Mixed layer depth over the global ocean: An examination of profile data and a profile-based climatology
Mixed layer depth over the global ocean: An examination of profile data and a profile-based climatology
A new 2° resolution global climatology of the mixed layer depth (MLD) based on individual profiles is constructed. Previous global climatologies have been based on temperature or density-gridded climatologies. The criterion selected is a threshold value of temperature or density from a near-surface value at 10 m depth (?T = 0.2°C or ?? = 0.03 kg m?3). A validation of the temperature criterion on moored time series data shows that the method is successful at following the base of the mixed layer. In particular, the first spring restratification is better captured than with a more commonly used larger criteria. In addition, we show that for a given 0.2°C criterion, the MLD estimated from averaged profiles results in a shallow bias of 25% compared to the MLD estimated from individual profiles. A new global seasonal estimation of barrier layer thickness is also provided. An interesting result is the prevalence in mid- and high-latitude winter hemispheres of vertically density-compensated layers, creating an isopycnal but not mixed layer. Consequently, we propose an optimal estimate of MLD based on both temperature and density data. An independent validation of the maximum annual MLD with oxygen data shows that this oxygen estimate may be biased in regions of Ekman pumping or strong biological activity. Significant differences are shown compared to previous climatologies. The timing of the seasonal cycle of the mixed layer is shifted earlier in the year, and the maximum MLD captures finer structures and is shallower. These results are discussed in light of the different approaches and the choice of criterion.
mixed layer, mixed layer depth criterion, density compensation
C12003
de Boyer Montégut, Clément
f5a08071-2070-430c-a947-a6fe05a2f4d2
Madec, Gurvan
ffb28deb-4bbd-4a4c-914f-492f813e4864
Fischer, Albert S.
82279735-43e0-4814-9815-ccdfd513646c
Lazar, Alban
50993040-d51d-4927-9d7c-74b1db898cca
Iudicone, Daniele
e126ed06-8bab-4971-abf1-98a0d5f9dc7f
2004
de Boyer Montégut, Clément
f5a08071-2070-430c-a947-a6fe05a2f4d2
Madec, Gurvan
ffb28deb-4bbd-4a4c-914f-492f813e4864
Fischer, Albert S.
82279735-43e0-4814-9815-ccdfd513646c
Lazar, Alban
50993040-d51d-4927-9d7c-74b1db898cca
Iudicone, Daniele
e126ed06-8bab-4971-abf1-98a0d5f9dc7f
de Boyer Montégut, Clément, Madec, Gurvan, Fischer, Albert S., Lazar, Alban and Iudicone, Daniele
(2004)
Mixed layer depth over the global ocean: An examination of profile data and a profile-based climatology.
Journal of Geophysical Research, 109, .
(doi:10.1029/2004JC002378).
Abstract
A new 2° resolution global climatology of the mixed layer depth (MLD) based on individual profiles is constructed. Previous global climatologies have been based on temperature or density-gridded climatologies. The criterion selected is a threshold value of temperature or density from a near-surface value at 10 m depth (?T = 0.2°C or ?? = 0.03 kg m?3). A validation of the temperature criterion on moored time series data shows that the method is successful at following the base of the mixed layer. In particular, the first spring restratification is better captured than with a more commonly used larger criteria. In addition, we show that for a given 0.2°C criterion, the MLD estimated from averaged profiles results in a shallow bias of 25% compared to the MLD estimated from individual profiles. A new global seasonal estimation of barrier layer thickness is also provided. An interesting result is the prevalence in mid- and high-latitude winter hemispheres of vertically density-compensated layers, creating an isopycnal but not mixed layer. Consequently, we propose an optimal estimate of MLD based on both temperature and density data. An independent validation of the maximum annual MLD with oxygen data shows that this oxygen estimate may be biased in regions of Ekman pumping or strong biological activity. Significant differences are shown compared to previous climatologies. The timing of the seasonal cycle of the mixed layer is shifted earlier in the year, and the maximum MLD captures finer structures and is shallower. These results are discussed in light of the different approaches and the choice of criterion.
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Published date: 2004
Keywords:
mixed layer, mixed layer depth criterion, density compensation
Identifiers
Local EPrints ID: 64619
URI: http://eprints.soton.ac.uk/id/eprint/64619
ISSN: 0148-0227
PURE UUID: 8c9d814b-7f21-4fb8-ac15-6f97a6540064
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Date deposited: 05 Jan 2009
Last modified: 15 Mar 2024 12:00
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Author:
Clément de Boyer Montégut
Author:
Gurvan Madec
Author:
Albert S. Fischer
Author:
Alban Lazar
Author:
Daniele Iudicone
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