Abstract
Currently, one of the effective means in monitoring glacier change in regional scale is remote sensing and site-observation method. In this article, we present a study of comparing glacier area in 2005 derived from SPOT5 satellite image with area in 1972 derived from topographic maps. Moreover, Miaoergou (庙儿沟) flat-summit glacier is site observed to verify glacial change in regional scale. During the study period, glaciers located in the southern slope of Kalik (喀尔里克) Mountain reduced their area by 12.3%. The high individual change indicates that the wastage corresponding to area changes has been the dominant process of glacier mass loss in this region. Glaciers smaller than the mean size (1.3 km2), especially those <0.5 km2, lost more of their area with high variability and yielding two glaciers vanished. It is suggested that small glaciers are prone to disappear under such climate conditions in future years. With the difference supplied by upstream glaciers, there appears great disparity trend of river runoff recently. Seen from decade-scale, the discharge, the lower glacier-covered catchment, is decreased because of strong consumption of small glaciers during the past decades. Owing to the rivers that are supplied by more meltwater from medium and larger glaciers mainly, the trend of the river runoff increase is still going on. Trends of river runoff of three different glacier-covered catchments exhibit distinctive results. This implies that retreating glaciers will reduce the ability to regulate the water circulation.
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References Cited
Arendt, A., Walsh, J., Harrison, W., 2009. Changes of Glaciers and Climate in Northwestern North America during the Late Twentieth Century. Journal of Climate, 22(15): 4117–4134
Bahr, D. B., Pfeffer, W. T., Sassolas, C., et al., 1998. Response Time of Glaciers as a Function of Size and Mass Balance: 1. Theory. Journal of Geophysical Research, 103(B5): 9777–9782
Barnett, T. P., Adam, J. C., Lettenmaier, D. P., 2005. Potential Impacts of a Warming Climate on Water Availability in Snow-Dominated Regions. Nature, 438(7066): 303–309
Barry, R. G., 2006. The Status of Research on Glaciers and Global Glacier Recession: A Review. Progress in Physical Geography, 30(3): 285–306
Beniston, M., 2006. Mountain Weather and Climate: A General Overview and a Focus on Climatic Change in the Alps. Hydrobiologia, 562: 3–16
Bolch, T., 2007. Climate Change and Glacier Retreat in Northern Tien Shan (Kazakhstan/Kyrgyzstan) Using Remote Sensing Data. Global and Planetary Change, 56(1–2): 1–12
Bolch, T., Kamp, U., 2006. Glacier Mapping in High Mountains Using DEMs, Landsat and Aster Data. Grazer Schriften der Geographie und Raumforschung, 41: 37–48
Braithwaite, R. J., Olesen, O. B., 1988. Effect of Glaciers on Annual Run-off, Johan Dahl Land, South Greenland. Journal of Glaciology, 34(117): 200–207
Brenning, A., Trombotto, D., 2006. Logistic Regression Modeling of Rock Glacier and Glacier Distribution: Topographic and Climatic Controls in the Semi-Arid Andes. Geomorphology, 81(1–2): 141–154
Chen, J. Y., Ohmura, A., 1990. On the Influence of Alpine Glaciers on Runoff. IAHS Publ., 193: 117–125
Debeer, C. M., Sharp, M. J., 2009. Topographic Influences on Recent Changes of very Small Glaciers in the Monashee Mountains, British Columbia, Canada. Journal of Glaciology, 55(192): 691–700
Dyurgerov, M. B., Meier, M. F., 2000. Twentieth Century Climate Change: Evidence from Small Glaciers. Proceedings of the National Academy of Sciences of the United States of America, 97(4): 1406–1411
Evans, I. S., 2006. Local Aspect Asymmetry of Mountain Glaciation: A Global Survey of Consistency of Favoured Directions for Glacier Numbers and Altitudes. Geomorphology, 73(1–2): 166–184
