Twentieth century climate change: evidence from small glaciers.

The relation between changes in modern glaciers, not including the ice sheets of Greenland and Antarctica, and their climatic environment is investigated to shed light on paleoglacier evidence of past climate change and for projecting the effects of future climate warming on cold regions of the world. Loss of glacier volume has been more or less continuous since the 19th century, but it is not a simple adjustment to the end of an "anomalous" Little Ice Age. We address the 1961-1997 period, which provides the most observational data on volume changes. These data show trends that are highly variable with time as well as within and between regions; trends in the Arctic are consistent with global averages but are quantitatively smaller. The averaged annual volume loss is 147 mm.yr(-1) in water equivalent, totaling 3.7 x 10(3) km(3) over 37 yr. The time series shows a shift during the mid-1970s, followed by more rapid loss of ice volume and further acceleration in the last decade; this is consistent with climatologic data. Perhaps most significant is an increase in annual accumulation along with an increase in melting; these produce a marked increase in the annual turnover or amplitude. The rise in air temperature suggested by the temperature sensitivities of glaciers in cold regions is somewhat greater than the global average temperature rise derived largely from low altitude gauges, and the warming is accelerating.

[1]  J. Oerlemans Quantifying Global Warming from the Retreat of Glaciers , 1994, Science.

[2]  Samuel C. Colbeck Glaciers, Ice Sheets and Volcanoes: A Tribute to Mark F. Meier. , 1996 .

[3]  J. Wahr,et al.  Effect of melting glaciers on the Earth's rotation and gravitational field: 1965–1984 , 1992 .

[4]  Kevin E. Trenberth,et al.  Recent Observed Interdecadal Climate Changes in the Northern Hemisphere , 1990 .

[5]  Edward G. Josberger,et al.  Climate Variations and Changes in Mass of Three Glaciers in Western North America , 1998 .

[6]  B. Anderson,et al.  Modelling the response of glaciers to climate warming , 1998 .

[7]  Tómas Jóhannesson,et al.  Time–Scale for Adjustment of Glaciers to Changes in Mass Balance , 1989, Journal of Glaciology.

[8]  J. Stone Climate change 1995: The science of climate change. Contribution of working group I to the second assessment report of the intergovernmental panel on climate change , 1997 .

[9]  M. Meier,et al.  Mass balance of mountain and subpolar glaciers: a new global assessment , 1997 .

[10]  J. Oerlemans,et al.  Sensitivity of Glaciers and Small Ice Caps to Greenhouse Warming , 1992, Science.

[11]  M. Cao Detection of abrupt changes in glacier mass balance in the Tien Shan Mountains , 1998, Journal of Glaciology.

[12]  Nicholas E. Graham,et al.  The 1976-77 Climate Shift of the Pacific Ocean , 1994 .

[13]  Mark New,et al.  Surface air temperature and its changes over the past 150 years , 1999 .

[14]  J. Cogley,et al.  Mass balance of glaciers other than the ice sheets , 1998, Journal of Glaciology.

[15]  M. Meier Contribution of Small Glaciers to Global Sea Level , 1984, Science.

[16]  Richard Betts,et al.  The science of climate change , 2010 .

[17]  M. Meier,et al.  Year-to-Year Fluctuations of Global Mass Balance of Small Glaciers and Their Contribution to Sea-Level Changes , 1997 .

[18]  G. McCabe,et al.  Variability in Winter Mass Balance of Northern Hemisphere Glaciers and Relations with Atmospheric Circulation , 2000 .

[19]  G. McCabe,et al.  Relations between Atmospheric Circulation and Mass Balance of South Cascade Glacier, Washington, U.S.A. , 1995 .

[20]  Malcolm K. Hughes,et al.  Global-scale temperature patterns and climate forcing over the past six centuries , 1998, Nature.