Veneered Landscapes Using Nonconsilient Saturated Hydraulic Conductivity Measurements. Soil Science Society of America Journal, 78, 1320–1331. 10.2136/sssaj2014.01.0045
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2014Model application 6
Shaman, J.; Stieglitz, M.; Zebiak, S.; 2003. A Local Forecast of Land Surface Wetness Conditions Derived from Seasonal Climate Predictions. Journal of Hydrometeorology, 4, 611-626. <0611:ALFOLS>2.0.CO;2 10.1175/1525-7541(2003)004<0611:ALFOLS>2.0.CO;2
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2003

Model application

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Deng, Huiping; Sun, Shufen; 2010. Extension of TOPMODEL applications to the heterogeneous land surface. Advances in Atmospheric Sciences, 27, 164–176. 10.1007/s00376-009-8146-z
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2010Model application 4
Wang, Guoqiang; Hapuarachchi,, H. A. P.; Takeuchi, Kuniyoshi; Ishidaira, Hiroshi; 2010. Grid-based distribution model for simulating runoff and soil erosion from a large-scale river basin. Hydrological Processes, 24, 641–653. 10.1002/hyp.7558
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2010Model application 13
Gallart, Francesc; Latron, Jérôme; Llorens, Pilar; Beven, Keith J.; 2008. Upscaling discrete internal observations for obtaining catchment-averaged TOPMODEL parameters in a small Mediterranean mountain basin. Physics and Chemistry of the Earth, Parts A/B/C, 33, 1090–1094. 10.1016/j.pce.2008.03.003
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2008Model application 19
Willgoose, Garry; Perera, Hemantha; 2001. A simple model of saturation excess runoff generation based on geomorphology, steady state soil moisture. Water Resources Research, 37, 147–155. 10.1029/2000WR900265
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2001Model application 37
Romanowicz, Renata J.; 2007. Data based mechanistic model for low flows: Implications for the effects of climate change. Journal of Hydrology, 336, 74–83. 10.1016/j.jhydrol.2006.12.015
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2007Model application 16
Liu, Yonghe; 2010. Notice of Retraction: Modeling daily runoff in a large-scale basin based on Support Vector Machines. . Volume .
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2010Model application 5
Gao, Jihui; Kirkby, Mike; Holden, Joseph; 2018. The effect of interactions between rainfall patterns and land-cover change on flood peaks in upland peatlands. Journal of Hydrology, 567, 546–559. 10.1016/j.jhydrol.2018.10.039
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2018Model application 9
Xu, Jingwen; Tan, Honghua; Luo, Qi; Zhang, Wanchang; Wang, Changquan; Zhu, Xuemei; Chen, Jiongfeng; 2009. Development of a distributed agricultural drought prediction model based on TOPMODEL and GIS. . Volume .
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2009Model application 3
Kinner, David A.; Stallard, Robert F.; 2004. Identifying storm flow pathways in a rainforest catchment using hydrological and geochemical modelling. Hydrological Processes, 18, 2851–2875. 10.1002/hyp.1498
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2004Model application 45
Hennrich, Kirsten; Crozier, Michael J.; 2004. A hillslope hydrology approach for catchment-scale slope stability analysis. Earth Surface Processes and Landforms, 29, 599–610. 10.1002/esp.1054
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2004Model application 29
Xiong, Lihua; Guo, Shenglian; 2004. Effects of the catchment runoff coefficient on the performance of TOPMODEL in rainfall–runoff modelling. Hydrological Processes, 18, 1823–1836. 10.1002/hyp.1449
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2004Model application 29
Furusho, C.; Chancibault, K.; Andrieu, H.; 2013. Adapting the coupled hydrological model ISBA-TOPMODEL to the long-term hydrological cycles of suburban rivers: Evaluation and sensitivity analysis. Journal of Hydrology, 485, 139–147. 10.1016/j.jhydrol.2012.06.059
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2013Model application 27
Kakembo, V.; Rowntree, K.; Palmer, A.R.; 2007. Topographic controls on the invasion of Pteronia incana (Blue bush) onto hillslopes in Ngqushwa (formerly Peddie) district, Eastern Cape, South Africa. CATENA, 70, 185–199. 10.1016/j.catena.2006.08.005
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2007Model application 29
Chiang, Shen; Tachikawa, Yasuto; Takara, Kaoru; 2007. Hydrological model performance comparison through uncertainty recognition and quantification. Hydrological Processes, 21, 1179–1195. 10.1002/hyp.6678
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2007Model application 19
Jeziorska, Justyna; Niedzielski, Tomasz; 2018. Applicability of TOPMODEL in the mountainous catchments in the upper Nysa Kłodzka river basin (SW Poland). Acta Geophysica, 66, 203–222. 10.1007/s11600-018-0121-6
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2018Model application 12
Wang, Jun; Endreny, Theodore A.; Hassett, James M.; 2005. A flexible modeling package for topographically based watershed hydrology. Journal of Hydrology, 314, 78–91. 10.1016/j.jhydrol.2005.03.030
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2005Model application 26
Saulnier, Georges-Marie; Beven, Keith; Obled, Charles; 1997. Digital elevation analysis for distributed hydrological modeling: Reducing scale dependence in effective hydraulic conductivity values. Water Resources Research, 33, 2097–2101. 10.1029/97WR00652
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1997Model application 49
Engel, V.C; Stieglitz, M; Williams, M; Griffin, K.L; 2002. Forest canopy hydraulic properties and catchment water balance: observations and modeling. Ecological Modelling, 154, 263–288. 10.1016/S0304-3800(02)00068-6
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2002Model application 41
Ludwig, R.; Taschner, S.; Mauser, W.; 2003. Modelling floods in the Ammer catchment: limitations and challenges with a coupled meteo-hydrological model approach. Hydrology and Earth System Sciences, 7, 833–847. 10.5194/hess-7-833-2003
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2003Model application 26
Pradhan, Nawa Raj; Ogden, Fred L.; Tachikawa, Yasuto; Takara, Kaoru; 2008. Scaling of slope, upslope area, and soil water deficit: Implications for transferability and regionalization in topographic index modeling: TOPOGRAPHIC INDEX MODELING. Water Resources Research, 44, . 10.1029/2007WR006667
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2008Model application 21
Gineste, Philippe; Puech, Christian; Mérot, Philippe; 1998. Radar remote sensing of the source areas from the Coët-Dan catchment. Hydrological Processes, 12, 267–284. 10.1002/(SICI)1099-1085(199802)12:23.0.CO;2-G
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1998Model application 33
Oudin, Ludovic; Andréassian, Vazken; Perrin, Charles; Anctil, François; 2004. Locating the sources of low-pass behavior within rainfall-runoff models: LOW-PASS BEHAVIOR OF RAINFALL-RUNOFF MODELS. Water Resources Research, 40, . 10.1029/2004WR003291
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2004Model application 41
Mendicino, Giuseppe; Sole, Aurelia; 1997. The information content theory for the estimation of the topographic index distribution used in TOPMODEL. Hydrological Processes, 11, 1099–1114. 10.1002/(SICI)1099-1085(199707)11:93.0.CO;2-F
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1997Model application 45
Gascoin, Simon; Ducharne, Agnès; Ribstein, Pierre; Carli, Marion; Habets, Florence; 2009. Adaptation of a catchment-based land surface model to the hydrogeological setting of the Somme River basin (France). Journal of Hydrology, 368, 105–116. 10.1016/j.jhydrol.2009.01.039
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2009Model application 32
Miller, Norman L.; Kim, Jinwon; Zhang, Jian Yun; Oh, Jai-Ho; 2001. Coupled Precipitation-Streamflow Simulations at the GAME/HUBEX Site: Sixian Basin.. Journal of the Meteorological Society of Japan, 79, 985–998. 10.2151/jmsj.79.985
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2001Model application 9
Huang, Jr-Chuan; Lin, Chun-Chiang; Chan, Shih-Chien; Lee, Tsung-Yu; Hsu, Shih-Chieh; Lee, Cheing-Tung; Lin, Jiun-Chuan; 2012. Stream discharge characteristics through urbanization gradient in Danshui River, Taiwan: perspectives from observation and simulation. Environmental Monitoring and Assessment, 184, 5689–5703. 10.1007/s10661-011-2374-2
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2012Model application 18
Calvetti, Leonardo; Pereira Filho, Augusto José; 2014. Ensemble Hydrometeorological Forecasts Using WRF Hourly QPF and TopModel for a Middle Watershed. Advances in Meteorology, 2014, 1–12. 10.1155/2014/484120
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2014Model application 21
Wolock, D. M.; Hornberger, G. M.; 1991. Hydrological effects of changes in levels of atmospheric carbon dioxide. Journal of Forecasting, 10, 105–116. 10.1002/for.3980100107
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1991Model application 49
Niedzialek, Justin M.; Ogden, Fred L.; 2004. Numerical investigation of saturated source area behavior at the small catchment scale. Advances in Water Resources, 27, 925–936. 10.1016/j.advwatres.2004.06.005
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2004Model application 22
Kumar, Praveen; Verdin, Kristine L.; Greenlee, Susan K.; 2000. Basin level statistical properties of topographic index for North America. Advances in Water Resources, 23, 571–578. 10.1016/S0309-1708(99)00049-4
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2000Model application 27
Wang, Jun; Endreny, Theodore A.; Hassett, James M.; 2006. Power function decay of hydraulic conductivity for a TOPMODEL-based infiltration routine. Hydrological Processes, 20, 3825–3834. 10.1002/hyp.6159
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2006Model application 25
Ren, Lei; Xue, Lian-qing; Liu, Yuan-hong; Shi, Jia; Han, Qiang; Yi, Peng-fei; 2017. Study on Variations in Climatic Variables and Their Influence on Runoff in the Manas River Basin, China. Water, 9, 258. 10.3390/w9040258
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2017Model application 14
Marsalek, Jiri; Watt, W. Ed; Zeman, Evzen; Sieker, Friedhelm; Todini, Ezio; 2000. Real-Time Flood Forecasting: Operational Experience and Recent Advances. In: (eds.)Flood Issues in Contemporary Water Management.. 261–270.
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2000Model application 13
Band, Lawrence E; Patterson, Pitman; Nemani, Ramakrishna; Running, Steven W; 1993. Forest ecosystem processes at the watershed scale: incorporating hillslope hydrology. Agricultural and Forest Meteorology, 63, 93–126. 10.1016/0168-1923(93)90024-C
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1993Model application 334
Zheng, Ziyan; Zhang, Wanchang; Xu, Jingwen; Zhao, Linna; Chen, Jing; Yan, Zhongwei; 2012. Numerical simulation and evaluation of a new hydrological model coupled with GRAPES. Acta Meteorologica Sinica, 26, 653–663. 10.1007/s13351-012-0509-1
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2012Model application 3
Xu, Qian; Chen, Ji; Peart, Mervyn R.; Ng, Cho-Nam; Hau, Billy C.H.; Law, Winnie W.Y.; 2018. Exploration of severities of rainfall and runoff extremes in ungauged catchments: A case study of Lai Chi Wo in Hong Kong, China. Science of The Total Environment, 634, 640–649. 10.1016/j.scitotenv.2018.04.024
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2018Model application 7
Palanisamy, Bakkiyalakshmi; Workman, Stephen R.; 2014. Observed hydrographs: on their ability to infer a time-invariant hydrological transfer function for flow prediction in ungauged basins: FLOW TRANSFERRING CHARACTERISTICS. Hydrological Processes, 28, 401–413. 10.1002/hyp.9583
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2014Model application 8
Gao, Jihui; Holden, Joseph; Kirkby, Mike; 2017. Modelling impacts of agricultural practice on flood peaks in upland catchments: An application of the distributed TOPMODEL. Hydrological Processes, 31, 4206–4216. 10.1002/hyp.11355
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2017Model application 13
Band, Lawrence E.; Wood, Eric F.; 1988. Strategies for large-scale, distributed hydrologic simulation. Applied Mathematics and Computation, 27, 23–37. 10.1016/0096-3003(88)90096-3
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1988Model application 37
Nourani, Vahid; Zanardo, Stefano; 2014. Wavelet-based regularization of the extracted topographic index from high-resolution topography for hydro-geomorphic applications: TOPOGRAPHY REGULARIZATION BY WAVELET TRANSFORM. Hydrological Processes, 28, 1345–1357. 10.1002/hyp.9665
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2014Model application 17
Durand, Patrick; Robson, Alice; Neal, Colin; 1992. Modelling the hydrology of submediterranean montane catchments (Mont-Lozère, France) using TOPMODEL: initial results. Journal of Hydrology, 139, 1–14. 10.1016/0022-1694(92)90191-W
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1992Model application 45
Rogelis, María Carolina; Werner, Micha; Obregón, Nelson; Wright, Nigel; 2016. Hydrological model assessment for flood early warning in a tropical high mountain basin. Hydrology and Earth System Sciences Discussions, , 1–36. 10.5194/hess-2016-30
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2016Model application 18
Zi-Yan, Zheng; Wan-Chang, Zhan; Jing-Wen, Xu; Zhong-Wei, Yan; Xue-Mei, Lu; 2011. Surface Soil Moisture Simulation for a Typical Torrential Event with a Modified Noah LSM Coupling to the NWP Model. Atmospheric and Oceanic Science Letters, 4, 18–23. 10.1080/16742834.2011.11446898
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2011Model application 0
Xu, Jingwen; Zhu, Xuemei; Zhang, Wanchang; Xu, Xiaoxun; Xian, Junren; 2009. Daily streamflow forecasting by Artificial Neural Network in a large-scale basin. . Volume .
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2009Model application 10
Iorgulescu, I.; Jordan, J.-P.; 1994. Validation of TOPMODEL on a small Swiss catchment. Journal of Hydrology, 159, 255–273. 10.1016/0022-1694(94)90260-7
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1994Model application 55
Whelan, M. J.; Gandolfi, C.; 2002. Modelling of spatial controls on denitrification at the landscape scale. Hydrological Processes, 16, 1437–1450. 10.1002/hyp.354
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2002Model application 32
Mulnaes, Daniel; Porta, Nicola; Clemens, Rebecca; Apanasenko, Irina; Reiners, Jens; Gremer, Lothar; Neudecker, Philipp; Smits, Sander H. J.; Gohlke, Holger; 2020. TopModel: Template-Based Protein Structure Prediction at Low Sequence Identity Using Top-Down Consensus and Deep Neural Networks. Journal of Chemical Theory and Computation, 16, 1953–1967. 10.1021/acs.jctc.9b00825
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2020Model application 14
Da Silva, Roberto Valmir; Yamashiki, Yosuke; Takara, Kaoru; 2011. EVALUATING A MULTI-VELOCITY HYDROLOGICAL PARAMETERIZATION IN THE AMAZON BASIN. Journal of Japan Society of Civil Engineers, Ser. B1 (Hydraulic Engineering), 67, I_49–I_54. 10.2208/jscejhe.67.I_49
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2011Model application 2
Wolock, D.M.; Hornberger, G.M.; Musgrove, T.J.; 1990. Topographic effects on flow path and surface water chemistry of the Llyn Brianne catchments in Wales. Journal of Hydrology, 115, 243–259. 10.1016/0022-1694(90)90207-E
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1990Model application 67
Taschner, S.; Ludwig, R.; Mauser, W.; 2001. Multi-scenario flood modeling in a mountain watershed using data from a NWP model, rain radar and rain gauges. Physics and Chemistry of the Earth, Part B: Hydrology, Oceans and Atmosphere, 26, 509–515. 10.1016/S1464-1909(01)00042-9
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2001Model application 12
Pavelková, Helena; Dohnal, Michal; Vogel, Tomáš; 2012. Hillslope Runoff Generation - Comparing Different Modeling Approaches. Journal of Hydrology and Hydromechanics, 60, . 10.2478/v10098-012-0007-2
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2012Model application 11
Gwak, Yong-Seok; Kim, Sang-Hyun; Lee, Yong-Woo; Khim, Boo-Keun; Hamm, Se-Yeong; Kim, Sung-Wok; 2014. Estimation of submarine groundwater discharge in the Il-Gwang watershed using water budget analysis and 222 Rn mass balance: ESTIMATION OF SUBMARINE GROUNDWATER. Hydrological Processes, 28, 3761–3775. 10.1002/hyp.9927
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2014Model application 9
Huang, J.-C.; Lee, T.-Y.; Kao, S.-J.; 2009. Simulating typhoon-induced storm hydrographs in subtropical mountainous watershed: an integrated 3-layer TOPMODEL. Hydrology and Earth System Sciences, 13, 27–40. 10.5194/hess-13-27-2009
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2009Model application 20
Oliver, Howard R.; Oliver, Sylvia A.; Todini, Ezio; 1995. New Trends in Modelling Soil Processes from Hillslope to GCM Scales. In: (eds.)The Role of Water and the Hydrological Cycle in Global Change.. 317–347.
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1995Model application 43
Pan, Feifei; King, Anthony W.; 2012. Downscaling 1-km Topographic Index Distributions to a Finer Resolution for the TOPMODEL-Based GCM Hydrological Modeling. Journal of Hydrologic Engineering, 17, 243–251. 10.1061/(ASCE)HE.1943-5584.0000438
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2012Model application 10
شکوهی, علیرضا; عزیزیان, اصغر; سلاورزی, نگین; سینگ, ویجی پی; 2018. . تحقیقات آب و خاک ایران, 49, . 10.22059/ijswr.2018.235721.667705
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2018Model application 0
Manandhar, Sujata; Pandey, Vishnu Prasad; Ishidaira, Hiroshi; Kazama, Futaba; 2013. Perturbation study of climate change impacts in a snow-fed river basin: HYDROLOGICAL RESPONES UNDER CLIMATE CHANGE IN KGRB. Hydrological Processes, 27, 3461–3474. 10.1002/hyp.9446
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2013Model application 12
Chang, Jianxia; Zhang, Hongxue; Wang, Yimin; Zhang, Lianpeng; 2017. Impact of climate change on runoff and uncertainty analysis. Natural Hazards, 88, 1113–1131. 10.1007/s11069-017-2909-0
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2017Model application 11
Scanlon, Todd M.; Kiely, Ger; Amboldi, Roberto; 2005. Model determination of non-point source phosphorus transport pathways in a fertilized grassland catchment. Hydrological Processes, 19, 2801–2814. 10.1002/hyp.5786
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2005Model application 22
Xiaoyang, Liu; Jietai, Mao; Yuanjing, Zhu; Jiren, Li; 2003. Runoff simulation using radar and rain gauge data. Advances in Atmospheric Sciences, 20, 213–218. 10.1007/s00376-003-0006-7
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2003Model application 9
Peng, Yong; Sun, Xinguo; Zhang, Xiaoli; Zhou, Huicheng; Zhang, Zixin; 2017. A Flood Forecasting Model that Considers the Impact of Hydraulic Projects by the Simulations of the Aggregate reservoir’s Retaining and Discharging. Water Resources Management, 31, 1031–1045. 10.1007/s11269-016-1562-9
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2017Model application 8
Huang, Bo; Li, Hongga; Chandramouli, Magesh; 2004. Real-Time Environmental Visualization with Web3D. Transportation Research Record: Journal of the Transportation Research Board, 1899, 181–187. 10.3141/1899-23
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2004Model application 3
Chairat, Sihem; Delleur, Jacques W.; 1993. EFFECTS OF THE TOPOGRAPHIC INDEX DISTRIBUTION ON PREDICTED RUNOFF USING GRASS. Journal of the American Water Resources Association, 29, 1029–1034. 10.1111/j.1752-1688.1993.tb03266.x
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1993Model application 26
Williamson, Tanja N.; Agouridis, Carmen T.; Barton, Christopher D.; Villines, Jonathan A.; Lant, Jeremiah G.; 2015. Classification of Ephemeral, Intermittent, and Perennial Stream Reaches Using a TOPMODEL-Based Approach. JAWRA Journal of the American Water Resources Association, 51, 1739–1759. 10.1111/1752-1688.12352
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2015Model application 16
Nachabe, Mahmood H.; 2006. EQUIVALENCE BETWEEN TOPMODEL AND THE NRCS CURVE NUMBER METHOD IN PREDICTING VARIABLE RUNOFF SOURCE AREAS. Journal of the American Water Resources Association, 42, 225–235. 10.1111/j.1752-1688.2006.tb03836.x
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2006Model application 14
Wolock, David M.; 1995. Effects of Subbasin Size on Topographic Characteristics and Simulated Flow Paths in Sleepers River Watershed, Vermont. Water Resources Research, 31, 1989–1997. 10.1029/95WR01183
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1995Model application 50
Robson, A.J.; Whitehead, P.G.; Johnson, R.C.; 1993. An application of a physically based semi-distributed model to the Balquhidder catchments. Journal of Hydrology, 145, 357–370. 10.1016/0022-1694(93)90063-F
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1993Model application 32
Sun, Wenchao; Wang, Jie; Li, Zhanjie; Yao, Xiaolei; Yu, Jingshan; 2014. Influences of Climate Change on Water Resources Availability in Jinjiang Basin, China. The Scientific World Journal, 2014, 1–7. 10.1155/2014/908349
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2014Model application 12
Valeo, C.; Moin, S. M. A.; 2000. Grid-resolution effects on a model for integrating urban and rural areas. Hydrological Processes, 14, 2505–2525. 10.1002/1099-1085(20001015)14:143.0.CO;2-3
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2000Model application 32
Xu, Jingwen; Zhang, Wanchang; 2008. A New Method of Obtaining Surface Runoff Parameters of SIMTOP from DEM. . Volume 2.
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2008Model application 0
Park, Daeryong; Fan, Huan-Jung; Zhu, Jun-Jie; Oh, Sang-Eun; Um, Myoung-Jin; Jung, Kichul; 2019. Evaluation of Reliable Digital Elevation Model Resolution for TOPMODEL in Two Mountainous Watersheds, South Korea. Applied Sciences, 9, 3690. 10.3390/app9183690
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2019Model application 2
Kim, J.; Miller, N.L.; Guetter, A.K.; Georgakakos, K.P.; 1998. River Flow Response to Precipitation and Snow Budget in California during the 1994/95 Winter. Journal of Climate, 11, 2376-2386. <2376:RFRTPA>2.0.CO;2 10.1175/1520-0442(1998)011<2376:RFRTPA>2.0.CO;2
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1998

