地球科学进展 ›› 2001, Vol. 16 ›› Issue (6): 795 -801. doi: 10.11867/j.issn.1001-8166.2001.06.0795

研究论文 上一篇    下一篇

陆面水文过程研究综述
苏凤阁;郝振纯   
  1. 河海大学水资源开发利用国家专业实验室,江苏 南京 210098
  • 收稿日期:2001-05-21 修回日期:2001-08-08 出版日期:2001-12-20
  • 通讯作者: 苏凤阁 E-mail:fgsu@yahoo.com
  • 基金资助:

    国家自然科学基金重大项目“淮河流域能量与水分循环试验和研究”(编号:49794030);国家重点基础研究发展规划项目“我国生存环境演变和北方干旱化趋势研究”(编号:G199043400)资助.

REVIEW OF LAND-SURFACE HYDROLOGICAL PROCESSES PARAMETERIZATION

SU Fengge, HAO Zhenchun   

  1. Water Resources Development & Utilization Laboratory, Hehai University, Nanjing 210098,China
  • Received:2001-05-21 Revised:2001-08-08 Online:2001-12-20 Published:2001-12-01

在简单介绍陆面过程模式发展的基础上,从裸土蒸发、植被蒸散、土壤水传输、排水和径流等五个方面详细综述了陆面模式研究中对水文过程的参数化。目前陆面参数化方案中仍存在很大的不确定性,其中陆面水文过程参数化的关键问题包括:土壤分层、土层厚度、根带分布;参数的代表性和移植;观测资料;径流的参数化。分析了径流在陆面模式中的重要性,及目前陆面模式中对径流参数化存在的不足,介绍了部分陆面模式对径流的模拟研究,讨论了未来工作的研究重点。

As a branch of hydrologic cycle, land-surface hydrological processes are nearly relative to atmospheric circle by water and energy exchange between land-surface and atmosphere. Land-surface hydrological processes are not only the main participants in climate change but are effected by the change. The capacity of understanding and simulating the land-surface hydrological processes in climatic model is the premise to accurate climate prediction. The development of landsurface model is briefly introduced. The parameterization of land-surface hydrological processes is reviewed in overall from bare soil evaporation, plant evapotranspiration, soil wetness, drainage and runoff. There are still some uncertainties lying in the land-surface schemes. The main issues on hydrological processes parameterization include soil layers, soil layer depth, rooted area distribution; the representation and transplantation of parameters; observed data; and parameterization of runoff. The importance of runoff in landsurface schemes is analyzed; the weakness of runoff parameterization is pointed out; the study of runoff simulation in land-surface model is introduced; and the research focuses in the future are discussed.

中图分类号: 

