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Glacier changes in the Karlik Shan, eastern Tien Shan, during 1971/72–2001/02

  • Yetang Wang (a1) (a2), Shugui Hou (a1) and Yaping Liu (a1)
Abstract

Glacier changes in the Karlik Shan, eastern Tien Shan, from 1971/72 to 2001/02 were monitored in this study. Topographic maps of 1 : 50 000 scale based on aerial photographs from 1971/72 and satellite images (Landsat TM, Landsat ETM+ and ASTER) from 1992, 2001 and 2002 were used to map glacier extent through a process of manual digitizing. The total glacier area decreased by 5.3% from 1971/72 to 2001/02. The rate of glacier area shrinkage was 0.13% a–1 between 1972 and 1992, but it was 0.27% a–1 from 1992 to 2001/02, suggesting accelerated glacier retreat in recent decades. Glacier changes in the region are a response to summer temperature increase. Annual precipitation also showed an upward trend, but this could not compensate for the mass loss due to ablation.

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References
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Aizen, V.B., Kuzmichenok, V.A., Surazakov, A.B. and Aizen, E.M.. 2007. Glacier changes in the Tien Shan as determined from topographic and remotely sensed data. Global Planet. Chang., 56 (3–4), 328–340.
Barry, R.G. 2006. The status of research on glaciers and global glacier recession: a review. Progr. Phys. Geogr., 30 (3), 285–306.
Bevington, P.R. 1969. Data reduction and error analysis for the physical sciences. New York, McGraw-Hill.
Bolch, T. 2007. Climate change and glacier retreat in northern Tien Shan (Kazakhstan/Kyrgystan) using remote sensing data. Global Planet. Change, 56 (1–2), 1–12.
Braithwaite, R.J. and Zhang, Y.. 2000. Sensitivity of mass balance of five Swiss glaciers to temperature changes assessed by tuning a degree-day model. J. Glaciol., 46 (152), 7–14.
Chen, J., Liu, C. and Jin, M.. 1996. Application of the repeated aerial photogrammetry to monitoring glacier variation in the drainage area of the Ürümqi River. J. Glaciol. Geocryol., 18 (4), 331–336. [In Chinese with English summary.]
Chueca, J., Julián, A. and Lόpez-Moreno, J.I.. 2007. Recent evolution (1981–2005) of the Maladeta glaciers, Pyrenees, Spain: extent and volume losses and their relation with climatic and topographic factors. J. Glaciol., 53 (183), 547–557.
Congalton, R.G. 1991. A review of assessing the accuracy of classifications of remotely sensed data. Remote Sens. Environ., 37 (1), 35–46.
Fujita, K. and Y., Ageta. 2000. Effect of summer accumulation on glacier mass balance on the Tibetan Plateau revealed by mass-balance model. J. Glaciol., 46 (153), 244–252.
Granshaw, F.D. and Fountain, A.G.. 2006. Glacier change (1958–1998) in the North Cascades National Park Complex, Washington, USA. J. Glaciol., 52 (177), 251–256.
Haeberli, W., Cihlar, J. and Barry, R.G.. 2000. Glacier monitoring within the Global Climate Observing System. Ann. Glaciol., 31, 241–246.
Hall, D.K., Williams, R.S., Jr and Bayr, K.J.. 1992. Glacier recession in Iceland and Austria as observed from space. Eos, 73 (12), 129, 135, 141.
Hall, D.K., Benson, C.S. and Field, W.O.. 1995. Changes of glaciers in Glacier Bay, Alaska, using ground and satellite measurements. Phys. Geogr., 16 (1), 27–41.
Hall, D.K., Bayr, K.J., Schöner, W., Bindschadler, R.A. and Chien, J.Y.L.. 2003. Consideration of the errors inherent in mapping historical glacier positions in Austria from the ground and space (1893–2001). Remote Sens. Environ., 86 (4), 566–577.
Jarvis, A., Rubiano, J., Nelson, A., Farrow, A. and Mulligan, M.. 2004. Practical use of SRTM data in the tropics: comparisons with digital elevation models generated from cartographic data. Cali, International Centre for Tropical Agriculture. (CIAT Working Document 198.)
Jin, R., Xin, L., Che, T., Wu, L. and Mool, P.. 2005. Glacier area changes in the Pumqu river basin, Tibetan Plateau, between the 1970s and 2001. J. Glaciol., 51 (175), 607–610.
Kääb, A. 2005. Combination of SRTM3 and repeat ASTER data for deriving alpine glacier flow velocities in the Bhutan Himalaya. Remote Sens. Environ., 94 (4), 463–474.
Kääb, A., Paul, F., Maisch, M.,Hoelzle, M. and Haeberli, W.. 2002. The new remote-sensing-derived Swiss glacier inventory: II. First results. Ann. Glaciol., 34, 362–366.
Kang, E. 1996. Characteristics of energy balance and computation on the mass balance of the high-Asia cryosphere. J. Glaciol. Geocryol., 18, 12–22. [In Chinese with English summary.]
Kargel, J.S. and 16 others. 2005. Multispectral imaging contributions to global land ice measurements from space. Remote Sens. Environ., 99 (1–2), 187–219.
Kaser, G. and Osmaston, H. 2002. Tropical glaciers. Cambridge, etc., Cambridge University Press.
