西藏冻融侵蚀分级评价
收稿日期: 2006-05-18
修回日期: 2006-07-18
网络出版日期: 2006-09-25
基金资助
国家重大基础研究前期研究专项 (2004CCA03600)
Classification and Assessment of Freeze-thaw Erosion in Tibet
Received date: 2006-05-18
Revised date: 2006-07-18
Online published: 2006-09-25
Supported by
Early-Stage Research on Key Basic Research Projects of China, No.2004CCA03600
张建国,刘淑珍,杨思全 . 西藏冻融侵蚀分级评价[J]. 地理学报, 2006 , 61(9) : 911 -918 . DOI: 10.11821/xb200609002
Freeze-thaw erosion is the third largest soil erosion type after water erosion and wind erosion. Up to now, being restricted by many factors, few researches on freeze-thaw erosion have been done at home and abroad, especially on the assessment method of freeze-thaw erosion. Based on the comprehensive analysis of impact factors of free-thaw erosion, this paper chooses six indexes, including the annual temperature range, annual precipitation, slope, aspect, vegetation and soil, to build the model for relative classification of freeze-thaw erosion using weighted and additive methods and realizes the relative classification of the freeze-thaw erosion in Tibet with the support of GIS software. Then a synthetic assessment of freeze-thaw erosion in Tibet has been carried out according to the relative classification result. The result shows that the distribution of freeze-thaw erosion area is very extensive, accounting for 55.3% of the total land area of Tibet. The spatial differentiation of freeze-thaw erosion with different intensities is obvious and the difference in distribution among different freeze-thaw areas is also obvious.
Key words: Tibet; freeze-thaw erosion; GIS; classification and assessment
[1] Tang Keli. Soil and Water Conservation in China. Beijing: Science Press, 2003. 3-27.
[唐克丽. 中国水土保持. 北京: 科学出版社, 2003. 3-27.]
[2] Tang Keli. Characteristics and perspectives on scientific discipline of soil erosion and soil and water conservation in China. Research of Soil and Water Conservation, 1999, 6(2): 2-7.
[唐克丽. 中国土壤侵蚀与水土保持学的特点及展望. 水土保持研究, 1999, 6(2): 2-7.]
[3] Fan Haoming, Cai Qiangguo. Review of research progress in freeze-thaw erosion. Science of Soil and Water Conservation, 2003, 1(4): 50-55.
[范昊明, 蔡强国. 冻融侵蚀研究进展. 中国水土保持科学, 2003, 1(4): 50-55.]
[4] Dong Ruikun, Xu Zhaoyi, Yang Chengyong. Freeze-thaw erosion in Qinghai-Tibet Plateau. Yangtze River, 2000, 31(9): 39-41.
[董瑞琨, 许兆义, 杨成永. 青藏高原的冻融侵蚀问题. 人民长江, 2000, 31(9): 39-41.]
[5] Zhang Jianguo, Liu Shuzhen. A new way for definiting the freezing-thaw erosion area in Tibet. Geography and Geo-Information Science, 2005, 21(2): 32-34.
[张建国, 刘淑珍. 界定西藏冻融侵蚀区分布的一种新方法. 地理与地理信息科学, 2005, 21(2): 32-34.]
[6] Zhu Liping, Whalley W B, Wang Jiacheng. A simulated weathering experiment of small free granite blocks under freeze-thaw conditions. Journal of Glaciology and Geocryology, 1997, 19(4): 313-319.
[朱立平, Whalley W B, 王家澄. 寒冻条件下花岗岩小块体的风化模拟试验及其分析. 冰川冻土, 1997, 19(4): 313-319.]
[7] Qiu Guoqing, Zhou Youwu, Cheng Guodong et al. Geocryology in China. Beijing: Science Press, 2000. 15-20, 115.
[邱国庆, 周幼吾, 程国栋 等. 中国冻土. 北京: 科学出版社, 2000. 15-20, 115.]
[8] Jane C Froese, Richard M Cruse, Mohammadreza Ghaffarzadeh. The mechanism of freezing and thawing erosion. Scientific and Technical Information of Soil and Water Conservation, 2001, (3): 26-28.
[Jane C Froese, Richard M Cruse, Mohammadreza Ghaffarzadeh. 冻融侵蚀机理. 水土保持科技情报, 2001, (3): 26-28.]
/
| 〈 |
|
〉 |