Distribution of Thermokarst Lakes and Its Thermal Influence on Permafrost along Qinghai-Tibet Highway
Received date: 2012-11-19
Revised date: 2013-04-08
Online published: 2013-06-10
The occurrence of thermokarst lake is an indicator implying the permafrost warming. A study of thermokarst lake and their thermal effect will become an important basic work that responds to the permafrost hazards induced by the climate changes and the anthropogenic activities on the QinghaiTibet Plateau. Based on SPOT-5 satellite image data, we interpreted and obtained the area and quantity of thermokarst lakes from Chumaerhe to Fenghuoshan Mountain section along the Qinghai-Tibet Highway under the ArcGIS platform in this paper. The result shows that these thermokarst lakes have mainly spread in Chumaerhe High Plains and Beiluhe Basin and approximately 80% lakes have been developing in rich-ice permafrost regions. The thermokarst lake influences the permafrost through downward and lateral heat transfer. The downward heat transfer accelerates the thawing of permafrost and the formation of an open-talik, the lateral heat erosion will cause the permafrost warming at lakeshore and expand the scope of the heat-affected. The modeled result of a typical thermokarst lake in Beiluhe Basin shows that the lake has always released the heat to lakeshore in a whole year. If the thermokarst lake is close to the roadbed, it will cause influence on the stability of roadbed, especially the lateral thermal erosion often leads to the temperature increases of frozen soil subgrade and induces the embankment disease.
Niu Fujun , Dong Cheng , Lin Zhanju , Lu Jiahao , Luo Jing . Distribution of Thermokarst Lakes and Its Thermal Influence on Permafrost along Qinghai-Tibet Highway[J]. Advances in Earth Science, 2013 , 28(6) : 695 -702 . DOI: 10.11867/j.issn.1001-8166.2013.06.0695
[1]Qiu Guoqing, Liu Jingren, Liu Hongxu, et al. Dictionary of Permafrost[M]. Lanzhou: Gansu Science and Technology Press, 1994:275.[邱国庆, 刘经仁, 刘洪绪,等. 冻土学词典[M]. 兰州: 甘肃科学技术出版社, 1994:275.]
[2]Zhou Youwu, Guo Dongxin, Qiu Guoqing, et al. Geocryology in China[M]. Beijing:Science Press,2000:401-405.[周幼吾, 郭东信, 邱国庆,等. 中国冻土[M]. 北京: 科学出版社, 2000:401-405.]
[3]Liu Ge, Fan Kai, Zhang Jinzhao, et al. Permafrost changes under the influence of Qinghai-Tibet Highway[J]. Journal of China and Foreign Highway, 2008, 28(1): 25-27.[刘戈, 樊凯, 章金钊,等. 青藏公路工程条件下多年冻土的变化[J]. 中外公路, 2008,28(1): 25-27.]
[4]Lin Zhanju. Study of Thermokarst Lake and Its Influence on the Permafrost Environment and Engineering[D]. Beijing: University of Chinese Academy of Sciences, 2011.[林战举. 多年冻土区热喀斯特湖特征及其对冻土环境与工程的影响研究[D]. 北京: 中国科学院大学, 2011.]
[5]Lawson D E. Response of permafrost terrain to disturbance: A synthesis of observation from permafrost in the Alaska[J]. Arctic and Alpine Research,1986,18(1): 1-17.
[6]Ling F, Zhang T. Numerical simulation of permafrost thermal regime and talik development under shallow thaw lakes on the Alaskan Arctic and Coastal Plain[J]. Journal of Geophysical Research, 2003,108(D16),doi:10.1029/2002JD003014.
[7]Wang Shaoling.Thermokarst along the Qinghai-Tibet Highway[C]∥Geographical Society of China and China Civil Engineering Society, Proceeding of Second National Conference on Permafrost. Lanzhou: Gansu People’s Publishing House, 1983: 58-64.[王绍令. 青藏公路沿线的热喀斯特[C]∥中国地理学会中国土木工程学会第二届全国冻土学术会议论文选集.兰州:甘肃人民出版社, 1983: 58-64.]
[8]Pan Weidong, Zhu Yuanlin, Wu Yaping, et al. The effect of harmful features related to frozen ground on railway construction in permafrost area of Qinghai-Tibet Plateau[J]. Journal of Lanzhou University (Natural Sciences), 2002, 38: 127-131.[潘卫东, 朱元林, 吴亚平,等. 青藏高原多年冻土地区不良现象对铁路间色和的影响[J]. 兰州大学学报:自然科学版, 2002,38: 127-131.]
[9]Yu Shaoshui, Pan Weidong, Shi Conghui, et al. Investigation and mechanism analysis of the major secondary harmful frozen-soil phenomena along Qinghai-Tibet Railway[J]. Chinese Journal of Rock Mechanics and Engineering, 2005, 24(6): 1 082-1 085.[余绍水, 潘卫东, 史聪慧,等. 青藏铁路沿线主要次生不良冻土现象的调查和机理分析[J]. 岩石力学与工程学报, 2005,24(6): 1 082-1 085.]
[10]Ma Xiaojie, Zhang Jianming, Chang Xiaoxiao, et al. Experimental study on creep of warm and ice-rich frozen soil[J]. Chinese Journal of Geotechnical Engineering, 2007, 29(6): 848-852.[马小杰, 张建明, 常小晓,等. 高温—高含冰量冻土蠕变试验研究[J]. 岩土工程学报, 2007, 29(6): 848-852.]
[11]Lunardini V J. Climatic warming and the degradation of warm permafrost[J]. Permafrost Periglacial Processes, 1996, 7: 311-320.
[12]Xu Jian, Niu Fujun, Lin Zhanju. Numerical analysis of rheological character of embankment with warm and ice-rich frozen soil[J]. China Railway Science, 2008, 29(5): 13-19.[许健, 牛富俊, 林战举. 高温高含冰量冻土路基流变特性数值分析[J]. 中国铁道科学, 2008, 29(5): 13-19.]
[13]Zhang J, Ma X, Zheng B. Experimental study on mechanism of subgrade deformation in permafrost regions along Qinghai-Tibetan Railway[C]∥Proceeding of the Ninth International Conference on Permafrost. Fairbanks: University of Alaska Fairbanks, 2008:2 043-2 048.
[14]Wang Shaoling. Permafrost changes and environmental problems along Qinghai-Tibetan Railway[J]. China Environmental Sciences, 1993, 13(5): 344-349.[王绍令. 青藏公路沿线多年冻土的变化及环境问题[J]. 中国环境科学, 1993, 13(5): 344-349.]
[15]Jin Huijun, Yu Qihao, Wang Shaoling, et al. Changes in permafrost environments along the Qinghai-Tibet engineering corridor induced by anthropogenic activities and climate warming[J]. Cold Regions Science and Technology, 2008, 53(3): 317-333.
[16]Yang Shiming,Tao Wenshuan. Heat Transfer: Fourth Version[M]. Beijing: Higher Education Press, 2006: 10-63.[杨世铭, 陶文栓. 传热学:第四版[M]. 北京: 高等教育出版社, 2006: 10-63.]
[17]Lin Zhanju, Niu Fujun, Liu Hu, et al. Disturbance-related thawing of a ditch and its influence on roadbeds on permafrost[J]. Cold Regions Science and Technology, 2011, doi: 10.1016/j.coldregions.2011.01.006.
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