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Ao, Tianqi; Takeuchi, Kuniyoshi; Ishidaira, Hiroshi; 2000. ON PROBLEMS AND SOLUTIONS OF THE MUSKINGUM-CUNGE ROUTING METHOD APPLIED TO A DISTRIBUTED RAINFALL RUNOFF MODEL. PROCEEDINGS OF HYDRAULIC ENGINEERING, 44, 139–144. 10.2208/prohe.44.139
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2000Model application 16
Peng, D.; Xu, Z.; Qiu, L.; Zhao, W.; 2016. Distributed rainfall-runoff simulation for an unclosed river basin with complex river system: a case study of lower reach of the Wei River, China: Rainfall-runoff simulation for unclosed river basin. Journal of Flood Risk Management, 9, 169–177. 10.1111/jfr3.12121
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2016Model application 5
Blyth, E. M.; Finch, J.; Robinson, M.; Rosier, P.; 2004. Can soil moisture be mapped onto the terrain?. Hydrology and Earth System Sciences, 8, 923–930. 10.5194/hess-8-923-2004
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2004Model application 25
Perera, Edangodage; Sayama, Takahiro; Magome, Jun; Hasegawa, Akira; Iwami, Yoichi; 2017. RCP8.5-Based Future Flood Hazard Analysis for the Lower Mekong River Basin. Hydrology, 4, 55. 10.3390/hydrology4040055
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2017Model application 12
Habets, F.; Saulnier, G.M.; 2001. Subgrid runoff parameterization. Physics and Chemistry of the Earth, Part B: Hydrology, Oceans and Atmosphere, 26, 455–459. 10.1016/S1464-1909(01)00034-X
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2001Model application 37
Silva, Roberto Valmir; Yamashiki, Yosuke; Takara, Kaoru; 2012. Constraining saturated hydraulic transmissivity values by means of maximum saturated area mapping and maximum subsurface discharge: long-term simulation in the Amazon basin: CONSTRAINING SATURATED HYDRAULIC TRANSMISSIVITY VALUES. Hydrological Processes, 26, 2501–2511. 10.1002/hyp.9343
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2012Model application 0
Siefert, Cesar Augusto Crovador; Santos, Irani dos; 2015. Identificação de áreas hidrologicamente sensíveis por meio de modelagem hidrológica e da distribuição espacial de solos e vegetação em ambientes hidromórficos. Sociedade &amp; Natureza, 27, 141–155. 10.1590/1982-451320150110
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2015Model application 2
Rode, M.; Lindenschmidt, K.-E.; 2001. Distributed sediment and phosporus transport modeling on a medium sized catchment in central germany. Physics and Chemistry of the Earth, Part B: Hydrology, Oceans and Atmosphere, 26, 635–640. 10.1016/S1464-1909(01)00061-2
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2001Model application 21
Sigdel, Abinashi; Jha, Raghunath; Bhatta, Dhruba; Abou-Shanab, Reda A.I.; Sapireddy, Veer Raghavulu; Jeon, Byong-Hun; 2011. Applicability of TOPMODEL in the Catchments of Nepal: Bagmati River Basin. Geosystem Engineering, 14, 181–190. 10.1080/12269328.2011.10541349
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2011Model application 6
Peng, Yong; Chu, Jinggang; Sun, Xinguo; Zhou, Huicheng; Zhang, Xiaoli; 2016. Flood forecasting that considers the impact of hydraulic projects by an improved TOPMODEL model in the Wudaogou basin, Northeast China. Water Supply, 16, 1467–1476. 10.2166/ws.2016.075
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2016Model application 3
Xu, Jing; Ren, Liliang; Yuan, Fei; Liu, Xiaofan; 2012. The solution to DEM resolution effects and parameter inconsistency by using scale-invariant TOPMODEL. Hydrology Research, 43, 146–155. 10.2166/nh.2011.130
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2012Model application 7
Kim, Sanghyun; Delleur, Jacques W.; 1997. Sensitivity analysis of extended TOPMODEL for agricultural watersheds equipped with tile drains. Hydrological Processes, 11, 1243–1261. 10.1002/(SICI)1099-1085(199707)11:93.0.CO;2-0
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1997Model application 18
Peng, Dingzhi; Chen, Ji; Fang, Jing; 2015. Simulation of Summer Hourly Stream Flow by Applying TOPMODEL and Two Routing Algorithms to the Sparsely Gauged Lhasa River Basin in China. Water, 7, 4041–4053. 10.3390/w7084041
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2015Model application 7
Balin Talamba, Daniela; Parent, Eric; Musy, André; 2010. Bayesian multiresponse calibration of TOPMODEL: Application to the Haute-Mentue catchment, Switzerland: BAYESIAN MULTIRESPONSE CALIBRATION OF TOPMODEL. Water Resources Research, 46, . 10.1029/2007WR006449
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2010Model application 15
Boston, Trevor; Xia, Jun; Zhu, Yizhong; 2004. Pre-processing rainfall data from multiple gauges to improve TOPMODEL simulation results in a large semi-arid region. Hydrological Processes, 18, 2313–2325. 10.1002/hyp.5530
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2004Model application 6
Coles, Neil A.; Sivapalan, Murugesu; Larsen, Jens E.; Linnet, Per E.; Fahrner, Christopher K.; 1997. Modelling Runoff Generation on Small Agricultural Catchments: Can Real World Runoff Responses Be Captured?. Hydrological Processes, 11, 111–136. 10.1002/(SICI)1099-1085(199702)11:23.0.CO;2-M
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1997Model application 34
Torma, Péter; Széles, Borbála; Hajnal, Géza; 2014. Applicability of Different Hydrological Model Concepts on Small Catchments: Case Study of Bükkös Creek, Hungary. Acta Silvatica et Lignaria Hungarica, 10, 77–90. 10.2478/aslh-2014-0006
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2014Model application 2
Huang, Jr-Chuan; Kao, Shuh-Ji; Lin, Chuan-Yao; Chang, Pao-Liang; Lee, Tsung-Yu; Li, Ming-Hsu; 2011. Effect of subsampling tropical cyclone rainfall on flood hydrograph response in a subtropical mountainous catchment. Journal of Hydrology, 409, 248–261. 10.1016/j.jhydrol.2011.08.037
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2011Model application 9
Tong, Qingxi; Wu, Huan; Yi, Yonghong; Chen, Xiuwan; Huang, Allen; Gao, Wei; 2005. HydroCA: a watershed routing model based on GIS and cellular automata. . Volume .
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2005Model application 3
Ekkawatpanit, Chaiwat; Kazama, So; Sawamoto, Masaki; Ranjan, Priyantha; 2009. Assessment of water conflict in Mae Chaem River Basin, Northern Thailand. Water International, 34, 242–263. 10.1080/02508060902895892
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2009Model application 7
Seegers, Lu; 2019. Germany’s next Topmodel: On the historical contexts of a talent show. International Journal of Fashion Studies, 6, 283–290. 10.1386/infs_00010_7
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2019Model application 0
Ducharne, A.; 2009. Reducing scale dependence in TOPMODEL using a dimensionless topographic index. Hydrology and Earth System Sciences, 13, 2399–2412. 10.5194/hess-13-2399-2009
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2009Model application 24
Chang, J.; Zhang, H.; Wang, Y.; Zhu, Y.; 2015. Assessing the impact of climate variability and human activity to streamflow variation. Hydrology and Earth System Sciences Discussions, 12, 5251–5291. 10.5194/hessd-12-5251-2015
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2015Model application 11
Liu, F. F.; Li, Y. P.; Huang, G. H.; Cui, L.; Liu, J.; 2016. Assessing Uncertainty in Hydrological Processes Using a Fuzzy Vertex Simulation Method. Journal of Hydrologic Engineering, 21, 05016002. 10.1061/(ASCE)HE.1943-5584.0001337
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2016Model application 3
Van Herpe, Y.; Troch, P.A.; Callewier, L.; Quinn, P.F.; 1998. Application of a conceptual catchment scale nitrate transport model on two rural river basins. Environmental Pollution, 102, 569–577. 10.1016/S0269-7491(98)80085-7
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1998Model application 14
Hossain, Faisal; Anagnostou, Emmanouil N.; 2005. Assessment of a stochastic interpolation based parameter sampling scheme for efficient uncertainty analyses of hydrologic models. Computers &amp; Geosciences, 31, 497–512. 10.1016/j.cageo.2004.11.001
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2005Model application 25
Valeo, Caterina; Moin, Syed M. A.; 2001. Hortonian and Variable Source Area Modeling in Urbanizing Basins. Journal of Hydrologic Engineering, 6, 328–335. 10.1061/(ASCE)1084-0699(2001)6:4(328)
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2001Model application 20
Ho, Jui-Yi; Lee, Kwan Tun; 2017. Performance evaluation of a physically based model for shallow landslide prediction. Landslides, 14, 961–980. 10.1007/s10346-016-0762-y
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2017Model application 10
Drover, D. R.; Jackson, C. R.; Bitew, M.; Du, E.; 2015. Effects of DEM scale on the spatial distribution of the TOPMODEL topographic wetness index and its correlations to watershed characteristics. Hydrology and Earth System Sciences Discussions, 12, 11817–11846. 10.5194/hessd-12-11817-2015
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2015Model application 7
Suliman, Ali H. Ahmed; Katimon, Ayob; Darus, Intan Zaurah Mat; Shahid, Shamsuddin; 2016. TOPMODEL for Streamflow Simulation of a Tropical Catchment Using Different Resolutions of ASTER DEM: Optimization Through Response Surface Methodology. Water Resources Management, 30, 3159–3173. 10.1007/s11269-016-1338-2
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2016Model application 10
Romanowicz, Renata; 1997. A MATLAB implementation of TOPMODEL. Hydrological Processes, 11, 1115–1129. 10.1002/(SICI)1099-1085(199707)11:93.0.CO;2-T
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1997Model application 24
Xu, Jingwen; Wu, Yanwen; Liu, Weidan; Zheng, Ziyuan; Zhang, Wanchang; Ning, Li; 2010. A new hybrid hydrologic model of XXT and artificial neural network for large-scale daily runoff modeling. . Volume .
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2010Model application 4
Azizian, Asghar; Shokoohi, Alireza; 2015. Investigation of the Effects of DEM Creation Methods on the Performance of a Semidistributed Model: TOPMODEL. Journal of Hydrologic Engineering, 20, 05015005. 10.1061/(ASCE)HE.1943-5584.0001204
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2015Model application 9
Tan, Y.; Li, X.; Yang, Z.; Huang, M.; 2011. The design and preliminary realized of DotTopModel based on WebService under B/S Architecture. . Volume .
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2011

