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The observed state of the energy budget in the early twenty-first century

The observed state of the energy budget in the early twenty-first century
The observed state of the energy budget in the early twenty-first century

New objectively balanced observation-based reconstructions of global and continental energy budgets and their seasonal variability are presented that span the golden decade of Earth-observing satellites at the start of the twentyfirst century. In the absence of balance constraints, various combinations of modern flux datasets reveal that current estimates of net radiation into Earth's surface exceed corresponding turbulent heat fluxes by 13-24 W m-2. The largest imbalances occur over oceanic regions where the component algorithms operate independent of closure constraints. Recent uncertainty assessments suggest that these imbalances fall within anticipated error bounds for each dataset, but the systematic nature of required adjustments across different regions confirm the existence of biases in the component fluxes. To reintroduce energy and water cycle closure information lost in the development of independent flux datasets, a variational method is introduced that explicitly accounts for the relative accuracies in all component fluxes. Applying the technique to a 10-yr record of satellite observations yields new energy budget estimates that simultaneously satisfy all energy and water cycle balance constraints. Globally, 180 Wm-2 of atmospheric longwave cooling is balanced by 74 Wm-2 of shortwave absorption and 106 Wm-2 of latent and sensible heat release. At the surface, 106 Wm-2 of downwelling radiation is balanced by turbulent heat transfer to within a residual heat flux into the oceans of 0.45 Wm-2, consistent with recent observations of changes in ocean heat content. Annual mean energy budgets and their seasonal cycles for each of seven continents and nine ocean basins are also presented.

0894-8755
8319-8346
L'Ecuyer, Tristan S.
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Beaudoing, H. K.
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Rodell, M.
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Olson, W.
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Lin, B.
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Kato, S.
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Clayson, C. A.
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Wood, E.
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Sheffield, J.
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Adler, R.
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Huffman, G.
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Bosilovich, M.
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Gu, G.
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Robertson, F.
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Houser, P. R.
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Chambers, D.
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Famiglietti, J. S.
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Fetzer, E.
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Liu, W. T.
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Gao, X.
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Schlosser, C. A.
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Clark, E.
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Lettenmaier, D. P.
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Hilburn, K.
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L'Ecuyer, Tristan S.
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Beaudoing, H. K.
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Rodell, M.
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Olson, W.
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Lin, B.
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Kato, S.
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Clayson, C. A.
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Wood, E.
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Sheffield, J.
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Adler, R.
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Huffman, G.
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Bosilovich, M.
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Gu, G.
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Robertson, F.
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Houser, P. R.
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Chambers, D.
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Famiglietti, J. S.
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Fetzer, E.
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Liu, W. T.
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Gao, X.
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Schlosser, C. A.
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Clark, E.
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Lettenmaier, D. P.
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Hilburn, K.
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L'Ecuyer, Tristan S., Beaudoing, H. K., Rodell, M., Olson, W., Lin, B., Kato, S., Clayson, C. A., Wood, E., Sheffield, J., Adler, R., Huffman, G., Bosilovich, M., Gu, G., Robertson, F., Houser, P. R., Chambers, D., Famiglietti, J. S., Fetzer, E., Liu, W. T., Gao, X., Schlosser, C. A., Clark, E., Lettenmaier, D. P. and Hilburn, K. (2015) The observed state of the energy budget in the early twenty-first century. Journal of Climate, 28 (21), 8319-8346. (doi:10.1175/JCLI-D-14-00556.1).

Record type: Article

Abstract

New objectively balanced observation-based reconstructions of global and continental energy budgets and their seasonal variability are presented that span the golden decade of Earth-observing satellites at the start of the twentyfirst century. In the absence of balance constraints, various combinations of modern flux datasets reveal that current estimates of net radiation into Earth's surface exceed corresponding turbulent heat fluxes by 13-24 W m-2. The largest imbalances occur over oceanic regions where the component algorithms operate independent of closure constraints. Recent uncertainty assessments suggest that these imbalances fall within anticipated error bounds for each dataset, but the systematic nature of required adjustments across different regions confirm the existence of biases in the component fluxes. To reintroduce energy and water cycle closure information lost in the development of independent flux datasets, a variational method is introduced that explicitly accounts for the relative accuracies in all component fluxes. Applying the technique to a 10-yr record of satellite observations yields new energy budget estimates that simultaneously satisfy all energy and water cycle balance constraints. Globally, 180 Wm-2 of atmospheric longwave cooling is balanced by 74 Wm-2 of shortwave absorption and 106 Wm-2 of latent and sensible heat release. At the surface, 106 Wm-2 of downwelling radiation is balanced by turbulent heat transfer to within a residual heat flux into the oceans of 0.45 Wm-2, consistent with recent observations of changes in ocean heat content. Annual mean energy budgets and their seasonal cycles for each of seven continents and nine ocean basins are also presented.

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Published date: 2015
Additional Information: Publisher Copyright: © 2015 American Meteorological Society.
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Identifiers

Local EPrints ID: 480778
URI: http://eprints.soton.ac.uk/id/eprint/480778
DOI: doi:10.1175/JCLI-D-14-00556.1
ISSN: 0894-8755
PURE UUID: cd01848c-c683-4d63-b1e3-5a8ae77a49a8
ORCID for J. Sheffield: ORCID iD orcid.org/0000-0003-2400-0630

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Date deposited: 09 Aug 2023 17:13
Last modified: 17 Mar 2024 03:40

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Contributors

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

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