The temperature of the deep ocean is a robust proxy for global mean surface temperature during the Cenozoic
The temperature of the deep ocean is a robust proxy for global mean surface temperature during the Cenozoic
Reconstructing global mean surface temperature (GMST) is one of the key contributions that paleoclimate science can make in addressing societally relevant questions and is required to determine equilibrium climate sensitivity (ECS). GMST has been derived from the temperature of the deep ocean (Td), with previous work suggesting a simple Td-GMST scaling factor of 1 prior to the Pliocene. However, this factor lacks a robust mechanistic basis, and indeed, is intuitively difficult to envisage given that polar amplification is a ubiquitous feature of past warm climate states and deep water overwhelmingly forms at high latitudes. Here, we interrogate whether and crucially, why, this relationship exists using a suite of curated data compilations and two sets of paleoclimate model simulations. We show that models and data are in full agreement that a 1:1 relationship is a good approximation. Taken together, the two sets of climate models suggest that (a) a lower sensitivity of SST in the season of deep water formation than high latitude mean annual SST in response to climate forcing, and moreover (b) a greater degree of land versus ocean surface warming are the two processes that act to counterbalance a possible polar amplification-derived bias on Td-derived GMST. Using this knowledge, we provide a new Cenozoic record of GMST. Our estimates are substantially warmer than similar previous efforts for much of the Paleogene and are thus consistent with a substantially higher-than-modern ECS during deep-time high CO2 climate states.
Cenozoic, climate sensitivity, deep ocean temperature, global mean surface temperature
Evans, David
878c65c7-eab9-4362-896b-166e165eb94b
Brugger, Julia
a1943481-0180-49ab-ac19-5be2c18fe1fd
Inglis, Gordon N.
1651196d-916c-43cb-b5a0-9b3ecaf5d664
Valdes, Paul
79b02ede-730a-4d3a-aeef-401b03c1f02d
17 May 2024
Evans, David
878c65c7-eab9-4362-896b-166e165eb94b
Brugger, Julia
a1943481-0180-49ab-ac19-5be2c18fe1fd
Inglis, Gordon N.
1651196d-916c-43cb-b5a0-9b3ecaf5d664
Valdes, Paul
79b02ede-730a-4d3a-aeef-401b03c1f02d
Evans, David, Brugger, Julia, Inglis, Gordon N. and Valdes, Paul
(2024)
The temperature of the deep ocean is a robust proxy for global mean surface temperature during the Cenozoic.
Paleoceanography and Paleoclimatology, 39 (5), [e2023PA004788].
(doi:10.1029/2023PA004788).
Abstract
Reconstructing global mean surface temperature (GMST) is one of the key contributions that paleoclimate science can make in addressing societally relevant questions and is required to determine equilibrium climate sensitivity (ECS). GMST has been derived from the temperature of the deep ocean (Td), with previous work suggesting a simple Td-GMST scaling factor of 1 prior to the Pliocene. However, this factor lacks a robust mechanistic basis, and indeed, is intuitively difficult to envisage given that polar amplification is a ubiquitous feature of past warm climate states and deep water overwhelmingly forms at high latitudes. Here, we interrogate whether and crucially, why, this relationship exists using a suite of curated data compilations and two sets of paleoclimate model simulations. We show that models and data are in full agreement that a 1:1 relationship is a good approximation. Taken together, the two sets of climate models suggest that (a) a lower sensitivity of SST in the season of deep water formation than high latitude mean annual SST in response to climate forcing, and moreover (b) a greater degree of land versus ocean surface warming are the two processes that act to counterbalance a possible polar amplification-derived bias on Td-derived GMST. Using this knowledge, we provide a new Cenozoic record of GMST. Our estimates are substantially warmer than similar previous efforts for much of the Paleogene and are thus consistent with a substantially higher-than-modern ECS during deep-time high CO2 climate states.
Text
Paleoceanog and Paleoclimatol - 2024 - Evans - The Temperature of the Deep Ocean Is a Robust Proxy for Global Mean Surface
- Version of Record
More information
e-pub ahead of print date: 17 May 2024
Published date: 17 May 2024
Additional Information:
Publisher Copyright:
© 2024. The Authors.
Keywords:
Cenozoic, climate sensitivity, deep ocean temperature, global mean surface temperature
Identifiers
Local EPrints ID: 491114
URI: http://eprints.soton.ac.uk/id/eprint/491114
ISSN: 2572-4525
PURE UUID: 4dab6c3f-250e-48bc-bdbf-924c23877435
Catalogue record
Date deposited: 12 Jun 2024 17:17
Last modified: 13 Jul 2024 02:08
Export record
Altmetrics
Contributors
Author:
David Evans
Author:
Julia Brugger
Author:
Paul Valdes
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics