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Some scientific problems facing research on hydrological
processes in an inland river basin
- KANG Ersi1, CHEN Rensheng1, ZHANG Zhihui2, JI Xibin2, JIN Bowen2
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1.Cold and Arid Regions Environmental and Engineering Research Institute, Chinese Academy of Sciences; 2.Cold and Arid Regions Environmental and Engineering Research Institute, Chinese Academy of Sciences;Linze Inland River Basin Comprehensive Research Station, Chinese Academy of Sciences
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Published |
05 Dec 2008 |
Issue Date |
05 Dec 2008 |
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References
1. Bales R C, Dozier J, Molotch N P, et al. (2004). Mountain Hydrology of theSemi-Arid Western U.S.. Vision Papers, Papers, News andTechnical Reports
2. Brantley S L, White T S, White A T, et al. (2005). Frontiers in Explorationof the Critical Zone: Report of a workshop sponsored by the NationalScience Foundation (NSF). October 24–26, Newark,DE, 30
3. Brasseur G, Ill B M (2002). The newand evolving IGBP. Global Chang News Letter, 50: 1–3
4. Chen R S, Gao Y H, Kang E S, et al. (2006b). A distributed water-heatcoupled (DWHC) model for mountainous watershed of an inland riverbasin (III): model results using the results from MM5 model. Advances in Earth Science, 21(8): 830–837 (in Chinese)
5. Chen R S, Kang E S, Yang J P, et al. (2003a). Simulation of water resourcestransformation in the midstream area of the Hei River basin. Journal of Glaciology and Geocryology, 25(5): 566–573 (in Chinese)
6. Chen R S, Kang E S, Yang J P, et al. (2004a). A distributed runoff modelfor inland river mountainous basin of northwest China. Journal of Desert Research, 24(4): 416–424 (in Chinese)
7. Chen R S, Kang E S, Zhang Z H, et al. (2004b). Estimation of tree transpirationand response of tree conductance to meteorological variables in desert-oasessystem of northwest China. Science in China(Ser. D), 9–20
8. Chen R S, Kang E S, Zhang Z H, et al. (2005). Peak phenomenon of sapflowin late autumn to early winter in Heihe River basin, northwest China. Acta Ecologica Sinica, 25(5): 1221–1228 (in Chinese)
9. Chen R S, Lu S H, Kang E S, et al. (2006a). A distributed water-heatcoupled (DWHC) model for mountainous watershed of an inland riverbasin (I): Model structure and equations. Advances in Earth Science, 21(8): 806–818 (in Chinese)
10. Chen R S, Kang E S, Lu S H, et al. (2006c). A distributed water-heatcoupled (DWHC) model for mountainous watershed of an inland riverbasin (II): model results using the measured data at the meteorological &hydrological stations. Advances in EarthScience, 21(8): 819–829 (in Chinese)
11. Copeland H R A, Kittel T (1996). Potentialimpacts of vegetation change: A regional modeling study. Journal of Geophysical Research, 101 (D3): 7409–7418. doi:10.1029/95JD02676
12. Eltahir E A B, Bras R L (1994). Sensitivityof regional climate to deforestation in the Amazon basin. Advances in Water Resources, 17: 101–115. doi:10.1016/0309-1708(94)90027-2
13. Gordon W S, Famiglietti J S, Fowler N L, et al. (2004). Validation of simulatedrunoff from six terrestrial ecosystem models: Results from VEMAP. Ecological Applications, 14(2): 527–545. doi:10.1890/02-5287
14. GWSP. (2005). The Global Water System Project: Science Framework and ImplementationActivities. Earth System Science Partnership. GWSP Report No.1, ESSP Report No.3 : 10–11.
15. IPCC. (2001). The Scientific Basis. IPCC, ed. Contributionof Working Group 1 to the Third Assessment Report of the IntergovernmentalPanel on Climate Change. Cambridge Cambridge UniversityPress, 881
16. Ji X B, Kang E S, Zhao W Z, et al. (2004). Simulation of evapotranspirationfrom irrigational farmlands in the oases of the Heihe River basin. Journal of Glaciology and Geocryology, 26(6): 713–718 (in Chinese)
17. Jia Y W, Wang H, Ni G H, et al. (2005). Principle and Practice ofBasin Distributed Hydrological Models. Beijing: China Water Conservancyand Power Press, 152–194 (in Chinese)
18. Kang E, Lu L, Xu Z (2007). Vegetation and carbon sequestrationand their relation to water resources in an inland river basin ofNorthwest China. Journal of EnvironmentalManagement, 85: 702–710. doi:10.1016/j.jenvman.2006.09.007
19. Landsberg J J, Waring R H (1997). A generalizedmodel of forest productivity using simplified concepts of radiation-useefficiency, carbon balance and partitioning. Forest Ecology and Management, 95: 209–228. doi:10.1016/S0378-1127(97)00026-1
20. Leavesley G H, Markstrom S L, Brewer M S, et al. (1996). The modular modeling system(MMS) – The physical process modeling component of a database-centereddecision support system for water and power management. Water Air and Soil Pollution, 90(1–2): 303–311. doi:10.1007/BF00619290
21. Lu L, Li X, Cheng G D, et al. (2001). Analysis on the landscapestructure of the Heihe River Basin, Northwest China. Acta Ecologica Sinica, 21(8): 1217–1224 (in Chinese)
22. Newman B D, Wilcox B P, Archer S, et al. (2004). The Ecohydrology of Aridand Semiarid Environments: A Scientific Vision. VisionPapers, Papers, News and Technical Reports
23. Njoku E G, Jackson T J, Lakshmi V, et al. (2003). Soil moisture retrievalfrom AMSR-E. IEEE Transactions on Geoscienceand Remote Sensing, 41(2): 215–229. doi:10.1109/TGRS.2002.808243
24. Pavel K, Holger H, Lütkemeier S (2002). Biospheric Aspectsof the Hydrological Cycle. Global ChangNews Letter, 52: 22–23
25. Pielke R A, Avissar R (1990). Influenceof landscape structure on local and regional climate. Landscape Ecology, 4: 133–155. doi:10.1007/BF00132857
26. Rodriguez-Iturbe I (2000). Ecohydrology: A hydrologic perspective of climate-soil-vegetationdynamics. Water Resources Research, 6: 3–9. doi:10.1029/1999WR900210
27. Running S W, Coughlan J C (1988). A generalmodel of forest ecosystem processes for regional applications I. Hydrologicbalance, canopy gas exchange and primary production processes. Ecological Modeling, 42: 125–154. doi:10.1016/0304-3800(88)90112-3
28. Walvoord M A, Phillips F M (2004). Identifyingareas of basin-floor recharge in the Trans-Pecos region and the linkto vegetation. Journal of Hydrology, 292: 59–74. doi:10.1016/j.jhydrol.2003.12.029
29. Wang H, Chen M J, Qin D Y, et al. (2003). Rational Allocation andBearing Capacity of Water Resources in Northwest China. Zhengzhou: Huanghe Water ConservancyPress, 52–68, 73–76. (in Chinese)
30. Wang S G, Kang E S, Li X (2004). Progress and perspective of distributedhydrological models. Journal of Glaciologyand Geocryology, 26(1): 61–65 (in Chinese)
31. Zhang Y (2000). On China's Water Resources and Sustainable Development. Nanning: Guangxi Science and Technology Publishing House, 30–44 (in Chinese)
32. Zhao W Z, Cheng G D (2001). Ecohydrology– A science for studying the hydrologic mechanisms of ecologicalpatterns and processes. Journal of Glaciologyand Geocryology, 23(4): 150–475 (in Chinese)