Khromova, T.E., Dyurgerov, M.B. and Barry, R.G.. 2003. Late-twentieth century changes in glacier extent in the Ak-shirak Range, Central Asia, determined from historical data and ASTER imagery. Geophys. Res. Lett., 30 (16), 1863. (10.1029/ 2003GL017233.)
Li, Z., Wang, F., Zhu, G. and Li, H.. 2007. Basic features of the Miaoergou flat-topped glacier in East Tianshan Mountains and its thickness change over the past 24 years. J. Glaciol. Geocryol., 29 (1), 61–65. [In Chinese with English summary.]
Liu, X. and B., Chen. 2000. Climatic warming in the Tibetan Plateau during recent decades. Int. J. Climatol., 20 (14), 1729–1742.
Liu, Y., Hou, S., Ren, J., Wang, Y. and Gen, Z.. 2006. Distribution features of borehole temperatures in the Miaoergou flat-topped glacier, East Tianshan Mountains. J. Glaciol. Geocryol., 28 (5), 668–671. [In Chinese.]
Mark, B.G. and Seltzer, G.O.. 2005. Evaluation of recent glacier recession in the Cordillera Blanca, Peru (AD 1962–1999): spatial distribution of mass loss and climatic forcing. Quat. Sci. Rev., 24(20–21), 2265–2280.
Möller, M., Schneider, C. and Kilian, R.. 2007. Glacier change and climate forcing in recent decades at Gran Campo Nevado, southernmost Patagonia. Ann. Glaciol., 46, 136–144.
Oerlemans, J. and Fortuin, J.P.F.. 1992. Sensitivity of glaciers and small ice caps to greenhouse warming. Science, 258(5079), 115–117.
Oerlemans, J. and 10 others. 1998. Modelling the response of glaciers to climate warming. Climate Dyn., 14 (4), 267–274.
Paul, F. 2003. The new Swiss glacier inventory 2000: application of remote sensing and GIS. (PhD thesis, University of Zürich.)
Paul, F., Kääb, A., Maisch, M., Kellenberger, T. and Haeberli, W.. 2002. The new remote-sensing-derived Swiss glacier inventory. I. Methods. Ann. Glaciol., 34, 355–361.
Paul, F., Huggel, C., Kääb, A., Kellenberger, T. and Maisch, M.. 2003. Comparison of TM-derived glacier areas with higher resolution data sets. Earsel eProc., 2 (1), 15–21.
Paul, F., Huggel, C. and Kääb, A.. 2004. Combining satellite multispectral image data and a digital elevation model for mapping debris-covered glaciers. Remote Sens. Environ., 89 (4), 510–518.
Paul, F., Kääb, A. and Haeberli, W.. 2007. Recent glacier changes in the Alps observed by satellite: consequences for future monitoring strategies. Global Planet. Change, 56 (1–2), 111–122.
Rabus, B., Eineder, M., Roth, A. and Bamler, R.. 2003. The shuttle radar topography mission – a new class of digital elevation models acquired by spaceborne radar. ISPRS J. Photogramm. Rem. Sens., 57 (4), 241–262.
Racoviteanu, A.E., Arnaud, Y., Williams, M.W. and Ordoñez, J.. 2008. Decadal changes in glacier parameters in the Cordillera Blanca, Peru, derived from remote sensing. J. Glaciol., 54 (186), 499–510.
Shi, Y. and 6 others. 2007. Recent and future climate change in northwest China. Climatic Change, 80 (3–4), 379–393.
Silverio, W. and Jaquet, J.M.. 2005. Glacial cover mapping (1987–1996) of the Cordillera Blanca (Peru) using satellite imagery. Remote Sens. Environ., 95 (3), 342–350.
Stokes, C.R., Popovnin, V., Aleynikov, A., Gurney, S.D. and Shahgedanova, M.. 2007. Recent glacier retreat in the Caucasus Mountains, Russia, and associated increase in supraglacial debris cover and supra-/proglacial lake development. Ann. Glaciol., 46, 195–203.
Wang, Y. and 7 others. 1986. Glacier inventory of China III. Tien Shan mountains (interior drainage area of scattered flow in east). Beijing, Science Press. Academia Sinica, Lanzhou Institute of Glaciology and Geocryology. [In Chinese.]
Williams, R.S., Jr, Hall, D.K. and Benson, C.S.. 1991. Analysis of glacier facies using satellite techniques. J. Glaciol., 37 (125), 120–128.
Yao, T., Liu, X., Wang, N. and Shi, Y.. 2000. Amplitude of climatic changes in Qinghai–Tibetan Plateau. Chinese Sci. Bull., 45 (13), 1236–1243.
Yao, T.D., Wang, Y.Q., Liu, S.Y., Pu, J.C., Shen, Y.P. and Lu, A.X.. 2004. Recent glacial retreat in High Asia in China and its impact on water resource in Northwest China. Sci. China D, 47 (12), 1065–1075.
Ye, B., Ding, Y., Liu, F. and Liu, C.. 2003. Responses of various-sized alpine glaciers and runoff to climatic change. J. Glaciol., 49 (164), 1–8.
Ye, Q., Kang, S., Chen, F. and Wang, J.. 2006. Monitoring glacier variations on Geladandong mountain, central Tibetan Plateau, from 1969 to 2002 using remote-sensing and GIS technologies. J. Glaciol., 52 (179), 537–545.
Zhang, J. and Goodchild, M.F. 2002. Uncertainty in geographical information. London, Taylor & Francis.
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Annals of Glaciology
  • ISSN: 0260-3055
  • EISSN: 1727-5644
  • URL: /core/journals/annals-of-glaciology
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