1 |
Bouraoui, F., and T. A. Dillaha, 2000. ANSWERS- 2000: non-point-source nutrient planning model. Journal of Environmental Engineering 126(11): 1045-1055
DOI
ScienceOn
|
2 |
Ferreira, V. A., G. A. Weesies, D. C. Yoder, G. R. Foster, and K. G. Renard, 1995. The site and condition specific nature of sensitivity analysis. Journal of Soil and Water Conservation 50(5): 493-497
ScienceOn
|
3 |
Mostaghimi, S., U. S. Tim, P. W. McClellan, J. C. Carr, R. K. Byler, T. A. Dillaha, V. O. Shanoltz, and J. R. Pratt, 1989. Watershed/water quality monitoring for evaluating BMP effectiveness: Nomini Creek watershed. Pre-BMP Evaluation Final Report No. N-P1-8906. Richmond, Va.: Virginia Department of Conservation and Historic Resources, Division of Soil and Water Conservation
|
4 |
Refsgaard, J. C., and B. Storm, 1995. MIKE SHE. In: V.P. Singh (Editor), Computer Models of Watershed Hydrology. Water Resources Publications, Highlands Ranch, CO., pp. 809-846
|
5 |
Cho, J., and S. Mostaghimi, 2009b. Dynamic Agricultural Nonpoint Source Assessment Tool (DANSAT): Model Development. Biosystems Engineering (accepted)
DOI
ScienceOn
|
6 |
Refsgaard, J. C., J. P. van der Sluijs, A. L. Hojberg, and P. A. Vanrolleghem, 2007. Uncertainty in the environmental modelling process - A framework and guidance. Environmental Modelling & Software 22(11): 1543-1556
DOI
ScienceOn
|
7 |
Cho, J., and S. Mostaghimi, Submitted. Sensitivity to grid and time resolution of hydrology components of DANSAT. Transaction of the ASABE
|
8 |
Anderton, S., J. Latron, and F. Gallart, 2002. Sensitivity analysis and multi-response, multi-criteria evaluation of a physically based distributed model. Hydrological Processes 16(2): 333-353
DOI
ScienceOn
|
9 |
Cho, J., and S. Mostaghimi, 2009c. Evaluating cellbased components of DANSAT for predicting surface and subsurface transport of pesticides. Biosystems Engineering (accepted)
DOI
ScienceOn
|
10 |
Refsgaard, J. C., 1997. Parameterisation, calibration and validation of distributed hydrological models. Journal of Hydrology 198(1/4): 69-97
DOI
ScienceOn
|
11 |
Arnold, J. G., R. Srinivasan, R. S. Muttiah, and J. R. Williams, 1998. Large-area hydrologic modeling and assessment: Part I. Model development. Journal of American Water Resources Association 34(1): 73-89
DOI
ScienceOn
|
12 |
Bingner, R. L., and F. D. Theurer, 2001. Topographic factors for RUSLE in the continuous-simulation watershed model for predicting agricultural, non-point source pollutants (AnnAGNPS), In Soil erosion research for the 21st century. Proceedings of the International Symposium, Honolulu, Hawaii, USA: ASAE
|
13 |
Xevi, E., K. Christiaens, A. Espino, W. Sewnandan, D.Mallants, H. Sorensen, and J. Feyen, 1997. Calibration, validation and sensitivity analysis of the MIKE-SHE model using the Neuenkirchen catchment as case study. Water Resources Management 11(3): 219-242
DOI
ScienceOn
|
14 |
Heatwole, C. D., S. Zacharias, S. Mostaghimi, T. A. Dillaha, and R. W. Young, 1992. Fate and Trasport of Pesticides in a Virginia Coastal Plai Soil, Bulletin 175, Virginia Water Resources Research Center, Blacksburg, Virginia, 116P
|
15 |
Ma, Q. L. et al., 1998. GLEAMS, Opus, and PRZM-2 model predicted versus measured runoff from a coastal plain loamy sand. Transactions of the ASAE 41(1): 77-88
DOI
ScienceOn
|
16 |
Niu, Z., G. Sun, S. G. McNulty, M. Xie, and W. Byne, 2001, Applying ANSWERS-2000 to simulate BMP effects on sediment and runoff from two watersheds in the Three Gorges area, southern China. In Soil erosion research for the 21st century. Proceedings of the International Symposium, 653-656. Honolulu, Hawaii, USA: ASAE
|
17 |
Cho, J., and S. Mostaghimi, 2009a. Dynamic Agricultural Nonpoint Source Assessment Tool (DANSAT): Model Application. Biosystems Engineering (accepted)
DOI
ScienceOn
|
18 |
Haan, C. T., and J. Zhang, 1996. Impact of uncertain knowledge of model parameters on estimated runoff and phosphorus loads in the Lake Okeechobee basin. Transactions of the ASAE 39(2): 511-516
DOI
ScienceOn
|
19 |
Borah, D. K., and M. Bera, 2003. Watershed-scale hydrologic and nonpoint-source pollution models: review of mathematical bases. Transactions of the ASAE 46(6): 1553-1566
DOI
ScienceOn
|
20 |
Bouraoui, F., and T. A. Dillaha, 1996. ANSWERS- 2000: runoff and sediment transport model. Journal of Environmental Engineering 122(6): 493-502
DOI
ScienceOn
|
21 |
Christiaens, K., and J. Feyen, 2002. Use of sensitivity and uncertainty measures in distributed hydrological modeling with an application to the MIKE SHE model. Water Resources Research 38(9): 8/1-8/15
DOI
ScienceOn
|
22 |
Beven, K., 1989. Changing ideas in hydrology-the case of physically-based models. Journal of Hydrology 105(1989): 157-172
DOI
ScienceOn
|
23 |
Byne, W., 2000. Predicting Sediment Detachment and Channel Scour in the Process-based Planning Model ANSWERS-2000. M.S. Thesis, Blacksburg, Virginia: Virginia Polytechnic Institute and State University
|
24 |
Cho, J., 2007. A comprehensive modeling approach for BMP impact assessment considering surface and groundwater interaction. Ph.D. Thesis, Blacksburg, Virginia: Virginia Polytechnic Institute and State University
|
25 |
Bouraoui, F., 1994. Development of a Continuous, Physically-based, Distributed Parameter, Nonpoint Source Model. Ph.D. Thesis, Blacksburg, Virginia: Virginia Polytechnic Institute and State University
|
26 |
Bicknell, B. R., J. C. Imhoff, J. L. Kittle, Jr., A. S. Donigian, Jr., and R. C. Johanson, 1993. Hydrologic Simulation Program-FORTRAN (HSPF): User's Manual for Release 10. Report No. EPA/600/R-93/174, U.S. EPA Environmental Research Lab., Athens, GA
|