[1] Manabe S, Climate and the ocean circulation.1. The atmospheric circulation and the hydrology of the earth's surface[J]. Mon Weath Rev,1969, 97: 739-805.
[2] Dickinson R E, Henderson-Sellers A, Kennedy P J, et al. Biosphere Atmosphere Transfer scheme (BATs) for the NCAR community climate model[R]. NCAR/TN-275+STR,1986.
[3] Sellers P J, Mintz Y, Sud Y C, et al. A simple biosphere model(SiB) for use within general circulation models[J]. J Atmos Sci, 1986, 43: 505-531.
[4] Bonan G B. A Land Surface Model(LSM Version 1.0) for ecological, hydrological, and atmospheric studies: technical description and user's guide[R]. NCAR Technical Note/TN-417+STR, 1996 .
[5] Colello G D, Grivet C, Sellers P J, et al. Modeling of energy, water and CO2 flux in a temperature grassland ecosystem with SiB2: May-October 1987[J]. J Atm Sci, 1998, 55: 1 141-1 169.
[6] JI Jinjun, YU Li. A simulation study of coupled feedback mechanism between physical and biogeochemical processes at the surface[J]. J Atm Sci, 1999,23(4):329-448.[季劲钧,余莉. 地表面物理过程与生物地球化学过程耦合反馈机理的模拟研究[J]. 大气科学,1999, 23(4): 339-448.]
[7] Penman H L. Natural evaporation from open water, bare soil and grass[Z]. Proc R Soc, London, Ser A, 1948(193): 120-145.
[8] Priestley C H B,Taylor RJ. On the assessment of surface heat flux and evaporation using large scale parameters[J]. Mon Weather Rev, 1972,100:81-92 .
[9] Wood E F. Glogal scale hydrology: Advance in land surface modeling[R]. U.S. National Report to international union of geodesy and geophysics 1987-1990, 1991, 29: 193-201.
[10] Franchini M, Pacciani M. Comparative analysis of several conceptual rainfall runoff models[J]. J Hydrol, 1991, 122: 161-219.
[11] Todini E. The ARNO rainfall-runoff model[J]. J Hydrol, 1996, 175: 339-382.
[12] Dümenil L, Todini E. A rainfall-runoff scheme for use in the Hamburg climate model[A]. In: Kane J P. Advance in Theoretical Hydrology[C]. New York:Elsevier science publishers, 1992.129-157.
[13] Wood E F, Lettenmaier D P, Zartarian V G. A land surface hydrology parameterization with subgrid variability for general circulation models[J]. J  Geophys Res, 1992,97(D3): 2 717-2 728.
[14] Noilhan J, Mahfouf J F. The ISBA land surface parameterization scheme[J]. Global and Planetary Change, 1996, 13: 145-159.
[15] Mengelkamp H T, Warrach K, Raschke E. SEWAB-a parameterization of the Surface and Water Balance for atmospheric and hydrologic models[J]. Advances in Water Resources ,1999, 23: 165-175.
[16] Henderson-Sellers A, Yang Z L, Dickinson R E. The project for intercomparison of land-surface parameterization schemes[J]. Bull Am Meteou Soc, 1993, 74: 1 335-1 349.
[17] Chen T H, Henderson-Sellers, Milly P C D. Cabauw experimental results from the project for Intercomparison of Land Surface Parameterization Schemes (PILPS)[J]. J Climate, 1997, 10: 1 172-1 193.
[18] Shao Y, Henderson-Sellers A. Validation of soil moisture simulation in land surface parameterization schemes with HAPEX data[J]. Global and Planetary Change, 1996, 13: 11-46.
[19] Lohmann D, Lettenmaier D P, Liang X, et al. The project for intercomparison of Land-surface Parameterization Schemes(PILPS) phase 2(c) Red-Arkansas River basin experiment:3.Spatial and temporal analysis of water fluxes[J]. Global and Planetary Change,1998, 19: 161-179.
[20] Liang X, Wood E F,  Lettenmaier D P. Surface soil moisture parameterization of the VIC-2L model: Evaluation and modification[J]. Global and Planetary Change, 1996, 13: 195-206.
[21] Jolley T J, Weater H S. The introduction of runoff routing into large-scale hydrological models[J]. Hydrol  Proc, 1997, 11: 1 917-1 926.
[22] Liang X, Lettenmaier D P, Wood E F,et al. A simple hydrologically based model of land surface water and energy fluxes for general circulation models[J]. J Geophys Res, 1994, 99(D3): 14 415-14 428.
[23] Lohmann D,  Raschke E. Regional scale hydrology:Ⅰ.Formulation of the VIC-2L model coupled to a routing model[J]. Hydrol Sci J, 1998,43(1):131-141.
[24] Nijssen B, Lettenmaier D P. Streamflow simulation for continental-scale river basins[J]. Water Resour Res 1997,33( 4): 711-724.
[25] Abdulla F A, Lettenmaier D P, Wood E F, et al. Application of a macroscale hydrologic model to estimate the water balance of the Arkansas-Red river basin[J].  J Geophys Res, 1996, 101(D3): 7 449-7 459.
[26] Mengelkamp H T, Warrach K, Sutmller J. Hydrological processes in the land -surface scheme SEWAB linked to a horizontal routing scheme[A]. In:Proceedings of Workshop on Flood Forecasting[C]. Beijing ,2000:15-18.
[27] Habets F,  Noilhan J,  Golaz C, et al. The ISBA surface scheme in a macroscale hydrological model applied to the Hapex-Mobilhy area PartⅠ: Model and database[J]. J Hydrol, 1999,217: 75-96.
[28] Habets F,  Noilhan J,  Golaz C, et al. The ISBA surface scheme in a macroscale hydrological model applied to the Hapex-Mobilhy area PartⅡ: Simulation of streamflow and annual water budget[J]. J Hydrol, 1999,217:75-96.

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