[1]
|
R. W. A. Hutjes, P. Kabat, et al., “Biospheric aspects of the hydrological cycle,” Journal of Hydrology, Vol. 212–213, pp. 1–21, 1998.
|
[2]
|
Y. Gao and C. Wang, “Biospheric aspects of hydrological cycle: BAHC plan and its research progress,” Progress in Geography, Vol. 19, pp. 97–103, 2000.
|
[3]
|
D. Entekhabi, H. Nakamurai, and E. G. Njoku, “Solving the inverse problem for soil moisture and temperature profiles by sequential assimilation of multifrequeney re-motely sensed observations,” IEEE Transactions on Geoscience and Remote Sensing, Vol. 32, pp. 438–448, 1994.
|
[4]
|
IGPB, WCRD and IHDP, “Abstract volume of challenge of a changing earth,” in Proceedings Global Change Opening Science Conference, Amsterdam, Netherland, pp. 10 13, July, 2001.
|
[5]
|
D. Gerten, S. Schaphoff, U. Haberlandt, W. Lucht, and S. Sitch, “Terrestrial vegetation and water balance-hydrological evaluation of a dynamic global vegetation mode,” Journal of Hydrology, Vol. 286, pp. 249–270, 2004.
|
[6]
|
N. A. Brunsell, “Characterization of land-surface precipita-tion feedback regimes with remote sensing,” Remote Sensing of Environment, Vol. 112, pp. 200–211, 2006.
|
[7]
|
R. H. French, J. J. Miller, C. Dettling, and J. R. Carr, “Use of remotely sensed data to estimate the flow of wa-ter to a playa lake,” Journal of Hydrology, Vol. 325, pp. 67–81, 2006.
|
[8]
|
M. S. Feldman, T. Howard, E. McDonald-Buller, G. Mullins, D. T. Allen, A. Webb, and Y. Kimura, “Appli-cations of satellite remote sensing data for estimating dry deposition in eastern Texas,” Atmospheric Environment, Vol. 44, pp. 7562–7576, 2007.
|
[9]
|
E. García-Cuesta, I. M. Galván, and A. J. de Castro, “Multilayer perceptron as inverse model in a ground- based remote sensing temperature retrieval problem,” Engineering Applications of Artificial Intelligence, Vol. 21, pp. 26–34, 2008.
|
[10]
|
A. Holsten, T. Vetter, K. Vohland, V. Krysanova, “Im-pact of climate change on soil moisture dynamics in Brandenburg with a focus on nature conservation areas,” Ecological Modelling, Vol. 220, pp. 2076–2087, 2009.
|
[11]
|
K. Y. Li, M. T. Coe, N. Ramankutty, and R. D. Jong, “Modeling the hydrological impact of land-use change in West Africa,” Journal of Hydrology, Vol. 337, pp. 258– 268, 2007.
|
[12]
|
J. Liu, E. Pattey, M. C. Nolin, J. R. Miller, and O. Ka, “Mapping within-field soil drainage using remote sens-ing,” DEM and apparent soil electrical conductivity. Ge-oderma, Vol. 143, pp.261–272, 2008.
|
[13]
|
Y. Liu, W. Yang, and X. X. Wang, “Development of a SWAT extension module to simulate riparian wetland hydrologic processes at a watershed scale,” Hydrological Processes, Vol. 22, pp. 2901–2915, 2008.
|
[14]
|
A. Loew, “Impact of surface heterogeneity on surface soil moisture retrievals from passive microwave data at the regional scale: The Upper Danube case,” Remote Sensing of Environment, Vol. 112, pp. 231–248, 2008.
|
[15]
|
M. F. McCabe, E. F. Wood, R. Wójcik, M. Pan, J. Shef-field, H. Gao, and H. Su, “Hydrological consistency using multi-sensor remote sensing data for water and energy cycle studies,” Remote Sensing of Environment, Vol. 112, pp. 430–444, 2008.
|
[16]
|
W. N. Yang, J. Jian, Y. X. Li, X. N. Wan, L. Peng, H. H. Liu, H. Y. Shao, X. A. Dai, T. Zeng, and X. M. Wu, “Remote sensing inversion of eco-water resource quantity in international workshop on earth observation and re-mote sensing applications,” 29 June-2 July 2008, Beijing, China(IEEE), pp. 1–6, 2008.
|
[17]
|
J. Jian, “Quantitative investigation of eco-water with remote sensing in the upper of Minjiang river,” Doctoral thesis, Chengdu University of Technology, China, 2006.
|