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The observed state of the water cycle in the early twenty-first century

The observed state of the water cycle in the early twenty-first century
The observed state of the water cycle in the early twenty-first century

This study quantifies mean annual and monthly fluxes of Earth's water cycle over continents and ocean basins during the first decade of the millennium. To the extent possible, the flux estimates are based on satellite measurements first and data-integrating models second. A careful accounting of uncertainty in the estimates is included. It is applied within a routine that enforces multiple water and energy budget constraints simultaneously in a variational framework in order to produce objectively determined optimized flux estimates. In the majority of cases, the observed annual surface and atmospheric water budgets over the continents and oceans close with much less than 10% residual. Observed residuals and optimized uncertainty estimates are considerably larger for monthly surface and atmospheric water budget closure, often nearing or exceeding 20% in North America, Eurasia, Australia and neighboring islands, and the Arctic and South Atlantic Oceans. The residuals in South America and Africa tend to be smaller, possibly because cold land processes are negligible. Fluxes were poorly observed over the Arctic Ocean, certain seas, Antarctica, and the Australasian and Indonesian islands, leading to reliance on atmospheric analysis estimates. Many of the satellite systems that contributed data have been or will soon be lost or replaced. Models that integrate ground-based and remote observations will be critical for ameliorating gaps and discontinuities in the data records caused by these transitions. Continued development of such models is essential for maximizing the value of the observations. Next-generation observing systems are the best hope for significantly improving global water budget accounting.

0894-8755
8289-8318
Rodell, M.
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Beaudoing, H.K.
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L'Ecuyer, T.S.
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Olson, W.S.
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Famiglietti, J.S.
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Houser, P.R.
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Adler, R.
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Bosilovich, M.G.
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Clayson, C.A.
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Chambers, D.
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Clark, E.
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Fetzer, E.J.
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Gao, X.
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Gu, G.
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Hilburn, K.
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Huffman, G.J.
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Lettenmaier, D.P.
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Liu, W.T.
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Robertson, F.R.
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Schlosser, C.A.
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Sheffield, J.
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Wood, E.F.
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Rodell, M.
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Beaudoing, H.K.
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L'Ecuyer, T.S.
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Olson, W.S.
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Famiglietti, J.S.
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Houser, P.R.
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Adler, R.
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Bosilovich, M.G.
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Clayson, C.A.
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Chambers, D.
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Clark, E.
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Fetzer, E.J.
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Gao, X.
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Gu, G.
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Hilburn, K.
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Huffman, G.J.
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Lettenmaier, D.P.
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Liu, W.T.
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Robertson, F.R.
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Schlosser, C.A.
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Sheffield, J.
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Wood, E.F.
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Rodell, M., Beaudoing, H.K., L'Ecuyer, T.S., Olson, W.S., Famiglietti, J.S., Houser, P.R., Adler, R., Bosilovich, M.G., Clayson, C.A., Chambers, D., Clark, E., Fetzer, E.J., Gao, X., Gu, G., Hilburn, K., Huffman, G.J., Lettenmaier, D.P., Liu, W.T., Robertson, F.R., Schlosser, C.A., Sheffield, J. and Wood, E.F. (2015) The observed state of the water cycle in the early twenty-first century. Journal of Climate, 28 (21), 8289-8318. (doi:10.1175/JCLI-D-14-00555.1).

Record type: Article

Abstract

This study quantifies mean annual and monthly fluxes of Earth's water cycle over continents and ocean basins during the first decade of the millennium. To the extent possible, the flux estimates are based on satellite measurements first and data-integrating models second. A careful accounting of uncertainty in the estimates is included. It is applied within a routine that enforces multiple water and energy budget constraints simultaneously in a variational framework in order to produce objectively determined optimized flux estimates. In the majority of cases, the observed annual surface and atmospheric water budgets over the continents and oceans close with much less than 10% residual. Observed residuals and optimized uncertainty estimates are considerably larger for monthly surface and atmospheric water budget closure, often nearing or exceeding 20% in North America, Eurasia, Australia and neighboring islands, and the Arctic and South Atlantic Oceans. The residuals in South America and Africa tend to be smaller, possibly because cold land processes are negligible. Fluxes were poorly observed over the Arctic Ocean, certain seas, Antarctica, and the Australasian and Indonesian islands, leading to reliance on atmospheric analysis estimates. Many of the satellite systems that contributed data have been or will soon be lost or replaced. Models that integrate ground-based and remote observations will be critical for ameliorating gaps and discontinuities in the data records caused by these transitions. Continued development of such models is essential for maximizing the value of the observations. Next-generation observing systems are the best hope for significantly improving global water budget accounting.

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More information

Published date: 1 November 2015
Additional Information: Publisher Copyright: © 2015 American Meteorological Society.
Learn more about School of Geography and Environmental Sciences research

Identifiers

Local EPrints ID: 480731
URI: http://eprints.soton.ac.uk/id/eprint/480731
DOI: doi:10.1175/JCLI-D-14-00555.1
ISSN: 0894-8755
PURE UUID: 2b089d51-ed3c-4ce4-b8fc-0b242ed5e31f
ORCID for J. Sheffield: ORCID iD orcid.org/0000-0003-2400-0630

Catalogue record

Date deposited: 09 Aug 2023 16:48
Last modified: 17 Mar 2024 03:40

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Contributors

Author: M. Rodell
Author: H.K. Beaudoing
Author: T.S. L'Ecuyer
Author: W.S. Olson
Author: J.S. Famiglietti
Author: P.R. Houser
Author: R. Adler
Author: M.G. Bosilovich
Author: C.A. Clayson
Author: D. Chambers
Author: E. Clark
Author: E.J. Fetzer
Author: X. Gao
Author: G. Gu
Author: K. Hilburn
Author: G.J. Huffman
Author: D.P. Lettenmaier
Author: W.T. Liu
Author: F.R. Robertson
Author: C.A. Schlosser
Author: J. Sheffield ORCID iD
Author: E.F. Wood

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