Fountain, A. G., Tangborn, W. V., 1985. The Effect of Glaciers on Streamflow Variations. Water Resources Research, 21(4): 579–586
Hock, R., Jansson, P., Braun, L. N., 2005. Modelling the Response of Mountain Glacier Discharge to Climate Warming. In: Huber, U. M., Bugmann, H. K. M., Reasoner, M. A., eds., Global Change and Mountain Regions (A State of Knowledge Overview). Springer, Dordrecht. 243–252
Howat, I. M., Smith, B. E., Joughin, I., et al., 2008. Rates of Southeast Greenland Ice Volume Loss from Combined ICESat and ASTER Observations. Geophysical Research Letters, 35(17): L17505
Jansson, P., Hock, R., Schneider, T., 2003. The Concept of Glacier Storage: A Review. Journal of Hydrology, 282(1–4): 116–129
Kehrwald, N. M., Thompson, L. G., Yao, T. D., et al., 2008. Mass Loss on Himalayan Glacier Endangers Water Resources. Geophysical Research Letters, 35(22): L22503
Lanzhou Institute of Glaciology and Geocryology, Chinese Academy of Sciences, 1987. Glacier Inventory of China (III)—Tianshan Mountains (Interior Drainage Area of Tarim Basin in Southwest). Science Press, Beijing. 1–72 (in Chinese)
Li, B. L., Zhu, A. X., Zhang, Y. C., et al., 2006. Glacier Change over the Past Four Decades in the Middle Chinese Tien Shan. Journal of Glaciology, 52(178): 425–432
Li, K. M., Li, H. L., Wang, L., et al., 2011. On the Relationship between Local Topography and Small Glacier Change under Climatic Warming on Mt. Bogda, Eastern Tian Shan, China. Journal of Earth Science, 22(4): 515–527
Li, Z. Q., Han, T. D., Jing, Z. F., et al., 2003. A Summary of 40-Year Observed Variation Facts of Climate and Glacier No. 1 at the Headwaters of Urumqi River, Tianshan, China. Journal of Glaciology and Geocryology, 25(2): 117–123 (in Chinese with English Abstract)
Li, Z. Q., Li, K. M., Wang, L., 2010. Study on Recent Glacier Changes and Their Impact on Water Resources in Xinjiang, North Western China. Quaternary Sciences, 30(1): 96–106
Li, Z. Q., Wang, F. T., Zhu, G. C., et al., 2007a. Basic Features of the Miaoergou Flat-Topped Glacier in East Tianshan Mountains and Its Thickness Change over the Past 24 Years. Journal of Glaciology and Geocryology, 29(1): 61–65 (in Chinese with English Abstract)
Li, Z. Q., Shen, Y. P., Wang, F. T., et al., 2007b. Response of Glacier Melting to Climate Change—Take Urumqi Glaicer No. 1 as an Example. Journal of Glaciology and Geocryology, 29(3): 333–342
Liu, S. Y., Zhang, Y., Zhang, Y. S., et al., 2009. Estimation of Glacier Runoff and Future Trends in the Yangtze River Source Region, China. Journal of Glaciology, 55(190): 353–362
Liu, Y. P., Hou, S. G., Ren, J. W., et al., 2006. Distribution Features of Borehole Temperatures in the Miaoergou Flat-Topped Glacier, East Tianshan Mountains. Journal of Glaciology and Geocryology, 28(5): 668–671 (in Chinese with English Abstract)
Meier, M. F., Dyurgerov, M. B., McCabe, G. J., 2003. The Health of Glaciers: Recent Changes in Glacier Regime. Climatic Change, 59(1–2): 123–135
Milner, A. M., Brown, L. E., Hannah, D. M., 2009. Hydroecological Response of River Systems to Shrinkage Glaciers. Hydrological Processes, 23(1): 62–77
Narama, C., Kaab, A., Duishonakunov, M., et al., 2010. Spatial Variability of Recent Glacier Area Changes in the Tien Shan Mountains, Central Asia, Using Corona (∼1970), Landsat (∼2000), and ALOS (∼2007) Satellite Data. Global and Planetary Change, 71(1–2): 42–54
Oerlemans, J., 2005. Extracting a Climate Signal from 169 Glacier Records. Science, 308(5722): 675–677
Oerlemans, J., Reichert, B. K., 2000. Relating Glacier Mass Balance to Meteorological Data by Using a Seasonal Sensitivity Characteristic. Journal of Glaciology, 46(152): 1–6
Østrem, G., 1973. Runoff Forecasts for Highly Glacierized Basins: The Role of Snow and Ice in Hydrology. Proceedings of the Banff Symposium, September 1972. IAHS, 107: 1111–1129
Paterson, W. S. B., 1994. The Physics of Glaciers. 3rd Ed. Pergamon Press, Oxford