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Wu, H.; Chen, X.; Zhang, X.; 2006. A Cellular Automata based Distributed Model for Simulating Runoff in LeAnhe Watershed. EEE International Symposium on Geoscience and Remote Sensing. Volume .
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2006

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3
Sahu, Netrananda; Singh, R.B.; Kumar, Pankaj; Silva, Roberto Valmir Da; Behera, Swadhin K.; 2013. La Niña Impacts on Austral Summer Extremely High-Streamflow Events of the Paranaíba River in Brazil. Advances in Meteorology, 2013, 1–6. 10.1155/2013/461693
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2013Model application 14
Ostendorf, Bertram; Manderscheid, Bernhard; 1997. Seasonal modelling of catchment water balance: A two-levle cascading modification of TOPMODEL to increase the realism of spatio-temporal processes. Hydrological Processes, 11, 1231–1242. 10.1002/(SICI)1099-1085(199707)11:93.0.CO;2-A
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1997Model application 18
Gupta, V. K.; Rodríguez-Iturbe, I.; Wood, E. F.; Kirkby, Mike; 1986. A Runoff Simulation Model Based on Hillslope Topography. In: (eds.)Scale Problems in Hydrology.. 39–56.
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1986Model application 26
Santos, Irani; 2008. Aplicação do TOPMODEL para determinação de áreas saturadas da bacia do rio Pequeno, São José dos Pinhais, PR, Brasil. Ambiente e Agua - An Interdisciplinary Journal of Applied Science, 3, 77–89. 10.4136/ambi-agua.54
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2008Model application 10
Wang, Peifa; Du, Jinkang; Feng, Xuezhi; Kang, Guoding; 2006. Effect of uncertainty of grid DEM on TOPMODEL: Evaluation and analysis. Chinese Geographical Science, 16, 320–326. 10.1007/s11769-006-0320-y
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2006Model application 7
Röser, Jutta; Thomas, Tanja; Peil, Corinna; 2010. Wissensordnungen im Alltag: Offerten eines populären Genres. In: (eds.)Alltag in den Medien – Medien im Alltag.. 25–47.
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2010Model application 8
Whelan, M.J.; Hope, E.G.; Fox, K.; 2002. Stochastic modelling of phosphorus transfers from agricultural land to aquatic ecosystems. Water Science and Technology, 45, 167–176. 10.2166/wst.2002.0231
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2002Model application 11
Wen, X; Hu, D; Cao, B; Shen, S; Tang, X; 2014. Dynamics Change of Honghu Lake's Water Surface Area and Its Driving Force Analysis Based on Remote Sensing Technique and TOPMODEL model. IOP Conference Series: Earth and Environmental Science, 17, 012130. 10.1088/1755-1315/17/1/012130
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2014Model application 6
Cameron, David; 2007. Flow, frequency, and uncertainty estimation for an extreme historical flood event in the Highlands of Scotland, UK. Hydrological Processes, 21, 1460–1470. 10.1002/hyp.6321
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2007Model application 13
Andersson, L.; Lepisto, A.; 1998. Links Between Runoff Generation, Climate and Nitrate-N Leaching from Forested Catchments. Water, Air, and Soil Pollution, 105, 227–237. 10.1023/A:1005093223246
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1998

