土壤湿度和气候变化关系研究中的某些问题

doi:10.11867/j.issn.1001-8166.2001.04.0563

地球科学进展 ›› 2001, Vol. 16 ›› Issue (4): 563 -566. doi: 10.11867/j.issn.1001-8166.2001.04.0563

土壤湿度和气候变化关系研究中的某些问题

马柱国 ¹，符淙斌 ¹，谢力 ¹，陈文海 ²，陶树望 ³

1.中国科学院大气物理研究所全球变化东亚研究中心，北京 100029;
2.中国民航天津管理局民航气象台,天津 300300；
3.中国气象科学研究院地球环境室，北京 100081

收稿日期:2000-12-19 修回日期:2001-02-26 出版日期:2001-08-01
通讯作者: 马柱国（1963-），男，陕西武功人，副研究员，主要从事区域气候变化的研究. E-mail:mazg@tea.ac.cn
基金资助:
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预测”（编号：G19990433400）；中国科学院大气物理研究所创新面上基金项目“土壤湿度与气候变化关系的研究”（编号：8-2305）资助.

SOME PROBLEMS IN THE STUDY ON THE RELATIONSHIP BETWEEN SOIL MOISTURE AND CLIMATIC CHANGE

MA Zhuguo ¹, FU Congbin ¹,XIE Li ¹,CHEN Wenhai ²,TAO Shuwang ³

1.START for TEACOM, Institute of Atmospheric Physics, CAS, Beijing 100029,China;
2.Meteorological Station of Tianjin Administration of Civil Aviation, Tianjin 300300,China;
3.Chinese Academy of Meteorology, Beijing 100081,China

Received:2000-12-19 Revised:2001-02-26 Online:2001-08-01 Published:2001-08-01

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从土壤湿度研究的历史出发，阐述了土壤湿度在气候变化乃至全球变化研究中的重要性；并从土壤湿度研究的科学背景出发，总结和综合评述了该研究领域所存在的两个重要科学问题及其研究现状。最后，对未来研究的方向及可能取得的进展进行了论述。

关键词: 土壤湿度, 区域气候变化, 陆面过程, 数值模拟

In this paper, the importance of soil moisture in the studies of climatic change and global change is described according to the development of soil moisture study, and in the light of the scientific background, two important scientific problems and present situation in these studies are reviewed. The results indicate that the absent of observational data is an important factor limiting the study of the relationship between soil moisture and related para meterization scheme is also one of the key project in climate model study.Finally, we have some probable perspectives and suggest a few problem in the study of soil moisture in future.

Key words: Regional climate change, Numerical modeling, Soil moisture, Land surface processes

中图分类号:

P426.1
P467

[1] U S National Research Council. GOALS (Global Ocean-Atmosphere-Land System for) Predicting Seasonal-to-International Climate[M]. Washington D C: National Academy Press, 1994. 103.
[2] Chahine T M. The hydrological cycle and its influence on climate[J]. Nature, 1992,359: 373-380.
[3]Fast J D, McCorcle M D. The effect of heterogeneous soil moisture on a summer baroclinic circulation in the central United States[J]. Mon Weather Rev, 1991,119(6): 2 140-2 167.
[4] Chang J -T, Wetzel R J. Effects of spatial variations of soil moisture and vegetation on the evolution of a prestorm environment：A numerical case study[J]. Mon Wea Rev, 1991, 119: 1 368-1 390.
[5] Mather J R, Feddema J.Hydrologic Consequence of Increases in Trace Gases and Co₂ in the Atmosphere, in Effects of Changes in Stratospheric Ozone and Global Climate[R]. U S Environmental Protection Agency, 1988, 3: 251-271.
[6] Darer L D,Gardner W H, walford R Gardner. Soil physics[M]. Translated by Zhou Chuanhui.Beijing: Agriculture press, 1983.[贝弗尔 L D,加德纳W H,加德纳W R,等著.土壤物理学[M].周传槐译.北京：农业出版社,1983.]
[7] Ma Zhuguo, Fu Congbin.Drought and its varation trend in North China[A].In: The Symposia of Influence of Climate Change on Water Resource in China[C].1991,37-44.[马柱国,符淙斌.中国北方干旱化及其发展趋势[A]. 见：气候变化对中国淡水资源的影响文集[C]. 1991.37-44.]
[8] Dirmeyer P A, Dolman A J, Nobuo Sato. The pilot phase of the Global Soil Wetness Project[J]. Bull of American Meteor Soci, 1999,80(5): 851-878.
[9] Sellers A. Soil Moisture: a critical focus for global change studies[J]. Global and Planetary Change,1996,13: 3~9.
[10]IGPO. Global Soil Wetness Project, Preliminary Report on the Pilot Phase[R]. IGPO publication series, 1998.
[11] Dirmeyer P A, Shukla J. Observational and modeling studies of the influence of soil moisture anomalies on the atmospheric circulation(review)
[A]. In: Shukla J,ed. Predictions of Interannual Climate Variations,NATO Series I [C]. Springer-Verlag, 1993.
[12] Avissar R, Verstrete M M. The representation of continental surface processes in atmospheric models[J]. Rev Geophys, 1990, 28: 35-52.
[13] Dozier J. Opportunities to improve hydrological data[J]. Rev Geophys, 1992, 30: 315-332.
[14]Dumenil L, Bengtsson L. Observational and modeling studies of the land surface anomalies on atmospheric circulation(future directions) [A]. In: Shukla J, ed. Predictions of Interannual Climate Variations, NATO Series I[C]. Springer-Verlag, 1993.
[15] Dirmeyer P A. Problems in initializing soil wetness[J].Bull Amer Meteor Soc, 1995, 76(11): 2 234-2 240.
[16]Saxton K E, Lenz A T. Antecellent retention indices to predict soil moisture[J]. Hydraulics J Div Proc Am Soc Civil Engr,1967, HY4:223-241
[17] Lee T J, Pielke P A. Estimating the soil surface specific humidity[J]. J Appl Meteor,1992, 31: 480-484 .
[18] Karl T R. Some spatial characteristics of drought duration in the United States[J]. J Climate, and Appl Meteor,1983, 22:1 356-1 366.
[19] Smith C B, Lakhtakia M N, Capehart W J, et al. Initialization of soil-water content in regional-scal atmospheric prediction models[J]. Bull of the Amer Meteo Soci, 1994, 75(4): 585-593.
[20] Capehart William J. Issues regarding the remote sensing and modeling of soil moisture for meteorological applications [Dissertation D]. Technical Report Series, No.96-005, Earth System Science Center College of Earth & Mineral Sciences, 1996.
[21] Chen Zhiqiang, et al.Spatial averaging of unsaturated flow equations under infiltration conditions over areally heterogeneous fields I. Development of models[J]. Wat Resourses Res, 1994, 30(2): 523-533.
[22] Bart J J M, Van dan Hurt, et al. A new methodology for assimilation of initial soil moisture fields in weather prediction models using meteosat and NOAA data[J]. J Appl Metero,1997, 36: 1 271-1 283.
[23] Giorgi F, Bates G T. The climatological skill of a regional model over complex terrain[J]. Mon Wea Rev, 1989, 117: 2 325-2 347.
[24] Yang R, Fennessy M J, Shukla J. The influence of initial soil wetness on mdeium-range surface weather forecasts[J].Mon Wea Rev, 1994, 122: 471-485.
[25] Robock A, Schlossser C A, et al, Evaluation of AMIP soil moisture simulations [J].Global and Planet Change, 1998,19:181-208.

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