Paul, F., 2001. Evaluation of Different Methods for Glacier Mapping Using Landsat TM. EARSeL eProceedings, 1(1): 239–245
Paul, F., Huggel, C., Kaeaeb, A., et al., 2003a. Comparison of TM-Derived Glacier Areas with Higher Resolution Data Sets. EARSeL eProceedings, 2(1): 15–21
Paul, F., Kaab, A., Maisch, M., et al., 2002b. The New Remote-Sensing-Derived Swiss Glacier Inventory: I. Methods. Annals of Glaciology, 34: 355–361
Qian, W. H., Quan, L. S., Shi, S. Y., 2002. Variations of the Dust Storm in China and Its Climatic Control. Journal of Climate, 15(10): 1216–1229
Raup, B., Kaab, A., Kargel, J. S., et al., 2007. Remote Sensing and GIS Technology in the Global Land Ice Measurements from Space (GLIMS) Project. Computers & Geosciences, 33(1): 104–125
Ren, B. H., 1988. Existing Glacier Fluctuation and Its Relation to the Climatical Changes in China. Journal of Glaciology and Geocryology, 10(3): 244–249
Shangguan, D., Liu, S. Y., Ding, Y. J., et al., 2009. Glacier Changes during the Last Forty Years in the Tarim Interior River Basin, Northwest China. Progress in Nature Science, 19(6): 727–732
Shen, Y. P., Wang, S. D., Wang, G. Y., et al., 2006. Response of Glacier Flash Flood to Global Warming in Tarim River Basin. Advances in Climate Change Research, 1: 32–35
Shi, Y. F., Huang, M. H., Yao, T. D., et al., 2008. Glaciers and Related Environments in China. Science Press, Beijing. 42–51
Shi, Y. F., Shen, Y. P., Kang, E. S., et al., 2007. Recent and Future Climate Change in Northwest China. Climatic Change, 80(3–4): 379–393
Shiklomanov, I. A., 1999. World Water Resources and Their Use. State Hydrological Institute (SHI), St. Petersburg
Tian, L. D., Yao, T. D., MacClune, K., et al., 2007. Stable Isotopic Variations in West China: A Consideration of Moisture Sources. Journal of Geophysical Research, 112(D10): D10112
Toutin, T., 1995. Multi-source Data Fusion with an Integrated and Unified Geometric Modelling. Journal EARSel—Advances in Remote Sensing, 4(2): 118–129
Wang, X. M., Dong, Z. B., Zhang, J. W., et al., 2004. Modern Dust Storms in China: An Overview. Journal of Arid Environments, 58(4): 559–574
Wang, Y. T., Hou, S. G., Liu, Y. P., 2009. Glacier Changes in the Karlik Shan, Eastern Tien Shan, during 1971/72-2001/02. Annals of Glaciology, 50(53): 39–45
Xie, Z. C., Wang, X., Kang, E. S., et al., 2006. Glacial Runoff in China: An Evaluation and Prediction for the Future 50 Years. Journal of Glaciology and Geocryology, 28(4): 457–466 (in Chinese with English Abstract)
Ye, B. S., Yang, D. Q., Jiao, K. Q., et al., 2005. The Urumqi River Source Glacier No. 1, Tianshan, China: Changes over the Past 45 Years. Geophysical Research Letters, 32(21): L21504
Zemp, M., Haeberli, W., Hoelzle, M., et al., 2006. Alpine Glaciers to Disappear Within Decades? Geophysical Research Letters, 33(13): L13504
Zemp, M., Hoelzle, M., Haeberli, W., 2007. Distributed Modelling of the Regional Climatic Equilibrium Line Altitude of Glaciers in the European Alps. Global and Planetary Change, 56(1–2): 83–100
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This study was supported by the Knowledge Innovation Project of the Chinese Academy of Sciences (No. KZCX2-EW-311), the National Basic Research Program of China (No. 2010CB951003), the National Natural Science Foundation of China (Nos. Y111141001, J0630966), and the Foundation for Excellent Youth Scholars of CAREERI, CAS (No. 51Y084911).
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Wang, W., Li, K. & Gao, J. Monitoring glacial shrinkage using remote sensing and site-observation method on southern slope of Kalik Mountain, eastern Tian Shan, China. J. Earth Sci. 22, 503–514 (2011). https://doi.org/10.1007/s12583-011-0203-8
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DOI: https://doi.org/10.1007/s12583-011-0203-8