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Lindenschmidt, Karl-Erich; Ollesch, Gregor; Rode, Michael; 2004. Physically-based hydrological modelling for non-point dissolved phosphorus transport in small and medium-sized river basins / Modélisation hydrologique à bases physiques et du transport de phosphore dissous diffus en bassins versants de petite et moyenne tailles. Hydrological Sciences Journal, 49, 10. 10.1623/hysj.49.3.495.54348
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2004Model application 23
Pradhan, Nawa Raj; Tachikawa, Yasuto; Takara, Kaoru; 2005. DEVELOPMENT OF A TRANSFERABLE HYDROLOGIC MODELING IN TOPMODEL FRAMEWORK ACROSS SCALE AND REGION. PROCEEDINGS OF HYDRAULIC ENGINEERING, 49, 217–222. 10.2208/prohe.49.217
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2005Model application 2
Peng, Dingzhi; Du, Yang; 2010. Comparative Analysis of Several Lhasa River Basin Flood Forecast Models in Yarlung Zangbo River. . Volume .
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2010Model application 9
Ostendorf, Bertram; 1996. Modeling the Influence of Hydrological Processes on Spatial and Temporal Patterns of CO 2 Soil Efflux from an Arctic Tundra Catchment. Arctic and Alpine Research, 28, 318. 10.2307/1552111
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1996Model application 28
Jankowfsky, Sonja; Hilberts, Arno; Mortgat, Christian; Li, Shuangcai; Xu, Na; Mei, Yi; Tillmanns, Stephan; Tian, Ye; Yang, Yang; Lang, M.; Klijn, F.; Samuels, P.; 2016. The RMS US inland flood model. E3S Web of Conferences, 7, 04014. 10.1051/e3sconf/20160704014
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2016Model application 2
Blazkova, Sarka D.; Blazek, Vladimir D.; Jansky, Bohumir; 2017. Continuous simulation for computing design hydrographs for water structures. Hydrological Processes, 31, 2320–2329. 10.1002/hyp.11204
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2017Model application 1
Siefert, Cesar Augusto Crovador; Santos, Irani; 2010. Áreas hidrologicamente sensíveis: teoria e aplicação para a bacia do rio Barigui, PR, Brasil. Ambiente e Agua - An Interdisciplinary Journal of Applied Science, 5, 61–76. 10.4136/ambi-agua.137
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2010Model application 2
Liu, S.; Tucker, P.; Mansell, M.; Hursthouse, A.; 2003. Application of a Water Quality Model in the White Cart Water Catchment, Glasgow, UK. Environmental Geochemistry and Health, 25, 57–62. 10.1023/A:1021244814337
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2003

Model application

3
Wickramaarachchi, T. N.; Ishidaira, H.; Wijayaratna, T. M. N.; 2013. Applicability of global public domain data versus local detailed data for distributed hydrological modelling: a study form Gin river basin Sri Lanka. Applied Water Science, 3, 545–557. 10.1007/s13201-013-0102-5
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2013Model application 3
Quinn, P. F.; Ostendorf, B.; Beven, K.; Tenhunen, J.; 1998. Spatial and temporal predictions of soil moisture patterns and evaporative losses using TOPMODEL and the GASFLUX model for an Alaskan catchment. Hydrology and Earth System Sciences, 2, 51–64. 10.5194/hess-2-51-1998
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1998Model application 22
Liu, Yanli; Zhang, Jianyun; Wang, Guoqing; Liu, Jiufu; He, Ruimin; Wang, Hongjie; Liu, Cuishan; Jin, Junliang; 2012. Quantifying uncertainty in catchment-scale runoff modeling under climate change (case of the Huaihe River, China). Quaternary International, 282, 130–136. 10.1016/j.quaint.2012.04.029
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2012Model application 12
Huang, J.-C.; Lee, T.-Y.; Lee, J.-Y.; Hsu, S.-C.; Kao, S.-J.; Chang, F.-J.; 2013. Assessing hydrological model behaviors by intercomparison of the simulated stream flow compositions: case study in a steep forest watershed in Taiwan. Hydrology and Earth System Sciences Discussions, 10, 855–893. 10.5194/hessd-10-855-2013
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2013Model application 2
Nawarathna, NMNS Bandara; Ishino, Kazuo; Tachikawa, Yasuto; Tamai, Nobuyuki; 2006. APPLICATION OF DISTRIBUTED HYDROLOGICAL MODEL TO ANALYZE BRIDGE-COLLAPSE SCENARIOS IN THE ASUWA RIVER 2004 FLOOD. PROCEEDINGS OF HYDRAULIC ENGINEERING, 50, 67–72. 10.2208/prohe.50.67
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2006Model application 1
Bartolozzi, Luigi; Bonini, Ilaria; Boretti, Renzo; Bussotti, Filippo; Cenni, Enrico; Chiarucci, Alessandro; Cozzi, Alberto; De Dominicis, Vincenzo; Ferretti, Marco; Grossoni, Paolo; Landi, Gianluca; Leonzio, Claudio; Vignozzi, Giovanni; 2002. Forest ecosystem monitoring in Tuscany (Italy): past activities, present status and future perspectives. Journal of Limnology, 61, 129. 10.4081/jlimnol.2002.s1.129
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2002Model application 7
Suliman, Ali H. Ahmed; Gumindoga, W.; Awchi, Taymoor A.; Katimon, Ayob; 2019. DEM resolution influences on peak flow prediction: a comparison of two different based DEMs through various rescaling techniques. Geocarto International, , 1–17. 10.1080/10106049.2019.1622599
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2019Model application 2
Hollanda, Maycon P.; Cecílio, Roberto A.; Campanharo, Wesley A.; Zanetti, Sidney S.; Andrade, Larice N. de; Garcia, Giovanni de O.; 2015. Avaliação do TOPMODEL na estimativa do escoamento superficial em microbacia hidrográfica em diferentes usos. Revista Brasileira de Engenharia Agrícola e Ambiental, 19, 489–496. 10.1590/1807-1929/agriambi.v19n5p489-496
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2015Model application 5
Li, Binquan; He, Yingqing; Ren, Liliang; 2018. Multisource hydrologic modeling uncertainty analysis using the IBUNE framework in a humid catchment. Stochastic Environmental Research and Risk Assessment, 32, 37–50. 10.1007/s00477-017-1424-x
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2018Model application 6
Dietterick, Brian C.; Lynch, James A.; Corbett, Edward S.; 1999. A CALIBRATION PROCEDURE USING TOPMODEL TO DETERMINE SUITABILITY FOR EVALUATING POTENTIAL CLIMATE CHANGE EFFECTS ON WATER YIELD 1. JAWRA Journal of the American Water Resources Association, 35, 457–468. 10.1111/j.1752-1688.1999.tb03603.x
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1999Model application 16
Pradhan, Nawa Raj; Ogden, Fred L.; 2010. Development of a one-parameter variable source area runoff model for ungauged basins. Advances in Water Resources, 33, 572–584. 10.1016/j.advwatres.2010.03.002
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2010Model application 12
Zhang, Hongxue; Chang, Jianxia; Zhang, Lianpeng; Wang, Yimin; Ming, Bo; 2019. Calibration and uncertainty analysis of a hydrological model based on cuckoo search and the M-GLUE method. Theoretical and Applied Climatology, 137, 165–176. 10.1007/s00704-018-2586-2
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2019Model application 1
Townsend, Philip A.; Walsh, Stephen J.; 1996. Estimation of Soil Parameters for Assessing Potential Wetness: Comparison of Model Responses Through Gis. Earth Surface Processes and Landforms, 21, 307–326. 10.1002/(SICI)1096-9837(199604)21:43.0.CO;2-M
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1996Model application 8
Röser, Jutta; Thomas, Tanja; Peil, Corinna; Klaus, Elisabeth; O’Connor, Barbara; 2010. Aushandlungsprozesse im Alltag: Jugendliche Fans von Castingshows. In: (eds.)Alltag in den Medien – Medien im Alltag.. 48–72.
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2010Model application 6
Chiang, Shen; Tachikawa, Yasuto; Takara, Kaoru; 2006. A PSEUDO VALIDATION ALGORITHM FOR HYDROLOGICAL MODEL RELIABILITY ASSESSMENT. PROCEEDINGS OF HYDRAULIC ENGINEERING, 50, 103–108. 10.2208/prohe.50.103
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2006Model application 1
Karalis, Sotirios; Karymbalis, Efthimios; Valkanou, Kanella; Chalkias, Christos; Katsafados, Petros; Kalogeropoulos, Kleomenis; Batzakis, Vasileios; Bofilios, Antonios; 2014. Assessment of the Relationships among Catchments’ Morphometric Parameters and Hydrologic Indices. International Journal of Geosciences, 5, 1571–1583. 10.4236/ijg.2014.513128
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2014Model application 14
Bütow, Birgit; Kahl, Ramona; Stach, Anna; 2013. Einübung eines kritischen Blicks auf den weiblichen Körper – Die Sendung Germany’s next Topmodel und ihre Bedeutung für die Körpersozialisation junger Frauen und Männer. In: (eds.)Körper • Geschlecht • Affekt.. 117–135.
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2013Model application 5
Liu, Shuang; Xu, Jing Wen; Zhao, Jun Fang; Hou, Peng; 2013. Applicability of Modified TOPMODEL in the Arid Zone and the Humid Zone. Applied Mechanics and Materials, 423, 1418–1421. 10.4028/www.scientific.net/AMM.423-426.1418
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2013Model application 2
Bhaskar, Nageshwar R.; Brummett, Laura K.; French, Mark N.; 2005. RUNOFF MODELING OF A MOUNTAINOUS CATCHMENT USING TOPMODEL: A CASE STUDY. Journal of the American Water Resources Association, 41, 107–121. 10.1111/j.1752-1688.2005.tb03721.x
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2005Model application 8
Pishvaei, M. H.; Sabzevari, T.; Noroozpour, S.; Mohammadpour, R.; 2020. Effects of hillslope geometry on spatial infiltration using the TOPMODEL and SCS-CN models. Hydrological Sciences Journal, 65, 212–226. 10.1080/02626667.2019.1686636
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2020Model application 2
Tyler, A.N.; Heal, K.V.; 2000. Predicting Areas of 137Cs Loss and Accumulation in Upland Catchments. Water, Air, and Soil Pollution, 121, 271–288. 10.1023/A:1005219009425
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2000

Model application

13
Zhang, Hongbo; Ao, Tianqi; Gusyev, Maksym; Ishidaira, Hiroshi; Magome, Jun; Takeuchi, Kuniyoshi; 2018. Distributed source pollutant transport module based on BTOPMC: a case study of the Laixi River basin in the Sichuan province of southwest China. Proceedings of the International Association of Hydrological Sciences, 379, 323–333. 10.5194/piahs-379-323-2018
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2018Model application 2
Suliman, Ali H. Ahmed; Darus, Intan Z. M.; Katimon, Ayob Bin; 2017. GIS-Based Rainfall-Runoff Neuro Model for Streamflow Prediction. International Review of Civil Engineering (IRECE), 8, 235. 10.15866/irece.v8i5.12104
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2017Model application 2
Wolock, D.M.; 2003. Infiltration-Excess Overland Flow Estimated by TOPMODEL for the Conterminous United States. Open file report.
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2003

Model application

14
Nystrom, E.A.; Burns, D.A.; 2011. TOPMODEL simulations of streamflow and depth to water table in Fishing Brook Watershed, New York, 2007-09. Scientific Investigations Report, 2011-5190, 54 p.. 10.3133/sir20115190
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2011

