[ 1 ] Kumar S, Mishra A, Raghuwanshi NS. Identification of critical erosion watersheds for control management in data scarce condition using the SWAT model. J Hydrol Eng 2015;20(6):C4014008. 链接1

[ 2 ] Khalid K, Ali MF, Rahman NFA, Mispan MR, Haron SH, Othman Z, et al. Sensitivity analysis in watershed model using SUFI-2 algorithm. Procedia Eng 2016;162:441–7. 链接1

[ 3 ] Salimi ET, Nohegar A, Malekian A, Hosseini M, Holisaz A. Runoff simulation using SWAT model and SUFI-2 algorithm (case study: Shafaroud watershed, Guilan Province, Iran). Caspian J Environ Sci 2016;14:69–80. 链接1

[ 4 ] Noori N, Kalin L. Coupling SWAT and ANN models for enhanced daily streamflow prediction. J Hydrol 2016;533:141–51. 链接1

[ 5 ] Qiu Z, Wang L. Hydrological and water quality assessment in a suburban watershed with mixed land uses using the SWAT model. J Hydrol Eng 2014;19 (4):816–27. 链接1

[ 6 ] Pisinaras V, Petalas C, Gikas GD, Gemitzi A, Tsihrintzis VA. Hydrological and water quality modeling in a medium-sized basin using the Soil and Water Assessment Tool (SWAT). Desalination 2010;250(1):274–86. 链接1

[ 7 ] Omani N, Tajrishy M, Abrishamchi A. Modeling of a river basin using SWAT model and SUFI-2. Proceedings of the 4th International SWAT Conference, 2007. 链接1

[ 8 ] Fukunaga DC, Cecílio RA, Zanetti SS, Oliveira LT, Caiado MAC. Application of the SWAT hydrologic model to a tropical watershed at Brazil. Catena 2015;125:206–13. 链接1

[ 9 ] Shi P, Hou Y, Xie Y, Chen C, Chen X, Li Q, et al. Application of a SWAT model for hydrological modeling in the Xixian Watershed, China. J Hydrol Eng 2013;18 (11):1522–9. 链接1

[10] Briak H, Moussadek R, Aboumaria K, Mrabet R. Assessing sediment yield in Kalaya gauged watershed (Northern Morocco) using GIS and SWAT model. Int Soil Water Conserv Res 2016;4(3):177–85. 链接1

[11] Jeong J, Kannan N, Arnold JG, Glick R, Gosselink L, Srinivasan R, et al. Modeling sedimentation-filtration basins for urban watersheds using soil and water assessment tool. J Environ Eng 2013;139(6):838–48. 链接1

[12] Yesuf HM, Assen M, Alamirew T, Melesse AM. Modeling of sediment yield in Maybar gauged watershed using SWAT, northeast Ethiopia. Catena 2015;127:191–205. 链接1

[13] Vigiak O, Malagó A, Bouraoui F, Vanmaercke M, Obreja F, Poesen J, et al. Modelling sediment fluxes in the Danube River Basin with SWAT. Sci Total Environ 2017;599–600:992–1012. 链接1

[14] Sardar B, Singh AK, Raghuwanshi NS, Chatterjee C. Hydrological modeling to identify and manage critical erosion-prone areas for improving reservoir life: case study of Barakar Basin. J Hydrol Eng 2014;19(1):196–204. 链接1

[15] Psomas A, Panagopoulos Y, Konsta D, Mimikou M. Designing water efficiency measures in a catchment in Greece using WEAP and SWAT models. Procedia Eng 2016;162:269–76. 链接1

[16] Vigiak O, Malagó A, Bouraoui F, Vanmaercke M, Poesen J. Adapting SWAT hillslope erosion model to predict sediment concentrations and yields in large basins. Sci Total Environ 2015;538:855–75. 链接1

[17] Vilaysane B, Takara K, Luo P, Akkharath I, Duan W. Hydrological stream flow modelling for calibration and uncertainty analysis using SWAT model in the Xedone River Basin, Lao PDR. Procedia Environ Sci 2015;28:380–90. 链接1

[18] Ercan MB, Goodall JL, Castronova AM, Humphrey M, Beekwilder N. Calibration of SWAT models using the cloud. Environ Model Softw 2014;62:188–96. 链接1

[19] Talebizadeh M, Morid S, Ayyoubzadeh SA, Ghasemzadeh M. Uncertainty analysis in sediment load modeling using ANN and SWAT Model. Water Resour Manage 2010;24(9):1747–61. 链接1

[20] Zhang X, Srinivasan R, Bosch D. Calibration and uncertainty analysis of the SWAT model using Genetic Algorithms and Bayesian Model Averaging. J Hydrol 2009;374(3–4):307–17. 链接1

[21] Tuo Y, Duan Z, Disse M, Chiogna G. Evaluation of precipitation input for SWAT modeling in Alpine catchment: a case study in the Adige River Basin (Italy). Sci Total Environ 2016;573:66–82. 链接1

[22] Zhang X, Srinivasan R, Van Liew M. Approximating SWAT model using artificial neural network and support vector machine 1. J Am Water Resour Assoc 2009;45(2):460–74. 链接1

[23] Romagnoli M, Portapila M, Rigalli A, Maydana G, Burgués M, García CM. Assessment of the SWAT model to simulate a watershed with limited available data in the Pampas region. Argentina. Sci Total Environ 2017;596– 597:437–50. 链接1

[24] Neitsch SL, Arnold JG, Kiniry JR, Williams JR. Soil and water assessment tool. Theoretical documentation version 2009. Report. College Station: Texas Water Resources Institute, Texas A&M University System; 2011. Report No.:406. 链接1

[25] Abbaspour KC. Calibration and uncertainty programs—a user manual.Proceedings of the SWAT-CUP Workshop. Dübendorf: Swiss Federal Institute of Aquatic Science and Technology (Eawag); 2014.

[26] Arnold JG, Moriasi DN, Gassman PW, Abbaspour KC, White MJ, Srinivasan R, et al. SWAT: model use, calibration, and validation. Trans ASABE 2012;55:1491–508. 链接1