Early-twentieth-century cold bias in ocean surface temperature observations
Early-twentieth-century cold bias in ocean surface temperature observations
The observed temperature record, which combines sea surface temperatures with near-surface air temperatures over land, is crucial for understanding climate variability and change1,2,3,4. However, early records of global mean surface temperature are uncertain owing to changes in measurement technology and practice, partial documentation5,6,7,8, and incomplete spatial coverage9. Here we show that existing estimates of ocean temperatures in the early twentieth century (1900–1930) are too cold, based on independent statistical reconstructions of the global mean surface temperature from either ocean or land data. The ocean-based reconstruction is on average about 0.26 °C colder than the land-based one, despite very high agreement in all other periods. The ocean cold anomaly is unforced, and internal variability in climate models cannot explain the observed land–ocean discrepancy. Several lines of evidence based on attribution, timescale analysis, coastal grid cells and palaeoclimate data support the argument of a substantial cold bias in the observed global sea-surface-temperature record in the early twentieth century. Although estimates of global warming since the mid-nineteenth century are not affected, correcting the ocean cold bias would result in a more modest early-twentieth-century warming trend10, a lower estimate of decadal-scale variability inferred from the instrumental record3, and better agreement between simulated and observed warming than existing datasets suggest2.
618-624
Sippel, Sebastian
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Kent, Elizabeth C.
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Meinshausen, Nicolai
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Chan, Duo
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Kadow, Christopher
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Neukom, Raphael
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Fischer, Erich M.
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Humphrey, Vincent
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Rohde, Robert
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de Vries, Iris
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Knutti, Reto
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21 November 2024
Sippel, Sebastian
d1ab714f-7245-4a97-aa37-457957667501
Kent, Elizabeth C.
59bfb484-c094-43a7-8d2a-4d0a4357eeeb
Meinshausen, Nicolai
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Chan, Duo
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Kadow, Christopher
466b4138-5706-4984-b38d-b5f26ee4827b
Neukom, Raphael
ed75e98b-ce68-4f77-9c04-a6d3d00a26a1
Fischer, Erich M.
7d22a3b0-9804-4f36-8152-22979f793535
Humphrey, Vincent
37deed76-05c2-4453-8bf3-fbeae8002197
Rohde, Robert
3852b89d-c81c-4507-a0c1-14b8bc1879b9
de Vries, Iris
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Knutti, Reto
60317cf1-436a-40dd-b646-a1013e703169
Sippel, Sebastian, Kent, Elizabeth C., Meinshausen, Nicolai, Chan, Duo, Kadow, Christopher, Neukom, Raphael, Fischer, Erich M., Humphrey, Vincent, Rohde, Robert, de Vries, Iris and Knutti, Reto
(2024)
Early-twentieth-century cold bias in ocean surface temperature observations.
Nature, 635, .
(doi:10.1038/s41586-024-08230-1).
Abstract
The observed temperature record, which combines sea surface temperatures with near-surface air temperatures over land, is crucial for understanding climate variability and change1,2,3,4. However, early records of global mean surface temperature are uncertain owing to changes in measurement technology and practice, partial documentation5,6,7,8, and incomplete spatial coverage9. Here we show that existing estimates of ocean temperatures in the early twentieth century (1900–1930) are too cold, based on independent statistical reconstructions of the global mean surface temperature from either ocean or land data. The ocean-based reconstruction is on average about 0.26 °C colder than the land-based one, despite very high agreement in all other periods. The ocean cold anomaly is unforced, and internal variability in climate models cannot explain the observed land–ocean discrepancy. Several lines of evidence based on attribution, timescale analysis, coastal grid cells and palaeoclimate data support the argument of a substantial cold bias in the observed global sea-surface-temperature record in the early twentieth century. Although estimates of global warming since the mid-nineteenth century are not affected, correcting the ocean cold bias would result in a more modest early-twentieth-century warming trend10, a lower estimate of decadal-scale variability inferred from the instrumental record3, and better agreement between simulated and observed warming than existing datasets suggest2.
Text
s41586-024-08230-1
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Accepted/In Press date: 16 October 2024
e-pub ahead of print date: 20 November 2024
Published date: 21 November 2024
Identifiers
Local EPrints ID: 503509
URI: http://eprints.soton.ac.uk/id/eprint/503509
ISSN: 0028-0836
PURE UUID: 0e73f6f4-89f3-49d6-b297-5ac90a5e304b
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Date deposited: 04 Aug 2025 16:48
Last modified: 22 Aug 2025 02:41
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Contributors
Author:
Sebastian Sippel
Author:
Elizabeth C. Kent
Author:
Nicolai Meinshausen
Author:
Duo Chan
Author:
Christopher Kadow
Author:
Raphael Neukom
Author:
Erich M. Fischer
Author:
Vincent Humphrey
Author:
Robert Rohde
Author:
Iris de Vries
Author:
Reto Knutti
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