Model application

4
Kim, S. H.; Delleur, J. W.; 2001. Stochastic structures between quantity and quality responses of rainfall-runoff at an upland agricultural watershed. Water Science and Technology, 44, 91–104. 10.2166/wst.2001.0398
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2001Model application 2
Wang, P.; Du, J.; Feng, X.; Hu, S.; 2006. Effect of DEM Uncertainty on the Distributed Hydrological Model TOPMODEL. . Volume .
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2006Model application 2
Wimmer-Puchinger, Beate; Gutiérrez-Lobos, Karin; Riecher-Rössler, Anita; Borkenhagen, Ada; 2016. Das weibliche Genitale als öffentlicher Ort!?. In: (eds.)Irrsinnig weiblich - Psychische Krisen im Frauenleben.. 45–53.
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2016Model application 1
Guzha, A.C.; 2013. Modelling the interaction of surface and subsurface water flow by linking TOPMODEL and MODFLOW. International Journal of Water, 7, 191. 10.1504/IJW.2013.054874
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2013Model application 0
Suliman, Ali H. Ahmed; Darus, Intan Zaurah Mat; 2019. SEMI-DISTRIBUTED NEURAL NETWORK MODELS FOR STREAMFLOW PREDICTION IN A SMALL CATCHMENT PINANG. Environmental Engineering and Management Journal, 18, 535–544. 10.30638/eemj.2019.050
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2019Model application 3
Ranzini, Maurício; 2002. Modelagem hidrológica de uma microbacia florestada da Serra do Mar, SP, com o modelo TOPMODEL : simulação do comportamento hidrológico em função do corte raso. , , .
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2002Model application 8
Xu, Jing Wen; Zhao, Jun Fang; Wang, Peng; Liu, Shuang; 2013. Soil Moisture Prediction for Huaihe River Basin Using Hydrological Model XXT and TOPMODEL. Applied Mechanics and Materials, 433, 1817–1820. 10.4028/www.scientific.net/AMM.433-435.1817
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2013Model application 1
NAWARATHNA, NMNS Bandara; KAZAMA, So; SAWAIVIOTO, Masaki; TAKARA, Kaoru; 2004. METHOD TO DELINEATE BLOCKS IN BTOPMC MODEL FOR LARGE SCALE WATERSHEDS. PROCEEDINGS OF HYDRAULIC ENGINEERING, 48, 61-66. 10.2208/prohe.48.61
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2004Model application 1
Higy, C.; Musy, A.; 2000. Digital terrain analysis of the Haute-Mentue catchment an scale effect for hydrological modelling with TOPMODEL. Hydrology and Earth System Sciences, 4, 225–237. 10.5194/hess-4-225-2000
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2000Model application 12
Azizian, Asghar; Shokoohi, Alireza; 2019. Development of a new method for estimating SCS curve number using TOPMODEL concept of wetness index (case study: Kasilian and Jong watersheds, Iran). Acta Geophysica, 67, 1163–1177. 10.1007/s11600-019-00297-z
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2019Model application 3
Kobiyama, Masato; Silva, Roberto; 2007. Estudo Comparativo de Três Formulações do TOPMODEL na Bacia do Rio Pequeno, São José dos Pinhais, PR. Revista Brasileira de Recursos Hídricos, 12, 93–105. 10.21168/rbrh.v12n2.p93-105
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2007Model application 6
Röser, Jutta; Thomas, Tanja; Peil, Corinna; Knop, Karin; Petsch, Tanja; 2010. „Initiative für wahre Schönheit“ – Die Rückkehr des Alltagskörpers in die idealisierte Körperwelt der Werbung. In: (eds.)Alltag in den Medien – Medien im Alltag.. 119–137.
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2010Model application 3
Liu, Zhi-Jun; Weller, Donald E.; Jordan, Thomas E.; Correll, David L.; Boomer, Kathleen B.; 2008. Integrated Modular Modeling of Water and Nutrients From Point and Nonpoint Sources in the Patuxent River Watershed. Journal of the American Water Resources Association, 44, 700–723. 10.1111/j.1752-1688.2008.00200.x
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2008Model application 8
Li, Tingting; Zhang, Qing; Cheng, Zhigang; Ma, Zhenfeng; Liu, Jia; Luo, Yu; Xu, Jingjing; Wang, Guocheng; Zhang, Wen; 2016. Modeling CH4 Emissions from Natural Wetlands on the Tibetan Plateau over the Past 60 Years: Influence of Climate Change and Wetland Loss. Atmosphere, 7, 90. 10.3390/atmos7070090
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2016Model application 6
Jr-Chuan Huang; Shuh-Ji Kao; Kang-Tsung Chang; Chuan-Yao Li; Pao-Liang Chang 2008. Cost-effective raingauge deployment and rainfall heterogeneity effect on hydrograph simulation in mountainous watersheds. Hydrology and Earth System Sciences Discussions, 5, 2169–2197. 10.5194/hessd-5-2169-2008
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2008

Model application

3
Cho, Huidae; Park, Jeongha; Kim, Dongkyun; 2019. Evaluation of Four GLUE Likelihood Measures and Behavior of Large Parameter Samples in ISPSO-GLUE for TOPMODEL. Water, 11, 447. 10.3390/w11030447
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2019Model application 4
Campana, Néstor; Varella, Renato; 2000. SIMULAÇÃO MATEMÁTICA DO PROCESSO DE TRANSFORMAÇÃO DE CHUVA EM VAZÃO: ESTUDO DO MODELO TOPMODEL. Revista Brasileira de Recursos Hídricos, 5, 121–139. 10.21168/rbrh.v5n4.p121-139
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2000Model application 8
Xu, Jingwen; Wu, Yanwen; Xie, Xingmei; Xian, Junren; Zhang, Wanchang; Shen, Lan; 2010. Integration of ANN with TOPMODEL in daily stream flow forecasting. . Volume .
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2010Model application 1
Deg-Hyo, B.; Jin-Hoon, K.; 2006. 확률론적 중장기 댐 유입량 예측 (I) 장기유출 해석. Journal of Korea Water Resources Association, 39, 261–274. 10.3741/JKWRA.2006.39.3.261
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2006

Model application

2
Liu, Shuang; Xu, Jing Wen; Zhao, Jun Fang; Li, Yong; 2013. A Novel Integrated Rainfall-Runoff Model Based on TOPMODEL and Artificial Neural Network. Applied Mechanics and Materials, 423, 1405–1408. 10.4028/www.scientific.net/AMM.423-426.1405
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2013Model application 1
Zhang, Changkuan; Tang, Hongwu; Li, Yanqiu; Chen, Ji; Peart, Mervyn; Sun, Liqun; Lok, WingKan; 2009. Flash Flood Hydarologic Processes of a Small Headwater Catchment in Hong Kong. In: (eds.)Advances in Water Resources and Hydraulic Engineering.. 66–71.
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2009Model application 3
Schuler, Azeneth; Moraes, Jorge; Groppo, Juliano; Martinelli, Luiz; Milde, Luiz; Calijuri, Maria; Victoria, Reynaldo; 2000. ANÁLISE DA REPRESENTATIVIDADE FÍSICA DOS PARÂMETROS DO TOPMODEL EM UMA BACIA DE MESO ESCALA LOCALIZADA NAS CABECEIRAS DO RIO CORUMBATAÍ, SÃO PAULO.. Revista Brasileira de Recursos Hídricos, 5, 5–25. 10.21168/rbrh.v5n2.p5-25
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2000Model application 9
Hishinuma, Shiro; Takeuchi, Kuniyoshi; Magome, Jun; 2014. Challenges of hydrological analysis for water resource development in semi-arid mountainous regions: case study in Iran. Hydrological Sciences Journal, 59, 1718–1737. 10.1080/02626667.2013.853879
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2014Model application 6
Mine, Miriam; Clarke, Robin; 1996. O uso do TOPMODEL em condições brasileiras: resultado preliminar. Revista Brasileira de Recursos Hídricos, 1, 89–105. 10.21168/rbrh.v1n2.p89-105
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1996Model application 14
Martin, Eric; Ducrocq, Véronique; Joly, Alain; Joly, Bruno; Nuissier, Olivier; Quintana-Seguí, Pere; Ricard, Didier; Sevault, Florence; Somot, Samuel; Drobinski, Philippe; 2007. La Méditerranée, région témoin : de Cyprim à Hymex. La Houille Blanche, , 90–96. 10.1051/lhb:2007088
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2007Model application 1
Lantzsch, Katja; Altmeppen, Klaus-Dieter; Will, Andreas; Nieland, Jörg-Uwe; 2010. Kult-Marketing revisited. Glanz, Elend und Kritik unterhaltender Fernsehproduktionen. In: (eds.)Handbuch Unterhaltungsproduktion.. 289–302.
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2010Model application 2
Miller, N.L.; 1996. Simulating winds and floods-regional weather-river prediction and regional climate research. IEEE Potentials, 15, 17–19. 10.1109/45.539959
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1996

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4
Silva, Roberto Valmir da; Kobiyama, Masato; 2007. TOPMODEL: TEORIA INTEGRADA E REVISÃO. Raega - O Espaço Geográfico em Análise, 14, . 10.5380/raega.v14i0.7787
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2007Model application 3
Qin, Fen; 2007. High-resolution DEM extraction and its application in distributed hydrological model. . Volume .
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2007Model application 1
Nawarathna, NMNS Bandara; Kazama, So; Sawamoto, Masaki; 2002. EVALUATION OF RESERVOIR AND IRRIGATION EFFECT ON RUNOFF SIMULATIONS IN THE MEKONG RIVER BASIN. PROCEEDINGS OF HYDRAULIC ENGINEERING, 46, 289–294. 10.2208/prohe.46.289
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2002Model application 0
Chen, Zhijing; Li, Lan; Bakir, Mohamad; 2011. Application of improved TOPMODEL in rainstorm region. . Volume .
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2011Model application 1
Deng, P.; Li, Z.; Xie, F.; 2015. TOPMODEL在珠江流域布柳河流域的应用及其与新安江模型的比较. 湖泊科学, 21, 441–444. 10.18307/2009.0320
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2015

Model application

5
Lee, Byong-Ju; Kim, Sangil; 2019. Gridded Flash Flood Risk Index Coupling Statistical Approaches and TOPLATS Land Surface Model for Mountainous Areas. Water, 11, 504. 10.3390/w11030504
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2019Model application 6
Guangshu, Zhuang; Lan, Li; 2011. Research on runoff simulation of TOPMODEL based on grid size. . Volume .
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2011Model application 0
Ferguson, Charles; Fenner, Richard; 2020. Research Data Supporting: Evaluating the effectiveness of catchment-scale approaches in mitigating urban surface water flooding. , , .
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2020Model application 4
Arenas-Bautista, Maria Cristina; Arboleda-Obando, Pedro F.; Duque-Gardeazabal, Nicolas; Saavedra-Cifuentes, Edwin; Donado, Leonardo D.; 2018. Hydrological Modeling in Tropical Regions via TopModel. Study Case: Central Sector of the Middle Magdalena Valley - Colombia. .
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2018Model application 3
Huidae, C.; Dongkyun, K.; Kanghee, L.; 2014. 입자군집최적화 알고리듬을 이용한 효율적인 TOPMODEL의 불확실도 분석. Journal of Korea Water Resources Association, 47, 285–295. 10.3741/JKWRA.2014.47.3.285
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2014

Model application

2
Wolock, D.M.; 2003. Saturation overland flow estimated from TOPMODEL for the conterminous United States. Open file report, 2003-264, . 10.3133/OFR03264
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2003

Model application

4
Zhu, Dehua; Peng, Dingzhi; 2010. Notice of Retraction: Comparison of the hydrological models in the Upper Medway Catchment, UK. . Volume .
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2010Model application 0
Shaman, Jeffrey; Stieglitz, Marc; Zebiak, Stephen; Cane, Mark; Day, Jonathan F.; 2003. A Local Forecast of Land Surface Wetness Conditions, Drought, and St. Louis Encephalitis Transmission Derived from Seasonal Climate Predictions. . Volume .
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2003Model application 0
Shrestha, Sangam; Dulal, Khada Nanda; Bastola, Satish; Ishidaira, Hiroshi; Kazama, Futaba; Takeuchi, Kuniyoshi; 2007. THE ASSESSMENT OF SPATIAL TRANSFERABILITY OF A DISTRIBUTED HYDROLOGICAL MODEL PARAMETERS IN DIFFERENT PHYSIOGRAPHIC REGIONS OF NEPAL. PROCEEDINGS OF HYDRAULIC ENGINEERING, 51, 37–42. 10.2208/prohe.51.37
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2007Model application 1
Hung, Marcelo Ng Wei Ban; Siefert, Cesar Augusto Crovador; Santos, Irani Dos; 2017. SIMULAÇÃO HIDROGEOMORFOLÓGICA DA DINÂMICA DAS ÁREAS SATURADAS DA BACIA DO RIO CORREDEIRAS, RIO NEGRINHO - SC. Raega - O Espaço Geográfico em Análise, 41, 208. 10.5380/raega.v41i0.52423
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2017Model application 0
Ling, Feng; Gong, Jianya; Zhang, Jingxiong; Zhang, Qiu-wen; Wang, Cheng; 2006. Distributed hydrological modeling with GIS and remote sensing datasets: a case study in Qingjiang River basin, China. . Volume .
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2006Model application 0
Ao, Tianqi; Yoshitani, Junichi; Fukami, Kazuhiko; Matsuura, Tadashi; Takeuchi, Kuniyoshi; Ishidaira, Hiroshi; 2003. TOPOGRAPHIC ANALYSIS FOR DISTRIBUTED RUNOFF MODEL BTOPMC WHEN APPLIED TO LARGE RIVER BASINS. PROCEEDINGS OF HYDRAULIC ENGINEERING, 47, 193–198. 10.2208/prohe.47.193
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2003Model application 2
Ferguson, Charlie; Fenner, Richard; 2019. COUPLING DYNAMIC TOPMODEL AND HEC-RAS TO EVALUATE CATCHMENTSCALE NATURAL FLOOD MANAGEMENT IN THE UPPER CALDER. . Volume .
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2019Model application 1
Tanaka, Kenji; Yoshida, Koshi; Maeda, Shigeya; Kuroda, Hisao; 2016. RICE HARVESTED AREA ESTIMATION MODEL FOR RAIN-FED PADDY IN MEKONG RIVER BASIN. Jurnal Teknologi, 78, . 10.11113/jt.v78.7257
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2016Model application 1
Ducharne, A.; 2009. Explicitation of an important scale dependence in TOPMODEL using a dimensionless topographic index. Hydrology and Earth System Sciences Discussions, 6, 1621–1649. 10.5194/hessd-6-1621-2009
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2009Model application 3
Gineste, P.; 2000. Contribution des images radar ERS à la modélisation hydrologique du Coët-Dan par TopModel. La Houille Blanche, , 76–81. 10.1051/lhb/2000078
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2000Model application 0
Masutani, Keiichi; Magome, Jun; 2013. Runoff Analysis with DEM Scale Independent TOPMODEL. JOURNAL OF JAPAN SOCIETY OF HYDROLOGY AND WATER RESOURCES, 26, 26–37. 10.3178/jjshwr.26.26
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2013Model application 1
Tada, Akio; Namihira, Atsushi; Tanakamaru, Haruya; Hata, Takeshi; 2002. Application of TOPMODEL to Long- and Short-term Runoff of Small Forested Catchment. Comparison with Long- and Short-Term Runoff Model.. Journal of Japan Society of Hydrology and Water Resources, 15, 399–412. 10.3178/jjshwr.15.399
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2002Model application 4
Balin, Daniela; 2004. Hydrological behaviour through experimental and modelling approaches: application to the Haute-Mentue catchment. , , .
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2004Model application 8
Zhang, Yaonan; Long, Yingpin; Zhao, Guohui; Min, Yufang; Kang, Jianfang; Luo, Lihui; He, Zhenfang; Wang, Yang; 2013. An e-Science Environment for Ecological and Hydrological Simulation Research. . Volume .
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2013Model application 1
Gascuel-Odoux, C.; Merot, P.; Durand, P.; Molenat, J.; 1999. Genèse des crues normales dans les petits bassins versants ruraux. La Houille Blanche, , 54–60. 10.1051/lhb/1999082
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1999Model application 3
Shrestha, Sangam; 2014. Assessment of Climate Change Impacts on Flood Hazard Potential in the Yang River Basin, Thailand. In: (eds.)Climate Change Impacts and Adaptation in Water Resources and Water Use Sectors.. 43–66.
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2014Model application 0
Kim, S.; Delleur, J.W.; Mitchell, J.K.; Engel, B.E.; Walker, S.E.; 1999. SIMULATION OF RUNOFF IN AGRICULTURALWATERSHEDS WITH TILE DRAINS USING AN EXTENDED TOPMODEL. Transactions of the ASAE, 42, 639–650. 10.13031/2013.13225
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1999

