Twentieth-century global-mean sea level rise: Is the whole greater than the sum of the parts?

J.M. Gregory; N.J. White; J.A. Church; M.F.P. Bierkens; J.E. Box; M.R. Van den Broeke; J.G. Cogley; X. Fettweis; E. Hanna; P. Huybrechts; Leonard F. Konikow; P.W. Leclercq; B. Marzeion; J. Oerlemans; M.E. Tamisiea; Y. Wada; L.M. Wake; R.S.W. Van de Wal

doi:10.1175/JCLI-D-12-00319.1

Twentieth-century global-mean sea level rise: Is the whole greater than the sum of the parts?

Journal of Climate

By: J.M. Gregory, N.J. White, J.A. Church, M.F.P. Bierkens, J.E. Box, M.R. Van den Broeke, J.G. Cogley, X. Fettweis, E. Hanna, P. Huybrechts, Leonard F. Konikow, P.W. Leclercq, B. Marzeion, J. Oerlemans, M.E. Tamisiea, Y. Wada, L.M. Wake, and R.S.W. Van de Wal

https://doi.org/10.1175/JCLI-D-12-00319.1

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Abstract

Confidence in projections of global-mean sea level rise (GMSLR) depends on an ability to account for GMSLR during the twentieth century. There are contributions from ocean thermal expansion, mass loss from glaciers and ice sheets, groundwater extraction, and reservoir impoundment. Progress has been made toward solving the “enigma” of twentieth-century GMSLR, which is that the observed GMSLR has previously been found to exceed the sum of estimated contributions, especially for the earlier decades. The authors propose the following: thermal expansion simulated by climate models may previously have been underestimated because of their not including volcanic forcing in their control state; the rate of glacier mass loss was larger than previously estimated and was not smaller in the first half than in the second half of the century; the Greenland ice sheet could have made a positive contribution throughout the century; and groundwater depletion and reservoir impoundment, which are of opposite sign, may have been approximately equal in magnitude. It is possible to reconstruct the time series of GMSLR from the quantified contributions, apart from a constant residual term, which is small enough to be explained as a long-term contribution from the Antarctic ice sheet. The reconstructions account for the observation that the rate of GMSLR was not much larger during the last 50 years than during the twentieth century as a whole, despite the increasing anthropogenic forcing. Semiempirical methods for projecting GMSLR depend on the existence of a relationship between global climate change and the rate of GMSLR, but the implication of the authors' closure of the budget is that such a relationship is weak or absent during the twentieth century.

Suggested Citation

Gregory, J., White, N., Church, J., Bierkens, M., Box, J., Van den Broeke, M., Cogley, J., Fettweis, X., Hanna, E., Huybrechts, P., Konikow, L.F., Leclercq, P., Marzeion, B., Oerlemans, J., Tamisiea, M., Wada, Y., Wake, L., and Van de Wal, R., 2013, Twentieth-century global-mean sea level rise: Is the whole greater than the sum of the parts?: Journal of Climate, v. 26, no. 13, p. 4476-4499, https://doi.org/10.1175/JCLI-D-12-00319.1.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Twentieth-century global-mean sea level rise: Is the whole greater than the sum of the parts?
Series title	Journal of Climate
DOI	10.1175/JCLI-D-12-00319.1
Volume	26
Issue	13
Publication Date	July 03, 2013
Year Published	2013
Language	English
Publisher	American Meteorological Society
Contributing office(s)	National Research Program - Eastern Branch
Description	24 p.
Larger Work Type	Article
Larger Work Subtype	Journal Article
Larger Work Title	Journal of Climate
First page	4476
Last page	4499
Other Geospatial	Earth