Indonesian throughflow control of the eastern equatorial Pacific biogeochemistry
Indonesian throughflow control of the eastern equatorial Pacific biogeochemistry
Two model simulations were performed to address the influence of the Indonesian throughflow (ITF) on the biogeochemical state of the equatorial Pacific. A simulation where the ITF is open is compared with an experiment where it is closed, and it is first shown that the impacts on the physical circulation are consistent with what has been found in previous modelling studies. In terms of biochemistry, closing the ITF results in increased iron concentration at the origin of the Equatorial Undercurrent (EUC). But the 11Sv of water otherwise transferred to the Indian Ocean remain in the equatorial Pacific, which result in a 30 m deepening of the thermocline/ferricline in the eastern Pacific. This deepening decreases the iron concentration of the equatorial wind driven upwelled water and cancels the iron increase advected by the EUC. The iron decrease of the equatorial upwelled water leads to decrease primary production by 15% along the equator.
Indonesian throughflow, Pacific, biogeochemistry
L05609
Gorgues, T.
71d95905-bd04-4d29-9f20-4496adba9a42
Menkes, C.
7a30ebbe-4117-4039-a912-c94e6a40cb3e
Aumont, O.
f51d877d-8bb8-4a89-96b0-0eeeda8ea00c
Dandonneau, Y.
c76a530e-c935-4c41-bafb-092d6c722c07
Madec, G.
7e2ec04b-896a-4861-b2d0-b74f39d748c2
Rodgers, K.
c88a465f-c374-4ecf-aecc-f0496c1b8281
2007
Gorgues, T.
71d95905-bd04-4d29-9f20-4496adba9a42
Menkes, C.
7a30ebbe-4117-4039-a912-c94e6a40cb3e
Aumont, O.
f51d877d-8bb8-4a89-96b0-0eeeda8ea00c
Dandonneau, Y.
c76a530e-c935-4c41-bafb-092d6c722c07
Madec, G.
7e2ec04b-896a-4861-b2d0-b74f39d748c2
Rodgers, K.
c88a465f-c374-4ecf-aecc-f0496c1b8281
Gorgues, T., Menkes, C., Aumont, O., Dandonneau, Y., Madec, G. and Rodgers, K.
(2007)
Indonesian throughflow control of the eastern equatorial Pacific biogeochemistry.
Geophysical Research Letters, 34, .
(doi:10.1029/2006GL028210).
Abstract
Two model simulations were performed to address the influence of the Indonesian throughflow (ITF) on the biogeochemical state of the equatorial Pacific. A simulation where the ITF is open is compared with an experiment where it is closed, and it is first shown that the impacts on the physical circulation are consistent with what has been found in previous modelling studies. In terms of biochemistry, closing the ITF results in increased iron concentration at the origin of the Equatorial Undercurrent (EUC). But the 11Sv of water otherwise transferred to the Indian Ocean remain in the equatorial Pacific, which result in a 30 m deepening of the thermocline/ferricline in the eastern Pacific. This deepening decreases the iron concentration of the equatorial wind driven upwelled water and cancels the iron increase advected by the EUC. The iron decrease of the equatorial upwelled water leads to decrease primary production by 15% along the equator.
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Published date: 2007
Keywords:
Indonesian throughflow, Pacific, biogeochemistry
Organisations:
National Oceanography Centre,Southampton
Identifiers
Local EPrints ID: 64340
URI: http://eprints.soton.ac.uk/id/eprint/64340
ISSN: 0094-8276
PURE UUID: 44bb3913-f50a-47bc-b4d3-963801e5ed40
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Date deposited: 10 Dec 2008
Last modified: 15 Mar 2024 11:48
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Contributors
Author:
T. Gorgues
Author:
C. Menkes
Author:
O. Aumont
Author:
Y. Dandonneau
Author:
G. Madec
Author:
K. Rodgers
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