Climate at high-obliquity

The question of climate at high obliquity is raised in the context of both exoplanet studies (e.g. habitability) and paleoclimates studies (evidence for low-latitude glaciation during the Neoproterozoic and the ”Snowball Earth” hypothesis). States of high obliquity, φ, are distinctive in that, for φ...

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Published in:Icarus
Main Authors: Ferreira, David, Marshall, John, O'Gorman, Paul A., Seager, Sara
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2014
Subjects:
Ice cap
Sea ice
Online Access:https://centaur.reading.ac.uk/37624/
https://centaur.reading.ac.uk/37624/1/High_Obliquity_Rev.pdf
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spelling ftunivreading:oai:centaur.reading.ac.uk:37624 2024-09-15T18:11:48+00:00 Climate at high-obliquity Ferreira, David Marshall, John O'Gorman, Paul A. Seager, Sara 2014-11-15 text https://centaur.reading.ac.uk/37624/ https://centaur.reading.ac.uk/37624/1/High_Obliquity_Rev.pdf en eng Elsevier https://centaur.reading.ac.uk/37624/1/High_Obliquity_Rev.pdf Ferreira, D. <https://centaur.reading.ac.uk/view/creators/90005370.html> orcid:0000-0003-3243-9774 , Marshall, J., O'Gorman, P. A. and Seager, S. (2014) Climate at high-obliquity. Icarus, 243. pp. 236-248. ISSN 0019-1035 doi: https://doi.org/10.1016/j.icarus.2014.09.015 <https://doi.org/10.1016/j.icarus.2014.09.015> Article PeerReviewed 2014 ftunivreading https://doi.org/10.1016/j.icarus.2014.09.015 2024-06-25T14:57:10Z The question of climate at high obliquity is raised in the context of both exoplanet studies (e.g. habitability) and paleoclimates studies (evidence for low-latitude glaciation during the Neoproterozoic and the ”Snowball Earth” hypothesis). States of high obliquity, φ, are distinctive in that, for φ ≥54◦, the poles receive more solar radiation in the annual mean than the Equator, opposite to the present day situation. In addition, the seasonal cycle of insolation is extreme, with the poles alternatively “facing” the sun and sheltering in the dark for months. The novelty of our approach is to consider the role of a dynamical ocean in controlling the surface climate at high obliquity, which in turn requires understanding of the surface winds patterns when temperature gradients are reversed. To address these questions, a coupled ocean-atmosphere-sea ice GCM configured on an aquaplanet is employed. Except for the absence of topography and modified obliquity, the set-up is Earth-like. Two large obliquities φ, 54◦ and 90◦, are compared to today’s Earth value, φ=23.5◦. Three key results emerge at high obliquity: 1) despite reversed temper- ature gradients, mid-latitudes surface winds are westerly and trade winds exist at the equator (as for φ=23.5◦) although the westerlies are confined to the summer hemisphere, 2) a habitable planet is possible with mid-latitude temperatures in the range 300-280 K and 3) a stable climate state with an ice cap limited to the equatorial region is unlikely. We clarify the dynamics behind these features (notably by an analysis of the potential vorticity structure and conditions for baroclinic instability of the atmosphere). Interestingly, we find that the absence of a stable partially glaciated state is critically linked to the absence of ocean heat transport during winter, a feature ultimately traced back to the high seasonality of baroclinic instability conditions in the atmosphere. Article in Journal/Newspaper Ice cap Sea ice CentAUR: Central Archive at the University of Reading Icarus 243 236 248
institution Open Polar
collection CentAUR: Central Archive at the University of Reading
op_collection_id ftunivreading
language English
description The question of climate at high obliquity is raised in the context of both exoplanet studies (e.g. habitability) and paleoclimates studies (evidence for low-latitude glaciation during the Neoproterozoic and the ”Snowball Earth” hypothesis). States of high obliquity, φ, are distinctive in that, for φ ≥54◦, the poles receive more solar radiation in the annual mean than the Equator, opposite to the present day situation. In addition, the seasonal cycle of insolation is extreme, with the poles alternatively “facing” the sun and sheltering in the dark for months. The novelty of our approach is to consider the role of a dynamical ocean in controlling the surface climate at high obliquity, which in turn requires understanding of the surface winds patterns when temperature gradients are reversed. To address these questions, a coupled ocean-atmosphere-sea ice GCM configured on an aquaplanet is employed. Except for the absence of topography and modified obliquity, the set-up is Earth-like. Two large obliquities φ, 54◦ and 90◦, are compared to today’s Earth value, φ=23.5◦. Three key results emerge at high obliquity: 1) despite reversed temper- ature gradients, mid-latitudes surface winds are westerly and trade winds exist at the equator (as for φ=23.5◦) although the westerlies are confined to the summer hemisphere, 2) a habitable planet is possible with mid-latitude temperatures in the range 300-280 K and 3) a stable climate state with an ice cap limited to the equatorial region is unlikely. We clarify the dynamics behind these features (notably by an analysis of the potential vorticity structure and conditions for baroclinic instability of the atmosphere). Interestingly, we find that the absence of a stable partially glaciated state is critically linked to the absence of ocean heat transport during winter, a feature ultimately traced back to the high seasonality of baroclinic instability conditions in the atmosphere.
format Article in Journal/Newspaper
author Ferreira, David
Marshall, John
O'Gorman, Paul A.
Seager, Sara
spellingShingle Ferreira, David
Marshall, John
O'Gorman, Paul A.
Seager, Sara
Climate at high-obliquity
author_facet Ferreira, David
Marshall, John
O'Gorman, Paul A.
Seager, Sara
author_sort Ferreira, David
title Climate at high-obliquity
title_short Climate at high-obliquity
title_full Climate at high-obliquity
title_fullStr Climate at high-obliquity
title_full_unstemmed Climate at high-obliquity
title_sort climate at high-obliquity
publisher Elsevier
publishDate 2014
url https://centaur.reading.ac.uk/37624/
https://centaur.reading.ac.uk/37624/1/High_Obliquity_Rev.pdf
genre Ice cap
Sea ice
genre_facet Ice cap
Sea ice
op_relation https://centaur.reading.ac.uk/37624/1/High_Obliquity_Rev.pdf
Ferreira, D. <https://centaur.reading.ac.uk/view/creators/90005370.html> orcid:0000-0003-3243-9774 , Marshall, J., O'Gorman, P. A. and Seager, S. (2014) Climate at high-obliquity. Icarus, 243. pp. 236-248. ISSN 0019-1035 doi: https://doi.org/10.1016/j.icarus.2014.09.015 <https://doi.org/10.1016/j.icarus.2014.09.015>
op_doi https://doi.org/10.1016/j.icarus.2014.09.015
container_title Icarus
container_volume 243
container_start_page 236
op_container_end_page 248
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