The effect of uncertainties in natural forcing records  on simulated temperature during the last millennium

Lucie J. Lücke; Andrew P. Schurer; Matthew Toohey; Lauren R. Marshall; Gabriele C. Hegerl

doi:10.5194/cp-19-959-2023

The effect of uncertainties in natural forcing records on simulated temperature during the last millennium

Lucie J. Lücke, Andrew P. Schurer, Matthew Toohey, Lauren R. Marshall, Gabriele C. Hegerl

School of Geosciences

Research output: Contribution to journal › Article › peer-review

Abstract

Here we investigate how uncertainties in the solar and volcanic forcing records of the past millennium affect the large-scale temperature response using a two-box impulse response model. We use different published solar forcing records and present a new volcanic forcing ensemble that accounts for random uncertainties in eruption dating and sulfur injection amount. The simulations are compared to proxy reconstructions from PAGES 2k and Northern Hemispheric tree ring data. We find that low solar forcing is most consistent with all the proxy reconstructions, even when accounting for volcanic uncertainty. We also find that the residuals are in line with CMIP6 control variability at centennial timescales. Volcanic forcing uncertainty induces a significant spread in the temperature response, especially at periods of peak forcing. For individual eruptions and superposed epoch analyses, volcanic uncertainty can strongly affect the agreement with proxy reconstructions and partly explain known proxy–model discrepancies.

Original language	English
Pages (from-to)	959-978
Journal	Climate of the Past
Volume	19
Issue number	5
DOIs	https://doi.org/10.5194/cp-19-959-2023
Publication status	Published - 15 May 2023

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cp-19-959-2023
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Global Surface Air Temperature (GloSAT)
Hegerl, G. (Principal Investigator)
NERC
1/10/19 → 30/09/23
Project: Research
Reconciling Volcanic Forcing and Climate Records throughout the Last Millennium (Vol-Clim)
Hegerl, G. (Principal Investigator)
NERC
1/03/19 → 30/11/22
Project: Research
NERC DTP: U.K. Natural Environment Research Council (Grant NE/L002558/1) University of Edinburgh's E3 Doctoral Training Partnership
Hajduk, G. (Student)
1/10/14 → 31/03/18
Project: Other (Non-Funded/Miscellaneous)

Supporting material for "The effect of uncertainties in natural forcing records on simulated temperature during the last Millennium"
Luecke, L. (Creator), Edinburgh DataShare, 6 Apr 2023
DOI: 10.7488/ds/3834
Dataset

Cite this

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title = "The effect of uncertainties in natural forcing records on simulated temperature during the last millennium",

abstract = "Here we investigate how uncertainties in the solar and volcanic forcing records of the past millennium affect the large-scale temperature response using a two-box impulse response model. We use different published solar forcing records and present a new volcanic forcing ensemble that accounts for random uncertainties in eruption dating and sulfur injection amount. The simulations are compared to proxy reconstructions from PAGES 2k and Northern Hemispheric tree ring data. We find that low solar forcing is most consistent with all the proxy reconstructions, even when accounting for volcanic uncertainty. We also find that the residuals are in line with CMIP6 control variability at centennial timescales. Volcanic forcing uncertainty induces a significant spread in the temperature response, especially at periods of peak forcing. For individual eruptions and superposed epoch analyses, volcanic uncertainty can strongly affect the agreement with proxy reconstructions and partly explain known proxy–model discrepancies.",

author = "L{\"u}cke, {Lucie J.} and Schurer, {Andrew P.} and Matthew Toohey and Marshall, {Lauren R.} and Hegerl, {Gabriele C.}",

note = "Funding Information: Lucie J. L{\"u}cke, Andrew P. Schurer, Lauren R. Marshall and Gabriele C. Hegerl were funded by the Natural Environment Research Council (NERC) project Vol-Clim (NE/S000887/1). Lucie J. L{\"u}cke was further supported by a studentship from the NERC E3 Doctoral training partnership (grant no. NE/L002558/1). Andrew P. Schurer and Gabriele C. Hegerl were also funded by the NERC project GloSAT (NE/S015698/1) and by NERC under the Belmont forum grant PacMedy (NE/P006752/1), and Andrew P. Schurer received funding from a Chancellors fellowship at the University of Edinburgh. This paper benefitted from discussion at events of the Past Global Changes (PAGES) working group “Volcanic Impacts on Climate and Society” (VICS). We acknowledge the World Climate Research Programme's Working Group on Coupled Modelling, which is responsible for CMIP, and thank all the climate modelling groups for producing and making available their model output. We acknowledge the Northern Hemisphere Tree-Ring Network Development (N-TREND), Past Global Changes (PAGES) project and the other authors of proxy reconstructions for providing publicly available data. We thank Karsten Haustein for developing and sharing the code for his impulse response model. Funding Information: This research has been supported by the Natural Environment Research Council (grant nos. NE/S000887/1, NE/L002558/1, NE/S015698/1 and NE/P006752/1) and the University of Edinburgh (Chancellors fellowship). Publisher Copyright: {\textcopyright} 2023 Lucie J. L{\"u}cke et al.",

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N2 - Here we investigate how uncertainties in the solar and volcanic forcing records of the past millennium affect the large-scale temperature response using a two-box impulse response model. We use different published solar forcing records and present a new volcanic forcing ensemble that accounts for random uncertainties in eruption dating and sulfur injection amount. The simulations are compared to proxy reconstructions from PAGES 2k and Northern Hemispheric tree ring data. We find that low solar forcing is most consistent with all the proxy reconstructions, even when accounting for volcanic uncertainty. We also find that the residuals are in line with CMIP6 control variability at centennial timescales. Volcanic forcing uncertainty induces a significant spread in the temperature response, especially at periods of peak forcing. For individual eruptions and superposed epoch analyses, volcanic uncertainty can strongly affect the agreement with proxy reconstructions and partly explain known proxy–model discrepancies.

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JF - Climate of the Past

IS - 5

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The effect of uncertainties in natural forcing records on simulated temperature during the last millennium

Abstract

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Projects

Global Surface Air Temperature (GloSAT)

Reconciling Volcanic Forcing and Climate Records throughout the Last Millennium (Vol-Clim)

NERC DTP: U.K. Natural Environment Research Council (Grant NE/L002558/1) University of Edinburgh's E3 Doctoral Training Partnership

Datasets

Supporting material for "The effect of uncertainties in natural forcing records on simulated temperature during the last Millennium"

Cite this