Model application

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Xu, Jingwen; Wu, Yanwen; Liu, Yonghe; Zhao, Junfang; Tang, Tian; Xie, Xingmei; 2010. Improving TOPMODEL performance in rainfall-runoff simulating based on ANN. . Volume .
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2010Model application 1
Jie, Feng; Hehai, Xie; Liting, Cheng; 2009. The Research of TOPMODEL Based on Subbasin. . Volume 1.
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2009Model application 0
Moreau, R.; Saul, A. J.; Borga, M.; Di Luzio, M.; 1992. Sensitivity of a Semidistributed Hydrologic Model to Rainfall Estimation Accuracy. In: (eds.)Floods and Flood Management.. 157–168.
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1992Model application 1
Li, Daoliang; Liu, Yande; Chen, Yingyi; Sun, Jinping; Liang, Yong; Yan, Qin; Zhang, Chengming; 2011. Study on the Parameters’ Acquisition Method of Distributed Hydrological Model Based on RS. In: (eds.)Computer and Computing Technologies in Agriculture IV.. 452–463.
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2011Model application 0
Xu, Jingwen; Zhang, Wanchang; Zhao, Junfang; 2009. Stream Flow Forecasting by Artificial Neural Network and TOPMODEL in Baohe River Basin. . Volume .
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2009Model application 5
Sung-Jun, K.; Young-Gi, P.; 2011. 미계측유역에 대한 TOPMODEL의 적용성 평가. 한국산학기술학회논문지, 12, 1458–1464. 10.5762/KAIS.2011.12.3.1458
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2011

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Klug, Daniel; Schmidt, Axel; 2018. How Reality TV Demands the Body. Eliciting and Exploiting Emotions in the Staging of Self-Overcoming in Germany's Next Top Model. , , . 10.13140/RG.2.2.29658.24000
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2018Model application 0
Zhu, Xuemei; Peng, Wei; Xu, Jingwen; Yang, Yuanxiang; 2009. Simulating the Soil Moisture and Runoff in Baohe Catchment Based on TOPMODEL and DEM. . Volume .
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2009Model application 1
Bian, Fuling; Xie, Yichun; Cui, Xiaohui; Zeng, Yixin; Tang, Jiafa; 2013. The Analysis of the Initiation Conditions of the Debris Flow in the Jiangjia Ravine Based on the Simulation of the Hydrology Response. In: (eds.)Geo-Informatics in Resource Management and Sustainable Ecosystem.. 1–11.
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2013Model application 1
Calvetti, Leonardo; 2011. Previsão hidrometeorológica probabilística na Bacia do Alto Iguaçu-PR com os modelos WRF e TopModel. , , .
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2011Model application 1
Baader, Meike Sophia; Bilstein, Johannes; Tholen, Toni; Stach, Anna; 2012. Männliche Selbstinszenierungen im Gespräch über Germany’s Next Topmodel – Ergebnisse einer tiefenhermeneutischen Rezeptionsstudie mit Jugendlichen. In: (eds.)Erziehung, Bildung und Geschlecht.. 191–204.
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2012Model application 1
Obled, Charles; Zin, Isabella; 2004. TOPMODEL : principes de fonctionnement et application. La Houille Blanche, , 65–77. 10.1051/lhb:200401009
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2004Model application 5
Guangshu, Zhuang; Liliang, Ren; 2011. Study of small basin flood forecast using distributed hydrological model. . Volume .
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2011Model application 0
Masutani, Keiichi; Magome, Jun; 2011. A measure to cope with DEM scale dependence of topographic index within TOPMODEL. Theory and Applications of GIS, 19, 91–101. 10.5638/thagis.19.91
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2011Model application 0
Li, Xianghu; Ren, Liliang; 2007. Effect of temporal resolution of NDVI on potential evapotranspiration estimation and hydrological model performance. Chinese Geographical Science, 17, 357–363. 10.1007/s11769-007-0363-6
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2007Model application 1
Wang, H.; Wang, J.; Xing, C.; Yu, F.; 2010. Optimization of topographic index computation. . Volume .
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2010

Model application

0
江, 申; 立川, 康人; プラダン, ナワラジ; 寶, 馨; 2006. Blind Simulation and Validation in Mae Chaem Basin -an Approach by Applying TOPMODEL, Downscaled Topographic Index Distribution and Pseudo Validation Algorithm. , , . 10.11520/jshwr.19.0.59.0
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2006Model application 0
Antonino, Antônio; Saulnier, Georges-Marie; Cabral, Jaime; Filho, Paulo; 2005. Modelagem Hidrológica da Bacia do Riacho Gameleira (Pernambuco) Utilizando TOPSIMPL, uma Versão Simplificada do Modelo TOPMODEL. Revista Brasileira de Recursos Hídricos, 10, 61–72. 10.21168/rbrh.v10n2.p61-72
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2005Model application 1
Datin, Rachel; 1999. Développement d'outils opérationnels pour la prévision des crues rapides. Prise en compte de la variabilité spatiale de la pluie dans TOPMODEL. La Houille Blanche, , 13–20. 10.1051/lhb/1999076
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1999Model application 2
Götz, Maya; 2018. Der Gedanke, „zu dick zu sein“ – Fernsehen und seine Bedeutung für das Körperempfinden von Mädchen. Haushalt in Bildung und Forschung, 7, 75–89. 10.3224/hibifo.v7i2.06
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2018Model application 0
Mäkiranta, Mari; 2013. TOPmodels and top designers: Forms of social interaction and creativity in the TOPmodel online forums. CM - casopis za upravljanje komuniciranjem, 8, 61–78. 10.5937/comman1329061M
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2013Model application 0
Schmidt, Holger J.; Baumgarth, Carsten; Emes, Jutta; Best, Sabine; 2015. Prominente als Multiplikatoren programmintegrierter Markenkommunikation. In: (eds.)Forum Markenforschung.. 119–134.
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2015Model application 0
Anquetin, Sandrine; Ducrocq, Véronique; Saulnier, Georges-Marie; Ricard, Didier; 2002. Simulation à haute résolution des épisodes convectifs et impacts hydrologiques sur la région Cévennes - Vivarais. La Houille Blanche, , 40–45. 10.1051/lhb/2002105
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2002Model application 2
Singh, Vijay P.; Fiorentino, M.; Colosimo, C.; Mendicino, G.; 1996. GIS for Distributed Rainfall — Runoff Modeling. In: (eds.)Geographical Information Systems in Hydrology.. 195–235.
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1996Model application 3
Zhenchun, Hao; Hehai, Xie; Jie, Feng; 2008. Impact of Spatial Resolution of DEM on TOPMODEL. . Volume .
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2008Model application 1
Huston, Michael A.; Fontaine, Thomas A.; 1994. PREDICTING TEMPORAL AND SPATIAL FLOOD DYNAMICS USING A PRECALIBRATED MODEL. Journal of the American Water Resources Association, 30, 651–661. 10.1111/j.1752-1688.1994.tb03320.x
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1994Model application 3
Mukae, Kosuke; Miwa, Koji; Okazawa, Hiromu; Fujikawa, Tomonori; 2018. ECOSYSTEM SERVICE ASSESSMENT IN AGRICULTURAL WATERSHED BY USING TOPMODEL. AGROFOR, 2, . 10.7251/AGRENG1703027F
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2018Model application 1
Deg-Hyo, B.; Jin-Hoon, K.; 2005. 준분포형 TOPMODEL 개발. Journal of Korea Water Resources Association, 38, 895–906. 10.3741/JKWRA.2005.38.10.895
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2005

Model application

0
Thi Thanh Hang, Phan; 2019. Applying the Distributed Hydrological Model for Tropical Monsoon Basins by Using Earth Observation Data (Case Studies: Kone and Ba River Basins). Journal of Geoscience and Environment Protection, 7, 23–37. 10.4236/gep.2019.71003
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2019Model application 0
Melesse, A.M.; Graham, W.D.; Jordan, J.D.; 2002. DEM-GIS Based Spatially Distributed Storm Runoff Response Study Using Remotely-sensed Data. . Volume .
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2002

Model application

0
Götz, Maya; 2016. Super dünn, super sexy und zu allem bereit. Die Hypersexualisierung im Kinder- und Jugendfernsehen und ihre Folgen. Communicatio Socialis, 49, 258–268. 10.5771/0010-3497-2016-3-258
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2016Model application 0
Loewen, André Ricardo; Pinheiro, Adilson; 2017. Overland flow generation mechanisms in the Concórdia River basin, in southern Brazil. RBRH, 22, . 10.1590/2318-0331.011716026
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2017Model application 3
姚, 亦周; 2017. Comparative Study of Flood Forecasting Models at Chengpo River Basin. Journal of Water Resources Research, 6, 55–65. 10.12677/JWRR.2017.61008
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2017Model application 0
Holtz-Bacha, Christina; Koch, Thomas; Hofer, Lutz; 2011. Immer schlanker und kranker? Models in der Werbung. In: (eds.)Stereotype?.. 233–259.
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2011Model application 1
Brandt, Stefanie; Eckhardt, Sabine; 2011. PRAXIS: „Germany’s next Topmodel“ - eine crossmediale Erfolgsgeschichte. In: (eds.)Marketinghandbuch Licensing.. 234–239.
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2011Model application 0
Maas, J.; 2016. Grass_Topmodel_R: New Release With Some Updates To Readme.Txt File. , , https://zenodo.org/record/61708.
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2016

Source code ref.

