Title of article
The role of ocean gateways on cooling climate on long time scales
Author/Authors
Sijp، نويسنده , , Willem P. and von der Heydt، نويسنده , , Anna S. and Dijkstra، نويسنده , , Henk A. and Flِgel، نويسنده , , Sascha and Douglas، نويسنده , , Peter M.J. and Bijl، نويسنده , , Peter K.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2014
Pages
22
From page
1
To page
22
Abstract
We examine ocean changes in response to changes in paleogeography from the Cretaceous to present in an intermediate complexity model and in the fully coupled CCSM3 model. Greenhouse gas concentrations are kept constant to allow a focus on effects arising from changing continental configurations. We find consistent and significant geography-related Cenozoic cooling arising from the opening of Southern Ocean (SO) gateways. Both models show significant deep ocean cooling arising from tectonic evolution alone. Simulations employing continental configurations associated with greenhouse climates, namely the Turonian and the Eocene simulations, systematically exhibit warm deep ocean temperatures at elevated pCO2 close to 10 °C. In contrast, continental configurations associated with (later) icehouse climates are associated with cooler deep ocean temperatures at identical pCO2, arising from a progressive strengthening of the Antarctic Circumpolar Current. This suggests that a component of the Cenozoic benthic cooling trend recorded in oxygen isotopes could arise directly from changes in continental configuration, and so be partially decoupled from the Cenozoic greenhouse gas history. In this paper we will present our model results against the background of an extensive review of previous work on ocean gateways and additional modelling results from several other global climate models.
Keywords
Overturning circulation , THC , AMOC , icehouse climat , Eocene , Cenozoic cooling trend , deep ocean cooling , ocean gateways , Greenhouse climate , Thermal isolation , ocean circulation , Eocene/Oligocene Transition , Deep time climate model , Polar amplification , Cloud feedbacks
Journal title
Global and Planetary Change
Serial Year
2014
Journal title
Global and Planetary Change
Record number
2369255
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