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科学通报 2011

近期新疆东天山冰川退缩及其对水资源影响

, PP. 2708-2716

李开明,李忠勤,高闻宇,王林

Keywords: 冰川变化,东疆盆地,遥感,水资源,径流

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Abstract:

新疆东疆盆地属于资源性缺水地区.流域内大部分河流的补给依赖于东天山高山区丰富的降水与冰川融水.1981年中日联合考察和2009年中国科学院天山冰川站对该区博格达峰3条冰川考察表明,夏季消融强烈,并有加速退缩趋势.基于1962/1972年地形图及近期的ASTER和SPOT5遥感影像资料,研究了博格达山脉203条冰川和哈尔里克山75条冰川的进退情况.结果表明在1962~2006年间博格达峰地区冰川面积减小了21.6%(0.49%a-1),长度平均退缩181m,冰储量减小了28%;1972~2005年间哈尔里克山冰川面积减小了10.5%(0.32%a-1),长度平均退缩166m,冰储量减小了14%.南坡冰川退缩快于北坡,其中博格达山脉南北坡冰川面积分别减小了25.3%和16.9%,哈尔里克山脉分别减小了12.3%和6.6%.小于0.5km2的冰川退缩最为强烈,而大于2km2的冰川将会成为未来径流的主要贡献者.东疆盆地水系的冰川消融总体呈增强趋势,水资源处在不断恶化之中.该地区坎儿井数量及其水量的锐减,以及有无冰川补给河流径流量的显著变化均与上游冰川退缩有关,未来将会对下游的乌鲁木齐市和吐鲁番盆地的水资源产生影响.