0
Kyung-Hyun, K.; Hak-Su, L.; Won, K.; Sung-Won, J.; Sang-Hyun, K.; 2002. TOPMODEL 유출계산에서 시간 스케일에 대한 영향 분석. Journal of Korea Water Resources Association, 35, 125–136. 10.3741/JKWRA.2002.35.2.125
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2002

Model application

0
Shrestha, S.; Kazama, F.; 2006. An export coefficient modeling approach to estimate organic matter and nutrient loadings from point and non point sources into the Fuji river, Japan. Proceedings of the Symposium on Global Environment, 14, 21–26. 10.2208/proge.14.21
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2006Model application 2
郭, 生练; 2014. Comparative Study of Hydrological Models in the Poyang Lake Basin. Journal of Water Resources Research, 3, 486–493. 10.12677/JWRR.2014.36060
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2014Model application 0
Hak-Su, L.; Chang-Yong, K.; Sang-Hyung, K.; Sung-Won, J.; 2003. 엔트로피를 이용한 흐름분배 알고리즘 해석. Journal of Korea Water Resources Association, 36, 263–271. 10.3741/JKWRA.2003.36.2.263
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2003

Model application

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Rocha Filho, Kleber Lopes da; 2010. Modelagem Hidrológica da Bacia do Rio Pirajuçara com TOPMODEL, Telemetria e Radar Meteorológico.. , , .
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2010Model application 3
肖, 燕; 2013. The Study on Terrain Index Extraction Method and Practice Based on ArcGIS Model Builder. Geomatics Science and Technology, 1, 11–17. 10.12677/GST.2013.13003
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2013Model application 0
Estupina-Borrel, V.; Dartus, D.; 2003. Evaluation Of Some Rapid Flood Forecast Models: Topmodel &amp; Marine. Transactions on Ecology and the Environment, 60, 45-54. 10.2495/RM030051
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2003

Model application

1
Bento, Ciro Couto; Matosinhos, Cristiano Christofaro; Dias, Welberth Pereira; Costa, Thiago Martins da; Baggio, Hernando; 2019. UTILIZAÇÃO DO MODELO TOPMODEL PARA ANÁLISE TEMPORAL DO SISTEMA CHUVA-VAZÃO NA BACIA DO RIO SÃO MIGUEL. In: (eds.)Estudos (Inter)Multidisciplinares nas Ciências Exatas e Tecnologias.. 266–278.
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2019Model application 0
Hak-Su, L.; Nam-Won, K.;Sang-Hyeon, K.; 2002. 수정 TOPMODEL에 의한 유출해석과 일반화 (설마천 유역을 중심으로). Journal of Korea Water Resources Association, 35, 295–306. 10.3741/JKWRA.2002.35.3.295
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2002

Model application

0
邓, 慧平; 2012. Modeling and Analysis of the Forest-Runoff Relations. Geographical Science Research, 1, 31–38. 10.12677/GSER.2012.12004
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2012Model application 0
Jin-Hun, K.; Deok-Hyo, B.; Gi-Hyo, J.; Cheon-Ho, J.; 2002. TOPMODEL의 토양수분 변동성 모의에 관한 연구. Journal of Korea Water Resources Association, 35, 65–75. 10.3741/JKWRA.2002.35.1.065
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2002

Model application

0
Capell, Eva Miriam; 2018. Zur Globalisierung der Mädchenzeichnung - die Kreativserie Topmodel: Eine aktuelle Untersuchung in deutschen und französischen Fanforen. In: (eds.).. .
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2018Model application 0
Capell, Eva Miriam; 2018. Zur Globalisierung der Mädchenzeichnung - die Kreativserie Topmodel: Eine aktuelle Untersuchung in deutschen und französischen Fanforen. In: (eds.).. .
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2018Model application 0
Capell, Eva Miriam; 2018. Zur Globalisierung der Mädchenzeichnung - die Kreativserie Topmodel: Eine aktuelle Untersuchung in deutschen und französischen Fanforen. In: (eds.).. .
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2018Model application 0
Capell, Eva Miriam; 2018. Zur Globalisierung der Mädchenzeichnung - die Kreativserie Topmodel: Eine aktuelle Untersuchung in deutschen und französischen Fanforen. In: (eds.).. .
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2018Model application 0
Raaflaub, Lynn Diane; 2002. The effect of error in gridded digital elevation models on topographic analysis and on the distributed hydrological model TOPMODEL. In: (eds.).. .
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2002Model application 2
Salviano, Marcos Figueiredo; 2019. Modelagem hidrológica da bacia do rio Muriaé com TOPMODEL, telemetria e sensoriamento remoto. , , .
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2019Model application 0
عزیزیان, اصغر; شکوهی, علیرضا; امیری تکلدانی, ابراهیم; 2015. اثر ابعاد سلولی مدل‏های ارتفاعی رقومی بر متوسط شمارة منحنی به‌دست‌آمده از روش مبتنی بر تئوری مازاد رطوبت اشباع (روش WI-CN). تحقیقات آب و خاک ایران, 46, . 10.22059/ijswr.2015.55937
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2015Model application 0
Weingartner, Rolf; Kienholz, Hans; 1994. Zur Sensitivität von Wildbachsystemen: Konzepte und erste Ergebnisse aus Untersuchungen in den Testgebieten Rothenbach (Schwarzsee) und Spissibach (Leissigen). In: (eds.)Hydrologie kleiner Einzugsgebiete : Gedenkschrift Hans M. Keller.. 120–133.
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1994Model application 0
Jung-Gi, A.; 2003. 급사면에 형성된 일시적 포화대의 지하수면깊이에 대한 TOPMODEL의 예측능력 검증. Journal of Korea Water Resources Association, 36, 1035–1046. 10.3741/JKWRA.2003.36.6.1035
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2003

Model application

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Ji, Wei; Chen, Yongqin; Chen, Xi; Wen, Pei; 2007. Application Of Topmodel For Streamflow Simulation And Basefiow Separation. In: (eds.)Wetland and Water Resource Modeling and Assessment.. 89–98.
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2007Model application 0
Zhou, Maichun; 2000. Modified Xinanjiang model and its incorporation with GIS and topmodel. , , .
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2000Model application 0
Bruder, Klaus-Jürgen; Bialluch, Christoph; Lemke, Benjamin; Nachtigall, Andrea; 2014. Mädchen(t)räume und Glücksversprechen - Topmodel-Castingshows als Ausdruck gegenwärtiger Geschlechterverhältnisse und Herausforderung für die Soziale Arbeit. In: (eds.)Machtwirkung und Glücksversprechen.. 305–332.
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2014Model application 0
Tian, Yong Q.; Gong, Peng; Ibbitt, Richard P.; Elliott, Alexander E.; 2001. Application of GIS in Analysing Spatial Patterns of Multiple Runoff Events. Annals of GIS, 7, 16–23. 10.1080/10824000109480552
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2001Model application 0
Liaw,S.-C.; Smith, F.M.; Hsia,Y.-J.; King,H.-B.; Hwong, J.-L.; 2000. Effect of grid size of the Digital Terrain Model on hydrologic simulation.. Taiwan Journal of Forest Science, 15, 21-30. 10.7075/TJFS.200003.0021
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2000

Model application

0
Maas, J.; 2016. grass_topmodel_r: First public release of combination code. , , . 10.5281/ZENODO.61376
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2016

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0
Liaw, S.; Smith, F.M.; Hsia, Y.; King, H.B.; Hwong, J.; 1999. TOPMODEL Simulation of Fushan Watershed No. 2 Discharge. , , https://www.airitilibrary.com/Publication/alDetailedMesh?docid=10264469-199909-14-3-323-330-a.
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1999

Model application

0
Castro-Morales, Karel; Kleinen, Thomas; Kaiser, Sonja; Zaehle, Sönke; Kittler, Fanny; Kwon, Min Jung; Beer, Christian; Göckede, Mathias; 2018. Year-round simulated methane emissions from a permafrost ecosystem in Northeast Siberia. Biogeosciences, 15, 2691–2722. 10.5194/bg-15-2691-2018
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2018Model application 7
Ferguson, Charlie; Fenner, Richard; 2020. The impact of Natural Flood Management on the performance of surface drainage systems: A case study in the Calder Valley. Journal of Hydrology, 590, 125354. 10.1016/j.jhydrol.2020.125354
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2020Model application 5
Hankin, Barry; Metcalfe, Peter; Beven, Keith; Chappell, Nick A.; 2019. Integration of hillslope hydrology and 2D hydraulic modelling for natural flood management. Hydrology Research, 50, 1535–1548. 10.2166/nh.2019.150
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2019Model application 15
Beven, Keith J.; Lamb, Rob; Kirkby, Mike J.; Freer, Jim E.; 2020. A history of TOPMODEL. .
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2020Model application 11
Gong, L.; Halldin, S.; Xu, C.-Y.; 2011. Large-scale runoff generation – parsimonious parameterisation using high-resolution topography. Hydrology and Earth System Sciences, 15, 2481–2494. 10.5194/hess-15-2481-2011
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2011Model application 6
Zhang, Mingda; Jiang, Liangcun; Yue, Peng; Gong, Jianya; 2020. Interoperable web sharing of environmental models using OGC web processing service and Open Modeling Interface (OpenMI). Environmental Modelling &amp; Software, 133, 104838. 10.1016/j.envsoft.2020.104838
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2020Model application 2
Wang, Jie; Zhang, Jianyun; Wang, Guoqing; Song, Xiaomeng; Yang, Xiaoying; Wang, Yueyang; 2020. Ensemble flood simulation for the typical catchment in humid climatic zone by using multiple hydrological models. Proceedings of the International Association of Hydrological Sciences, 383, 213–222. 10.5194/piahs-383-213-2020
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2020Model application 0
Liu, Lingxue; Zhou, Li; Li, Xiaodong; Chen, Ting; Ao, Tianqi; 2020. Screening and Optimizing the Sensitive Parameters of BTOPMC Model Based on UQ-PyL Software: Case Study of a Flood Event in the Fuji River Basin, Japan. Journal of Hydrologic Engineering, 25, 05020030. 10.1061/(ASCE)HE.1943-5584.0001970
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2020Model application 3
Moresi, Federico Valerio; Maesano, Mauro; Collalti, Alessio; Sidle, Roy C.; Matteucci, Giorgio; Scarascia Mugnozza, Giuseppe; 2020. Mapping Landslide Prediction through a GIS-Based Model: A Case Study in a Catchment in Southern Italy. Geosciences, 10, 309. 10.3390/geosciences10080309
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2020Model application 6
Gumindoga, Webster; Murwira, Amon; Rwasoka, Donald Tendayi; Jahure, Farayi Blessing; Chikwiramakomo, Lloyd; 2020. The spatio-temporal soil moisture variation along the major tributaries of Zambezi River in the Mbire District, Zimbabwe. Journal of Hydrology: Regional Studies, 32, 100753. 10.1016/j.ejrh.2020.100753
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2020Model application 4
Chen, Ningyue; Zhang, Yanjun; Wu, Jinjin; Dong, Wenxun; Zou, Yixuan; Xu, Xin; 2020. The Trend in the Risk of Flash Flood Hazards with Regional Development in the Guanshan River Basin, China. Water, 12, 1815. 10.3390/w12061815
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2020Model application 1
Zhou, Shuai; Wang, Yimin; Guo, Aijun; Li, Ziyan; Chang, Jianxia; Meng, Dongdong; 2020. Impacts of changes in the watershed partitioning level and optimization algorithm on runoff simulation: decomposition of uncertainties. Stochastic Environmental Research and Risk Assessment, 34, 1909–1923. 10.1007/s00477-020-01852-7
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2020Model application 0
Arteaga Delgado, Jhoisy Cristhel; Veliz Saldarriaga, Limbert Fabricio; Giler Ormaza, Andy Miguel; Félix Mera, Jhon Enrique; Alarcón Loor, José Ramón; 2020. Determinación del Índice de Humedad Topográfica para la microcuenca “La Mina” de la costa ecuatoriana.. Dilemas contemporáneos: Educación, Política y Valores, , . 10.46377/dilemas.v8i1.2473
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2020Model application 0
Umar, Fadhliani; Diyana, Zed; Yusuf, Badronnisa; Nurhidayu, Siti; 2020. Assessment of Streamflow Simulation for a Tropical Forested Catchment using Dynamic TOPMODEL – Dynamic fluxEs and ConnectIvity for Predictions of HydRology (DECIPHeR) Framework and Generalized Likelihood Uncertainty Estimation (GLUE). .
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2020Model application 0
Zhang, Zhen; Fluet-Chouinard, Etienne; Jensen, Katherine; McDonald, Kyle; Hugelius, Gustaf; Gumbricht, Thomas; Carroll, Mark; Prigent, Catherine; Bartsch, Annett; Poulter, Benjamin; 2020. Development of a global dataset of Wetland Area and Dynamics for Methane Modeling (WAD2M). Earth System Science Data Discussions, , 1–50. 10.5194/essd-2020-262
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2020Model application 7
Hapsari, Ratih Indri; Zenurianto, Mohamad; Safitri, Hari Kurnia; Suhardono, Agus; 2016. PEMODELAN BANJIR DI DAS CILIWUNG MENGGUNAKAN MODEL HIDROLOGI TERDISTRIBUSI. Prokons: Jurnal Teknik Sipil, 10, 21–26. 10.33795/prokons.v10i1.102
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2016Model application 0
سبزواری, تورج; طالبی, علی; 2020. پهنه بندی خطر زمین لغزش حوزه های آبخیز با استفاده از ترکیب دو مدل SINMAP و TOPMODEL. مهندسی و مدیریت آبخیز, 13, . 10.22092/ijwmse.2020.126528.1670
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2020

