The role of eastern Tethys seaway closure in the Middle Miocene Climatic Transition (ca. 14 Ma)
The Middle Miocene Climatic Transition (MMCT, approximately 14 Ma) is a key period in Cenozoic cooling and cryospheric expansion. Despite being well documented in isotopic record, the causes of the MMCT are still a matter of debate. Among various hypotheses, some authors suggested that it was due th...
Main Authors: | , , , |
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Format: | Article |
Language: | English |
Published: |
Copernicus Publications
2013-11-01
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Series: | Climate of the Past |
Online Access: | http://www.clim-past.net/9/2687/2013/cp-9-2687-2013.pdf |
Summary: | The Middle Miocene Climatic Transition (MMCT, approximately 14 Ma) is
a key period in Cenozoic cooling and cryospheric expansion. Despite being
well documented in isotopic record, the causes of the MMCT are still a matter
of debate. Among various hypotheses, some authors suggested that it was due
the final closure of the eastern Tethys seaway and subsequent oceanic
circulation reorganisation. The aim of the present study is to quantify the
impact of varying Tethys seaway depths on middle Miocene ocean and
climate, in order to better understand its role in the MMCT.
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We present four sensitivity experiments with a fully coupled ocean-atmosphere
general circulation model. Our results indicate the presence of a warm and
salty water source in the northern Indian Ocean when the eastern Tethys is
deep open (4000 or 1000 m), which corresponds to the Tethyan Indian
Saline Water (TISW) described on the basis of isotopic studies. This water
source is absent in the experiments with shallow (250 m) and closed
Tethys seaway, inducing strong changes in the latitudinal density gradient and
ultimately the reinforcement of the Antarctic Circumpolar Current (ACC).
Moreover, when the Tethys seaway is shallow or closed, there is a
westward water flow in the Gibraltar Strait that strengthens the Atlantic
Meridional Overturning Circulation (AMOC) compared to the experiments with
deep-open Tethys seaway. Our results therefore suggest that the shoaling and
final closure of the eastern Tethys seaway played a major role in the oceanic
circulation reorganisation during the middle Miocene.
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The results presented here provide new constraints on the timing of the
Tethys seaway closure and particularly indicate that, prior to
14 Ma, a deep-open Tethys seaway should have allowed the formation of
TISW. Moreover, whereas the final closure of this seaway likely played a
major role in the reorganisation of oceanic circulation, we suggest that it
was not the main driver of the global cooling and Antarctica ice-sheet
expansion during the MMCT. Here we propose that the initiation of the MMCT
was caused by an atmospheric <i>p</i>CO<sub>2</sub> drawdown and that the oceanic changes
due to the Tethys seaway closure amplified the response of global
climate and East Antarctic Ice Sheet. |
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ISSN: | 1814-9324 1814-9332 |