Related Content
Search Google Scholar for:
|
|
Science 21 December 1984:
Vol. 226. no. 4681, pp. 1418 - 1421
DOI: 10.1126/science.226.4681.1418
|
|
Articles
Contribution of Small Glaciers to Global Sea Level
MARK F. MEIER 1
1 U.S. Geological Survey Tacoma, Washington 98402
Observed long-term changes in glacier volume and hydrometeorological mass balance models yield data on the transfer of water from glaciers, excluding those in Greenland and Antarctica, to the oceans. The average observed volume change for the period 1900 to 1961 is scaled to a global average by use of the seasonal amplitude of the mass balance. These data are used to calibrate the models to estimate the changing contribution of glaciers to sea level for the period 1884 to 1975. Although the error band is large, these glaciers appear to account for a third to half of observed rise in sea level, approximately that fraction not explained by thermal expansion of the ocean.
Submitted on April 19, 1984
Accepted on July 25, 1984
THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES:
- Postglacial coastal evolution: Ice-ocean-solid Earth interactions in a period of rapid climate change.
- W.R. Peltier (2007)
Geological Society of America Special Papers
426, 5-28
| Abstract »
| Full Text »
| PDF »
- Recent relative sea-level trends: an attempt to quantify the forcing factors.
- H.-P. Plag (2006)
Phil Trans R Soc A
364, 821-844
| Abstract »
| Full Text »
| PDF »
- Extracting a Climate Signal from 169 Glacier Records.
- J. Oerlemans (2005)
Science
308, 675-677
| Abstract »
| Full Text »
| PDF »
- Rapid Wastage of Alaska Glaciers and Their Contribution to Rising Sea Level.
- A. A. Arendt, K. A. Echelmeyer, W. D. Harrison, C. S. Lingle, and V. B. Valentine (2002)
Science
297, 382-386
| Abstract »
| Full Text »
| PDF »
- Glacier mass balance: the first 50 years of international monitoring.
- R. J. Braithwaite (2002)
Progress in Physical Geography
26, 76-95
| Abstract »
| PDF »
- Twentieth century climate change: Evidence from small glaciers.
- M. B. Dyurgerov and M. F. Meier (2000)
PNAS
97, 1406-1411
| Abstract »
| Full Text »
| PDF »
- Antarctic Elevation Change from 1992 to 1996 .
- D. J. Wingham, A. J. Ridout, R. Scharroo, R. J. Arthern, and C. K. Shum (1998)
Science
282, 456-458
| Abstract »
| Full Text »
- Ocean Climate Change: Comparison of Acoustic Tomography, Satellite Altimetry, and Modeling.
- The ATOC Consortium (1998)
Science
281, 1327-1332
| Abstract »
| Full Text »
- Global Mean Sea Level Variations from TOPEX/POSEIDON Altimeter Data.
- R. S. Nerem (1995)
Science
268, 708-710
| Abstract »
| PDF »
- Tephrochronology, lichenometry and radiocarbon dating at Gulkana Glacier, central Alaska Range, USA.
- J. E. Beget and J. E. Beget (1994)
The Holocene
4, 307-313
| Abstract »
| PDF »
- Sensitivity of Glaciers and Small Ice Caps to Greenhouse Warming.
- J. Oerlemans, J. Oerlemans, and J. P. F. Fortuin (1992)
Science
258, 115-117
| Abstract »
| PDF »
- What were the Primary Forcing Mechanisms of High-Frequency Holocene Climate and Glacier Variations?.
- A. Nesje, A. Nesje, and T. Johannessen (1992)
The Holocene
2, 79-84
| Abstract »
| PDF »
- The mass balance of the Greenland ice sheet: sensitivity to climate change as revealed by energy-balance modelling.
- J. Oerlemans and J. Oerlemans (1991)
The Holocene
1, 40-48
| Abstract »
| PDF »
- Global Sea Level Rise and the Greenhouse Effect: Might They Be Connected?.
- W. R. Peltier, W. R. PELTIER, and A. M. TUSHINGHAM (1989)
Science
244, 806-810
| Abstract »
| PDF »
- Global Sea Level and Earth Rotation.
- W. R. Peltier and W. R. PELTIER (1988)
Science
240, 895-901
| Abstract »
| PDF »
- Changing atmospheric carbon dioxide.
- J. G. Lockwood (1987)
Progress in Physical Geography
11, 581-589
| PDF »
|
|