Model application

0
Suliman, Ali H. Ahmed; Katimon, Ayob; Darus, Intan Zaurah Mat; 2020. Daily discharge simulation: combining semi-distributed GIS-based and artificial intelligence models. International Journal of Hydrology Science and Technology, 10, 471. 10.1504/IJHST.2020.10029922
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2020Model application 0
Zulkafli, Zed; Yusuf, Badronnisa; Nurhidayu, Siti; 2021. Assessment of Streamflow Simulation for a Tropical Forested Catchment Using Dynamic TOPMODEL—Dynamic fluxEs and ConnectIvity for Predictions of HydRology (DECIPHeR) Framework and Generalized Likelihood Uncertainty Estimation (GLUE). Water, 13, 317. 10.3390/w13030317
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2021Model application 2
Weber, Juan Francisco; 2020. Caracterización Hídrica de la Cuenca del Arroyo Vaquerías (Córdoba, Argentina) Mediante el Modelado Hidrológico e Información Satelital. Revista Tecnología y Ciencia, , 118–139. 10.33414/rtyc.39.118-139.2020
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2020Model application 0
Ji, Wei; 2007. Wetland and Water Resource Modeling and Assessment: A Watershed Perspective. In: (eds.).. .
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2007Model application 26
Wang, Xuejia; Chen, Deliang; Pang, Guojin; Anwar, Samy A.; Ou, Tinghai; Yang, Meixue; 2021. Effects of cumulus parameterization and land-surface hydrology schemes on Tibetan Plateau climate simulation during the wet season: insights from the RegCM4 model. Climate Dynamics, , . 10.1007/s00382-021-05781-1
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2021Model application 4
Anwar, Samy A.; Diallo, Ismaila; 2021. On the role of a coupled vegetation-runoff system in simulating the tropical African climate: a regional climate model sensitivity study. Theoretical and Applied Climatology, 145, 313–325. 10.1007/s00704-021-03627-8
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2021Model application 4
Zhai, Xiaoyan; Guo, Liang; Liu, Ronghua; Zhang, Yongyong; Zhang, Yongqiang; 2021. Comparing Three Hydrological Models for Flash Flood Simulations in 13 Humid and Semi-humid Mountainous Catchments. Water Resources Management, 35, 1547–1571. 10.1007/s11269-021-02801-x
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2021Model application 2
Yang, Bin; Ma, Jianming; Huang, Guoxin; Cao, Daling; 2021. Development and Application of 3D Visualization Platform for Flood Evolution in Le’an River Basin of Wuyuan. IOP Conference Series: Earth and Environmental Science, 638, 012053. 10.1088/1755-1315/638/1/012053
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2021Model application 1
Arenas Bautista, Maria Cristina; Nicolas, Duque-Gardeazabal; Pedro Felipe, Arboleda-Obando; Alberto, Guadagnini; Monica, Riva; Leonardo David, Donado-Garzón; 2018. Sensitivity Analysis to Uncertain Parameters of Topmodel in Tropical Regions with Application to the Middle Magdalena Valley. .
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2018Model application 1
Petpongpan, Chanchai; Ekkawatpanit, Chaiwat; Kositgittiwong, Duangrudee; 2021. Landslide risk assessment using hydrological model in the Upper Yom River Basin, Thailand. CATENA, 204, 105402. 10.1016/j.catena.2021.105402
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2021Model application 1
Salviano, Marcos Figueiredo; Pereira Filho, Augusto José; Vemado, Felipe; 2021. TOPMODEL Hydrometeorological Modeling with Rain Gauge Data Integrated by High-Resolution Satellite Estimates. A Case Study in Muria&amp;#233; River Basin, Brazil. Atmospheric and Climate Sciences, 11, 486–507. 10.4236/acs.2021.113029
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2021Model application 1
Hornberger, G. M.; Bencala, K. E.; McKnight, D. M.; 1994. Hydrological controls on dissolved organic carbon during snowmelt in the Snake River near Montezuma, Colorado. Biogeochemistry, 25, 147–165. 10.1007/BF00024390
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1994Model application 495
Deng, Huiping; Dan, Li; Xiao, Yan; Wang, Qian; 2021. Testing the effects of incorporating TOPMODEL into the SSiB4/TRIFFID model and simulation of the response of vegetation dynamics and surface water cycle to climate changes in a subalpine basin of southwestern China. Ecohydrology, , . 10.1002/eco.2338
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2021Model application 0
Momiyama, Hiroki; Kumagai, Tomo'omi; Egusa, Tomohiro; 2021. Model analysis of forest thinning impacts on the water resources during hydrological drought periods. Forest Ecology and Management, 499, 119593. 10.1016/j.foreco.2021.119593
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2021Model application 0
Kim, Dong‐Hyun (Donny); Naliaka, Amina; Zhu, Zhipeng; Ogden, Fred L.; McMillan, Hilary K.; 2021. Experimental Coupling of TOPMODEL with the National Water Model: Effects of Coupling Interface Complexity on Model Performance. JAWRA Journal of the American Water Resources Association, , 1752–1688.12953. 10.1111/1752-1688.12953
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2021Model application 0
Brito, Pedro Lucas Cosmo de; Miguez, Marcelo Gomes; Azevedo, José Paulo Soares de; 2018. Baseflow representation module on MODCEL. RBRH, 23, e40. 10.1590/2318-0331.231820170039
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2018Model application 0
Ranzini, Maurício; Righetto, Antonio; Guandique, Manuel; Moraes, Jorge; Arcova, Francisco; Cicco, Valdir; 2004. Modelagem Hidrológica de uma Microbacia Florestada da Serra do Mar, SP. Revista Brasileira de Recursos Hídricos, 9, 33–44. 10.21168/rbrh.v9n4.p33-44
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2004Model application 4
Bahmani, Farid; Fattahi, Mohammad hadi; Sabzevari, Touraj; Haghighi, Ali Torabi; Talebi, Ali; 2021. Shallow Landslide Modeling in Complex Hillslope by Using TOPMODEL and SINMAP Models. .
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2021Model application 0
Zhu, Ying; Liu, Lingxue; Qin, Fangling; Zhou, Li; Zhang, Xing; Chen, Ting; Li, Xiaodong; Ao, Tianqi; 2021. Application of the Regression-Augmented Regionalization Approach for BTOP Model in Ungauged Basins. Water, 13, 2294. 10.3390/w13162294
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2021Model application 0
Hankin, Barry; Page, Trevor J. C.; Chappell, Nick A.; Beven, Keith J.; Smith, Paul J.; Kretzschmar, Ann; Lamb, Rob; 2021. Using micro‐catchment experiments for multi‐local scale modelling of nature‐based solutions. Hydrological Processes, 35, . 10.1002/hyp.14418
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2021

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0
Zhou, Li; Rasmy, Mohamed; Takeuchi, Kuniyoshi; Koike, Toshio; Selvarajah, Hemakanth; Ao, Tianqi; 2021. Adequacy of Near Real-Time Satellite Precipitation Products in Driving Flood Discharge Simulation in the Fuji River Basin, Japan. Applied Sciences, 11, 1087. 10.3390/app11031087
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2021

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5
Nourani, V., Roughani, A., & Gebremichael, M. 2011. TOPMODEL capability for rainfall-runoff modeling of the Ammameh watershed at different time scales using different terrain algorithms.. Journal of Urban and Environmental Engineering, 5, 1-14. 10.4090/juee.2011.v5n1.001014
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2011

Model application

1
Bao, H. J., Wang, L. L., Li, Z. J., Zhao, L. N., & Zhang, G. P. 2010. Hydrological daily rainfall-runoff simulation with BTOPMC model and comparison with Xin'anjiang model.. Water Science and Engineering, 3, 121-131. 10.3882/j.issn.1674-2370.2010.02.001
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2010

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21

Model application

2
Zhao Qiang; Gong Huili; Deng Wei; Wang Shangyi; ZhaoWenji; An Xiangsheng; Gong Zhaoning; Zhang Zhiqiang; 2005. Using DEM to quantify spatial variability of soil storage capacity: a semi-distributed hydrological model for Northern China. . Volume 6.
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2005

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0
Ebata, Kazunori; Ichikawa, Yutaka; Ishidaira, Hiroshi; Matsumoto, Yoshitaka; Nishida, Kei; 2021. Application of Dissolved Organic Carbon Runoff Model Considering Soil Infiltration and River Runoff Processes in Multiple Forested Watersheds. .
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2021

Model application

0
Sun, Shufen; Deng, Huiping; 2004. A study of rainfall-runoff response in a catchment using TOPMODEL. Advances in Atmospheric Sciences, 21, 87–95. 10.1007/BF02915682
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2004

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13

Model application

4
Ebata, Kazunori; Ichikawa, Yutaka; Ishidaira, Hiroshi; Matsumoto, Yoshitaka; Nishida, Kei; 2018. Runoff Load Estimation Model for Dissolved Organic Carbon that Considers Soil and Hydrologic Processes in Forested Watersheds. Journal of Water and Environment Technology, 16, 199–210. 10.2965/jwet.17-059
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2018

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0
Chaffe, Pedro; 2008. Rainfall-runoff process analysis of the Pequeno River catchment, Curitiba metropolitan region, Brazil, with two hydrological models. Ambiente e Agua - An Interdisciplinary Journal of Applied Science, 3, 43–54. 10.4136/ambi-agua.60
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2008

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0
Ambikadevi, Kavitha M.; 2004. Simulation of Evapotranspiration and Rainfall-runoff for the Stillwater River Watershed in Central Massachusetts. , , . 10.7275/RBHS-JN68
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2004

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0

Model application

0

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0

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0
Gil Morales, Eydith Girleza; Tobón Marín, Conrado; 2016. Hydrological modelling with TOPMODEL of Chingaza páramo, Colombia. Revista Facultad Nacional de Agronomía Medellín, 69, 7919–7933. 10.15446/rfna.v69n2.59137
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2016

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4
Cattoën, Céline; Moore, Stuart; Carey-Smith, Trevor; 2021. Designing an optimal flood forecasting chain using convective-scale ensembles: a sensitivity study.. .
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2021

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0
Xin, Zhuohang; Shi, Ke; Wu, Chenchen; Wang, Lu; Ye, Lei; 2019. Applicability of Hydrological Models for Flash Flood Simulation in Small Catchments of Hilly Area in China. Open Geosciences, 11, 1168–1181. 10.1515/geo-2019-0089
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2019

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3
Gillingham, A. G.; Gray, M. H.; 2006. Measurement and modelling of runoff and phosphate movement from seasonally dry hill‐country pastures. New Zealand Journal of Agricultural Research, 49, 233–245. 10.1080/00288233.2006.9513714
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2006

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20
Bian, Fuling; Xie, Yichun; Cui, Xiaohui; Zeng, Yixin; 2013. Geo-Informatics in Resource Management and Sustainable Ecosystem: International Symposium, GRMSE 2013, Wuhan, China, November 8-10, 2013, Proceedings, Part II. In: (eds.).. .
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2013

Model application

7
Kim, Hyeong Jeong; 2001. Hydrologic contributions of subsurface flow during snowmelt and rainfall in a forest catchment, coastal British Columbia. , , . 10.14288/1.0090117
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2001

Model application

1
Casper, Markus; 2002. Die Identifikation hydrologischer Prozesse im Einzugsgebiet des Dürreychbaches (Nordschwarzwald) [online]. , , . 10.5445/IR/1772002
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2002

Model application

12
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Nr. of publications: 557
Total citations: 30701
h-index: 87
m-quotient: 2.23

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