References

[1]	Kehrwald N M, Thompson L G, Yao T, et al. Mass loss on Himalayan glacier endangers water resources. Geophys Res Lett, 2008, 35, doi:10.1029/2008GL035556
[2]	Houghton J T, Jenkins G J, Ephraums J J. Climate Change 1995: The Science of Climate Change. Cambridge: Cambridge University Press, 1996
[3]	Oerlemans J. Extracting a climates signal from 169 glacier records. Science, 2005, 308: 675–677
[4]	薛燕, 韩萍, 冯国华. 半个世纪以来新疆降水和气温的变化趋势. 干旱区研究, 2003, 20: 127–130
[5]	普宗朝, 张山清, 李景林, 等. 近36 年来新疆天山山区气候暖湿变化及其特征分析. 干旱区地理, 2008, 31: 409–415
[6]	胡汝骥, 樊自立, 王亚俊, 等. 近50 年新疆气候变化对环境影响评估. 干旱区地理, 2001, 24: 97–103
[7]	Tian L D, Yao T D, MacClune K, et al. Stable isotopic variations in west China: A consideration of moisture sources. J Geophys Res, 2007, doi: 10.1029/2006JD007718
[8]	Bolch T. Climate change and glacier retreat in northern Tien Shan (Kazakhstan/Kyrgyzstan) using remote sensing data. Glob Planet Change, 2007, 56: 1–12
[9]	Narama C, K？？b A, Duishonakunov M, et al. Spatial variability of recent glacier area changes in the Tien Shan Mountains, Central Asia, using Corona (~1970), Landsat (~2000), and ALOS (~2007) satellite data[J].Glob Planet Change.2010, 71:42-
[10]	杨威, 姚檀栋, 徐柏青, 等. 近期藏东南帕隆藏布流域冰川的变化特征[J].科学通报.2010, 55:1775-？？浏览
[11]	杨威, 姚檀栋, 徐柏青, 等. 青藏高原东南部岗日嘎布地区冰川严重损耗与退缩[J].科学通报.2008, 53:2091-？？浏览
[12]	Bahr D B, Meier M F, Peckham S D. The physical basis of glacier volume-area scaling. J Geophys Res, 1997, 43: 557–562
[13]	Liu S Y, Sun W X, Shen Y P, et al. Glacier changes since the little ice age maximum in the west Qiliang Shan, northwest China, and consequences of glacier runoff for water supply. J Glaciol, 2003, 49: 117–124
[14]	Bahr D B, Dyurgerov M, Meier M F. Sea-level rise from glaciers and ice caps: A lower bound. Geophys Res Lett, 2009, 36, doi: 10.1029/2008GL036309
[15]	胡小刚, 李念杰, 邓世明. 博格达山南坡黑沟冰川融水径流. 冰川冻土, 1990, 12: 71–82
[16]	姜逢清, 胡汝骥. 近50 年来新疆气候变化与洪、旱灾害扩大化. 中国沙漠, 2004, 24: 35–40
[17]	杜刚, 魏守忠, 常绪正, 等. 新疆三工河流域气候暖湿化特征分析. 干旱区研究, 2005, 22: 111–115
[18]	陈亚宁, 徐长春, 杨余辉, 等. 新疆水文水资源变化及其对区域气候变化的响应. 地理学报, 2009, 64: 1331–1341
[19]	Oerlemans J, Reichert B. Relating glacier mass balance of Meteorological data by using a seasonal sensitivity characteristic. J Glaciol, 2000, 46: 1–6
[20]	Casassa G, López P, Pouyaud B, et al. Detection of changes in glacial run-off in alpine basins: Examples from North America, the Alps, Central Asia and the Andes. Hydrol Process, 2009, 23: 31–41
[21]	伍光和, 上田丰, 仇家琪. 天山博格达山脉的自然地理特征及冰川发育的气候条件. 冰川冻土, 1983, 5: 5–16
[22]	王银生, 刘潮海, 丁良福, 等. 中国冰川目录(Ⅲ)—天山山区(东部散流内流区)．北京: 科学出版社, 1986. 1–83
[23]	Khromova T E, Osipova G B, Tsvetkov D G, et al. Changes in glacier extent in the eastern Pamir, Central Asia, determined from historical data and ASTER imagery. Remote Sens Environ, 2006, 102: 24–32
[24]	Bolch T, Kamp U. Glacier mapping in high mountains using DEMs, Landsat and ASTER data. Grazer Schriften Geogr Raumforschung, 2006, 41: 37–48
[25]	Williams R, Hall D K, Sigurosson O, et al. Comparison of satellite-derived with ground-based measurements of the fluctuations of the margins of Vatnaj kull, Iceland, 1973–1992. Ann Glaciol, 1997, 24: 72–80
[26]	Hall D K, Bayr K J, Schner W, et al. Consideration of the errors inherent in mapping historical glacier positions in Austria from the ground and space (1893–2001). Remote Sens Environ, 2003, 86: 566–577
[27]	Bahr D B, Pfeffer W T, Sassolas C, et al. Response time of glaciers as a function of size and mass balance: 1.Theory. J Geophys Res, 1998, 103: 9777–9782
[28]	叶柏生, 丁永建, 刘潮海. 不同规模山谷冰川及其径流对气候变化的响应过程. 冰川冻土, 2001, 23: 103–110
[29]	伍光和, 张顺英, 王仲祥. 天山博格达峰现代冰川的进退变化. 冰川冻土, 1983, 5: 143–152
[30]	王宗太. 博格达峰黑沟8 号冰川发育若干问题浅析. 冰川冻土, 1991, 13: 141–158
[31]	Haeberli W. Glacier fluctuations and climate change detection. Geogr Fis Dinam Quat, 1995, 18: 191–195
[32]	李忠勤, 李开明, 王林. 新疆冰川近期变化及其对水资源的影响研究. 第四纪研究, 2010, 30: 96–106
[33]	李忠勤, 王飞腾, 朱国才, 等. 天山庙尔沟平顶冰川的基本特征和过去24 a 间的厚度变化. 冰川冻土, 2007, 29: 61–65
[34]	Niederer P, Bilenko V, Ershova N, et al. Tracing glacier wastage in the Northern Tien Shan (Kyrgyzstan/Central Asia) over the last 40 years. Clim Change, 2008, 86: 227–234
[35]	Aizen V B, Kuzmichenok V A, Surazakov A B, et al. Glacier changes in the Tien Shan as determined from topographic and remotely sensed data. Glob Planet Change, 2007, 56: 328–340
[36]	周聿超. 新疆河流水文水资源. 乌鲁木齐: 新疆科技卫生出版社, 1999. 101–110
[37]	高鑫, 叶柏生, 张世强, 等. 1961~2006 年塔里木河流域冰川融水变化及其对径流的影响. 中国科学: 地球科学, 2010, 40: 654–665
[38]	高建芳, 骆光晓. 气候变化对新疆哈密地区河川径流的影响分析. 冰川冻土, 2009, 31: 748–758
[39]	施雅风, 曲耀光. 柴窝堡-达坂城地区水资源与环境. 北京: 科学出版社, 1989
[40]	Dyrgerov M B, Meier M F. Twentieth century climate change: Evidence from small glaciers. Proc Natl Acad Sci USA, 2000, 97: 1406–1411
[41]	IPCC. Climate change 2007: The physical science basis. In: Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge: Cambridge University Press, 2007
[42]	Raper S C B, Braithwaite R J. Low sea level rise projections from mountain glaciers and icecaps under global warming. Nature, 2006, 439: 311–313
[43]	任贾文, 叶柏生, 丁永建, 等. 中国冰冻圈变化对海平面上升潜在贡献的初步估计[J].科学通报.2011, 56:1084-？？浏览
[44]	Ding Y, Liu J S. Glacier lake outburst flood disasters in China. Ann Glaciol, 1992, 16: 180–184
[45]	Huggel C, K？？b A, Haeberli W, et al. Remote sensing based assessment of hazards from glacier lake outbursts: A case study in the Swiss Alps. Can Geotech J, 2002, 39: 316–330
[46]	姚檀栋, 刘时银, 蒲建辰, 等. 高亚洲冰川的近期退缩及其对西北水资源的影响. 中国科学D 辑: 地球科学, 2004, 34: 535–543
[47]	王润, Ernst G, 高前兆. 近期博斯腾湖水位变化及其原因分析. 冰川冻土, 2003, 25: 60–64
[48]	康尔泗. 天山博格达峰北坡的冰川融水径流及其对河流的补给. 冰川冻土, 1983, 5: 113–122

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