Modeling vulnerability of groundwater to pollution under future scenarios of climate change and biofuels-related land use change:A case study in North Dakota, USA
Li, RJ. of Science of the Total Environment 447 (1) : 32 ~ 45[2013]
Methods to quantify and identify the sources of uncertainty for river basin water quality models
Van Griensven, AJ. of Water Science & Technology 53 (1) : 51 ~ 59[2006]
McGraw-Hill Series in water resources and Environmental Engineering
Detailed spatial analysis of the plausibility of surface runoff and sediment yields at HRU level in a mountainous watershed in China
Bieger, K2013 International SWAT Confrerence[2013]
Comparison of soil and water assessment tool (SWAT) and multilayer perceptron (MLP) artificial neural network for predicting sediment yield in the Nagwa agricultural watershed in Jharkhand, India
Singh, AJ. of Agricultural Water Management 104 : 113 ~ 120[2012]
Comparison of baseflow indices, which were calculated with seven different baseflow separation methods
Eckhardt, KAJ. of hydrology 352 (1-2) : 168 ~ 173[2008]
Comparison of algorithms for stream flow recession and baseflow separation
Chapman, TAJ. of Hydrological Processes 13 : 701 ~ 704[1999]
Baseflow separation based on analytical solutions of the Boussinesq equation
Szilagyi, JJ. of Hydrology 204 (1) : 251 ~ 260[1998]
Base-Flow Recessions-A Review
Hall, FRJ. of Water Resources Research 4 : 973 ~ 983[1968]
Automated web gis based hydrograph analysis tool, WHAT1
Lim, KJJ. of American Water Resources Association 41 : 1407 ~ 1416[2005]
Assessment of land‐use impact on streamflow via a grid‐based modelling approach including paddy fields
Kim, SJJ. of Hydrological processes 19 (19) : 3801 ~ 3817[2005]
Application of a SWAT model for estimating runoff and sediment in two mountainous basins in central Iran