Ao, T. Q., Yoshitani, J., Takeuchi, K., Fukami, K., Mutsura, T., and
Ishidaira, H.: Effects of block scale on runoff simulation in distributed
hydrological model: BTOPMC, in: Weather Radar Information and Distributed
Hydrological Modelling, edited by: Tachikawa, Y., Vieux, B. E., Georgakakos,
K. P., and Nakakita, E., IAHS Publication, 282, 227–234, 2003.
Bookera, D. J. and Woods, R. A.: Comparing and combining physically-based and
empirically-based approaches for estimating the hydrology of ungauged
catchments, J. Hydrol., 508, 227–239, 2014.
Chen J., Liao A., and Chen J., et al.: 30-meter GlobalLand cover data product- GLobeLand30 [J].
Geomatics World, available at:
http://www.globallandcover.com/user/login.aspx?para=124, 1–8, 2017. (in Chinese)
China Hydrology: The Daily Hdrological Monitoring Data, available at:
http://swgl.mwr.gov.cn/, 1979–1987, 2017.
Cho, J., Park, S. W., and Im, S. J.:
Evaluation of Agricultural Nonpoint Source (AGNPS) model for small
watersheds in Korea applying irregular cell delineation,
Agr. Water Manage., 9, 400–408, 2008.
Kobierska, T., Jonas, M., Zappa, M., Bavay, J.,
Magnusson, S. M., and Bernasconi, S. M.:
Future runoff from a partly glacierized watershed in Central Switzerland: a
2 model approach,
Adv. Water Res., 55, 204–214, 2013.
Lehner, B., Verdin, K., and Jarvis, A.: New global hydrography derived from spaceborne
elevation data, Eos, Transactions, AGU, available at:
https://hydrosheds.cr.usgs.gov/datadownload.php?reqdata=3demg89, 93–94, 2008.
Nasr, A., Bruen, M., Jordan, P., Moles, R., Kiely, G., and Byrne,
P.: A comparison of SWAT, HSPF and SHETRAN/GOPC for modeling phosphorus export
from three catchments in Ireland,
Water Res., 41, 1065–1073, 2007.
Nigussie, H. and Fekadu, Y.:
Testing and evaluation of the agricultural non-point source pollution model
(AGNPS) on Augucho catchment, western Hararghe, Ethiopia,
Agric. Ecosyst. Environ., 19, 201–212, 2003.
Orth, R., Staudinger, M., Seneviratne, S. I., Seibert, J., and Zappa,
M.:
Does model performance improve with complexity? A case study with three
hydrological models,
J. Hydrol., 523, 147–159, 2015.
Reichert, P., Borchardt, D., Henze, M., Rauch, W., Shanahan, P.,
Somlyody, L., and Vanrolleghem, P. A.:
River Water Quality Model No. 1. Scientific and Technical Report No. 12.
International Water Association, London, UK, 2001.
Takeuchi, K., Ao, T. Q., and Ishidaira, H.:
Introduction of block-wise use of TOPMODEL and Muskingum – Cunge method for
the hydroenvironmental simulation of a large ungauged basin, Hydrol.
Sci. J., 44, 633–646, 1999.
Takeuchi, K., Hapuarachchi, H. A. P., Zhou, M. C., Ishidaira, H., and Magome,
J.: A BTOP model to extend TOPMODEL for distributed hydrological simulation of
large basins,
Hydrol. Process., 22, 3236–3251, 2008.
Takeuchi, K., Hapuarachchi, H. A. P., Kiem, A. S., Ishidaira, H.,
Ao, T. Q., Magome, J., Zhou, M. C., Georgievski, M., Wang, G.,
and Yoshimura, C.: Distributed runoff predictions in the Mekong
River basin, in: Runoff prediction in ungauged basins – Synthesis across processes, places and scales, Chapter
11, Cambridge University Press, Cambridge, UK, 2013.
USEPA: National management measures for the control of nonpoint
pollution from agriculture, Washington DC, USA, 2000.
Wu, C. L. and Chau, K. W.:
Mathematical model of water quality rehabilitation with rainwater
utilization – cases study at Haigang,
Int. J. Environ. Pollut., 28, 534–545, 2006.
Ying, L.-L., Hou, X.-Y., Lu, X., and Zhu, M.-M.:
Discussion on the export coefficient method in non-point source pollution
studies in China,
J. Water Res. Water Eng., 21, 90–95, 2010.
Yoshimura, C. and Takeuchi, K.:
Estimation of nutrient runoff processes in the Mekong River Basin using a
distributed hydrological model, Journal of Japan Society of Hydrology &
Water Resources, 20, 493–504, 2007 (in Japanese with English abstract).
Yoshimura, C., Zhou, M. C., Kiem, A. S., Fukami, K., Hapuarachchi,
H. A. P., Ishidaira, H., and Takeuchi, K.:
2020s scenario analysis of nutrient load in the Mekong River Basin using a
distributed hydrological model,
Sci. Total Environ., 407, 5356–5366, 2010.
Viviroli, D., Zappa, M., Gurtz, J., and Weingartner, R.:
An introduction to the hydrological modelling system PREVAH and its pre- and
post-processing-tools,
Environ. Modell. Softw., 24, 1209–1222, 2009.
Zhang, H., Li, J., Li, X.-D., Chen, X., Liu, X., and Ao, T.-Q.:
Study on Rural Non-Point Source Pollution Assessment Method of Regions with
Sparse Data,
Journal of Sichuan University, Engineering Science Edition, 45, 58–66, 2013.
Zhou, M. C., Ishidaira, H., Hapuarachchi, H. A. P., Magome, J., Kiem,
A. S., and Takeuchi, K.:
Estimating potential evapotranspiration using the Shuttleworth – Wallace
model and NOAA-AVHRR NDVI to feed the hydrological modeling over the Mekong
River Basin,
J. Hydrol., 327, 151–173, 2006.